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Electronic counting of gluing cycles of ultrasonic gluing device in packaging machine Group of inventions relates to the field of packaging equipment and can be used in packaging by method of ultrasonic welding. The packing machine comprises an ultrasonic gluing device. The gluing device comprises a signal source of electrical energy, an ultrasonic transducer and an electronic counter. The ultrasonic transducer is electrically connected to the signal source of electrical energy. The transducer is made with the ability to receive a signal of electric energy and heat sealing of sheet packaging material. The counter is made with the ability to count cycles of the ultrasonic gluing. |
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Invention is intended for usage in food industry, in particular, for separation and clamping of a sleeve-shaped package filled with material being packed. The clip applier is intended for separation and closure of a tubular packaging casing containing a filler material such as sausage mince. The clip applier contains at least one first and at least one second pair (30, 35) of displacing elements positioned axially one after another relative to the package axis (A). Each pair (30, 35) contains an upper and a lower displacing elements (32, 34, 36, 38). Each pair (30, 35) of displacing elements is capable of linear reversive motion within the first and the second planes from the opened position, wherein the displacing elements (32, 34, 36, 38) are maximally distanced from each other, into the second position wherein the displacing elements (32, 34, 36, 38) are at the minimum distance from each other. The first linear guide(40) contains at least one first and at least one second guiding rods (55, 65) for guiding two pairs of displacing elements (30, 35) within the first and the second planes during their linear movement from the opened position into the closed one. The first and the second guiding rods (55, 65) are positioned within a plane that is parallel to the first and the second planes of the first and the second pairs of displacing elements (30, 35). |
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Preservation of bamboo blank (versions) and preserved blank (versions) Invention relates to woodworking, particularly, to preservation of separate bamboo blank. After drying to moisture content of 8-30%, long bamboo blank or several such blanks in a bundle are wrapped about with water- and gas-tight shrinkable film or fitted in sleeve of such film. Then, the film is subjected to high-temperature heating flow to shape it to packed blank. Film ends are secured at blank ends for package sealing. Said shrinkable film represents either PET, PVC or polyolefin film. |
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Proposed device comprises loader to grip primers from blister by vacuum sucker and to transfer them to line vibrator. The latter can feed primers to cartridge case assembly line. |
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System and method for pressurisation of plastic vessel Proposed system comprises actuator and basic unit. Said actuator comprises structural part and retainer. The latter serves to retain section of said vessel so that vessel base section is not retained. Basic unit comprises heating surface and serves to accommodate the vessel base section. Heating surface is designed to transfer heat to said vessel base section. Aforesaid actuator is designed to apply linear pressure to said vessel so that vessel base section stays in direct contact with basic unit. At power transfer to vessel base section, said basic unit is, in fact, fixed in direction of actuator displacement. Proposed method comprises making of closed or sealed plastic vessel with content, displacing it to basic unit so that vessel base section is not retained. Basic unit can engage with at least the part of vessel base section. Linear pressure is being applied to make plastic vessel engage with basic unit. Heat is transferred to at least the vessel base part when it is engaged with basic unit. At power transfer to vessel base section, said basic unit is, in fact, fixed in direction of actuator displacement. Invention covers the other versions of this process. |
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Sealing element for soldering of liquid food products packages Sealing element 15 comprises heater 20, 21 arranged for heat-sealing of packing material at spaced apart transverse sections of pipe 2 so that multiple sealed packages are produced. It includes groove 60 to interact with cutting element 62 arranged at counter-sealing element 16 in cutting. At cutting, sealed package 3 is separated from pipe 2. Sealing element 15 comprises at least one slit 70 extending between groove 60 and first outer wall 53, 54 of sealing element 15. |
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Method and device for soldering of tubular polymer package and package thus produced Set of inventions relates to soldering of tubular polymer package. Proposed method comprises stages described below (a) Wrapping of laminar material (11). (b) Placing the laminar material edges (8, 9) nearby. (c) Extruding the softened polymer cord (12) to be placed at said edges (8, 9). (d) Smelting the edges (8, 9) to be bonded by cord (12). (e) Application of pressure to soldering zone (10). (f) Cooling of produced joint. Proposed device comprises vertical soldering rod coated by laminar material, softened polymer rod extruder and applicator to by applied between soldering rod outer surface and laminar material. |
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Device and method of sealing trays Device comprises a tool for thermal sealing, two transport mechanisms located in the lateral direction at a distance from each other for moving the trays to the tool and from it along the respective paths feeding the trays, located in the lateral direction at a distance from each other, the device for feeding film to the tool, aligned with each path. At that the tool comprises two lower support elements each of which is aligned with a respective path and on each of which the trays can be moved, the upper plate with heaters aligned during operation to each tray on the support elements, and means for selective moving the support elements to the plate to bring the trays into contact with the film for subsequent gluing. The method of sealing the trays is carried out using the device described above. In the method the tray is transferred to the tool for thermal sealing and from it along the respective located in the lateral direction at a distance of paths of feeding trays. At that the thermally sealable films are fed to the tool, aligned with each path, and the support elements are selectively moved to the upper plate to bring the trays in contact with the film for subsequent gluing. |
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Sheet for placement of articles Invention relates to a sheet for demonstration of articles, containing a demonstration zone having a plurality of adhesive areas. Each adhesive zone comprises one or more adhesive spots. Each adhesive zone is additionally connected with one or more article identifiers. |
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Method of packing piece goods and device for its implementation In proposed method the bundle with a piece good is formed by wrapping it with packing material in the form of web by rotating the web by a predetermined number of rotations in the plane of forming the bundle and subsequent cutting off the excess material. At that the rotation of the web in the plane of forming the bundle is carried out using two plates of gripping between which the good is previously placed and gripped, laid on the packaging material. Upon termination of the process of rotation of the plates of gripping one end of the formed bundle is fed by the plates of gripping to the clamping mechanism for clamping the edge of the material and the final good packaging is carried out by creating on the clamped end of the formed bundle of twist like a candy twisting by additional rotation of two plates of gripping the plane of forming the bundle. The device for implementation of the method comprises sequentially mounted mechanism of feeding and cutting the material and the mechanism of forming the bundle. The mechanism of forming the bundle is made in the form of a manipulator comprising a base mounted on a linear guide for moving the manipulator along it by means of screw pair which is kinematically connected to the drive of movement of the manipulator, the grip mounted on the manipulator base and comprising two plates fixed to their corresponding linear guide of the grip kinematically connected to the drive of relative motion of the plates of gripping, as well as the drive of the grip rotation kinematically connected to the plates of gripping and fixed to the base of the manipulator on one axis with its linear guide. At that the mechanism of forming the bundle is additionally provided with a clamp made with the ability to hold the edges of the material near the formed bundle at the side opposite to the side of location of the drive of rotational movement of the plates of gripping and made in the form of two clamping plates mounted on the respective guides of the clamp connected with an independent drive for relative motion of the clamping plates when clamping the edge of the material near the formed bundle. |
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Device for oriented feeding and stacking of product stacks Device comprises a feeding conveyor, a lift, a pusher, a table, a hopper with movable partition walls. At that all the mechanisms are connected with the system of automatic control. |
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Blower for heat tunnel of packing line and blower impeller Blower comprises an electric motor attached to the upper wall of a heat tunnel case with the motor flange being coupled with the upper wall 1 by bolts, and an impeller 3 coupled with the electric motor 2. The longitudinal axis of the electric motor and its shaft 4 is set vertically in respect to the longitudinal axis of the heat tunnel, one end of an extender 5 is connected immovably to the shaft, with the possibility of vertical alignment, the other extender end is fitted by an impeller 10. A hot air pressure blower 13 made as a box and fitted with holes in its lower wall is installed on the lower case wall, the impeller 10 is set in the cavity of the pressure blower 13 which is communicated with the blower air ducts 18 attached to the side case walls. Each air duct 18 is provided with holes directed to the side of the horizontal surface of a conveyor, the extender is set in the holes of the upper and lower case walls. The impeller comprises a round metal disk with blades, the end of every blade is inclined to the radial plane and has a root zone, a middle zone and an end zone along its height. The blade in its cross section is twisted around its symmetry axis in opposite directions so that its cross section is of a zigzag form. The blade twist angles in the section set closer to the blade root zone at the distance of 1/3 of the blade height fall within the range from 45° to 90°, and the blade twist angles in the section set at the distance of 2/3 of the blade height fall within the range from 15° to 45°. Each twist angle is placed between a tangent passing through the midpoint of the blade and a tangent passing through the extreme point of the blade. |
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Method of manufacturing package, device for its implementation and package Group of inventions relates to packaging production from thermoplastic materials. The device comprises a film supply unit, mechanism of its pulling, the unit of formation of the package, the mechanism of high-frequency welding, and the cutting tool. At that the device additionally comprises fold-generator providing the ability of feeding from two bobbins of thermoplastic material and the material with dielectric properties with the thickness of about 20 mcm, superimposed on each other, the bend in the longitudinal direction with the placement outside the thermoplastic material, followed by winding the fold on the receiving drum and its feeding to the unit of package formation with the welding, with at least one ridge. The device also comprises a cooling system, and means for placing the packaging in a stack. The method comprises unwinding the thermoplastic material, its cutting with the cutting tool, forming the package and high frequency welding. At that fold-generating is performed, as described above, and after welding the package is cooled and placed in a stack. The package comprises at least one ridge and is obtained with the above method using the above device. |
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Batcher and method of filling enclosure Invention relates to batchers. Batcher (1) comprises powder loading funnel (2), plate (11) with surface (3) provided with at least one enclosure (5) to be filled with particles and filler (6). Said filler (6) can displace over said surface (3) to transfer said particles into said enclosure (5). Note here that said filler (6) is drawn in towards said surface (3) to apply compressive force to said material towards said surface (3) so that said material is forced into said enclosure (5). This invention allows processing of sticking particles and accurate feed of the latter into every enclosure. |
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Container orienting holder with roll supports and method of container orientation Holder (10) for container includes at least two rollers (18) and base area (12). The rollers are made of resilient material, for instance elastomer, including polymeric foams. Rollers are located on levers (15, 16) which overhang over base area and usually contacts with container (30) in the upper part of the container. The levers supporting rollers can rotate. Contractibility of roller's resilient material can be increased by means of forming channels (27) in roller structure. Roller's resilient material provides reliable container gripping on filling line including reliable gripping on containers which can be partially out of specified tolerances. |
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Device for loading product groups Device for feeding one or more products to desired position on product carrier contains dumping conveyor containing two sections of conveyor made capable to be moved in lateral direction and controlled to provide falling of products to desired position along length of dumping conveyor . Herewith, the dumping conveyor contains guiding devices located over two sections of conveyor and made movable in lateral direction and controllable. Method implemented by the device includes placing a product carrier under dumping conveyor, products transfer onto the dumping conveyor, arrangement of products on the dumping conveyor, side guides adjustment to be engaged with products, and opening the dumping conveyor for product dumping. |
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Filling machine and method of ensuring hygienic environment in filling machine Method comprises dehumidification of air, creation of air flow through the chamber of filling the package with the liquid content by continuous supply of dry air into the chamber, providing air discharge from the chamber through the inlet channel for packages, through which the unfilled packages enter to the chamber, and/or through the outlet channel for the packages, through which the filled packages leave the chamber. At that the dried air is supplied in such an amount that in the chamber the excess pressure is created and to provide the displacement of air in the chamber of 25-250 times per hour, and for absorption the water available in the form of liquid accumulations present in the chamber to create the dry environment creating the hygienic environment, prevent the development of microorganisms. |
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Unit for sterile packaging of confectionery products Unit comprises, located along the packaging path, at least one first sterilising and heating unit for the first thermoformed tape, a forming unit to create on the first tape at least one compartment for receiving products, a feeding unit for supplying products to the compartment, and the second sterilising and feeding unit for feeding a second closing tape to the first tape, a welding unit for bonding the tapes and closing the product in the receiving compartment, a cutting unit for cutting the tapes and creating at least one sterile container, a continuous sterile air duct extending along the packing path and made for holding the sterile gas. And the air duct is common for the units and at least partially bounded with the tapes, each unit forms a part of the respective working module, which is independent from other modules and releasably connected to adjacent modules. Each module comprises a respective supporting frame which is independent from the supporting frames of the other modules and is mounted along the adjacent supporting frame. The frames support the corresponding operating means made with the ability to perform a specific function of the corresponding module. Some of the frames support the respective half-shells connected to adjacent half-shells by the releasable seals. Each shell forms the respective part of the continuous sterile air duct and each frame supports the respective flat support surface, which differs from the support surface formed by other frames. At that the support surfaces form the individual segments of the guide of sliding for the first tape. |
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System and method of preparing, arranging and packaging of foodstuffs System comprises a point of arranging and packaging of foodstuffs, having a first working area of arranging of the foodstuff and packaging the arranged foodstuff, and a point of arranging the orders for dishes, having a second working area of arranging the orders for dishes, in which the foodstuff is placed, packed on the first working surface. Below the first working area the conveyor is located, which extends from a position near the first working area to a position near the second work area. Near the first working area there is an opening for access to the conveyor, allowing the personnel access to the conveyor for the purpose of manual loading of the foodstuff on the conveyor, arranged and packed in the first working area, for its transportation below the first working area to a position near the point of arranging the orders for dishes. |
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Reinforcement bar binding machine Proposed machine comprises stationary guide for wire coiling and moving guide for coiling. Moving guide lower section is fitted in bore made at the machine body bottom section on the axle to turn relative to said body. It can receive the wire fed from stationary guide to direct the wire located above and received by stationary guide. This machine comprises also the closing section arranged between moving guide and bore surface top section for permanent closure of the clearance between moving guide lower section and top section. |
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Method of processing package with single medication dose Invention relates to the field of pharmaceutics. A method of deagglomeration of a package content with, at least, one single dose of medication on a belt with a multitude of packages with a single dose of medication includes realisation of contact between an ultrasonic probe and the belt providing vibration, by which content of the package with, at least one single dose can be, at least, partially deagglomerated, and a composition of the package with one single dose of medication includes a thermally formed box, and the ultrasonic probe contacts with the belt in such a way that it does not simultaneously contact with the thermally formed box. The method is realised before the final operations in the process of the package production. |
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Bottle pusher for tunnel-type sterilisation drier Proposed mechanism comprises pusher unit and several teeth engaged with conveyor screen. Said teeth are engaged with pusher unit for it to pass over said teeth and to be carried over screen conveyor. |
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Proposed machine comprises feed section, rotary drum including at least one soldering plate to make single joint and filament that makes a softening area. The latter is located inside soldering area making the softened area inside said single joint and arranged to feed the web from feed section thereto. Machine comprises discharge section to receive the web from rotary drum and separation ply arranged at, at least, one part of said soldering area. |
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Easy-open and reclosable package with discrete strip and web with die-cut element Easy-open and reclosable package comprises a package comprising the first and second side panel each of which has an outer and an inner surface, a first and a second side edge and a first and a second end, the first end and the second end, and the first and second side panels which are connected together along their respective second ends, a discrete strip located between the first and second side panels, comprising a main strip having a first and a second surface, the first and the second end and the first and the second side edge. The main strip is located separately from the first end of the package and is located separately from the second end of the package. The first part of the first surface is coated with contact glue and glued to the inner surface of the first side panel on the first part of the first side panel, and the second part of the first surface is attached to the inner surface of the first side panel on the second part on the first side panel. The die-cut element is located on the first side panel. The first end of the first side panel is connected to the second side panel. The product is located in the package. |
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Device comprises the first and the second clamping elements. The first clamping element is made movable between an operative position in which it exerts pressure on the first area of the said opening device against the said package and a free position in which it is separated from the opening device. The second clamping element is made movable between the operative position in which it exerts pressure on the second area of the opening device against the package and a free position in which it is separated from the opening device. The first and second areas are located transverse to each other. The first clamping element is capable to move between the first operative and the first free position in the first movement which is independent from the second movement, in which the second clamping element is capable to move between the second operative and the second free position. The assembly for exerting pressure to the sequence of the opening devices attached to the packages of food products poured into their tube comprises several clamping devices described above, cyclically moved along the endless path (P). The assembly comprises the first and the second guide plates. The first guide plate interacts cyclically with the first rollers of the respective clamping devices along the first part of the path (P), to move the first clamping elements from the first free positions to the first operative positions. The second guide plate interacts cyclically with second rollers of the clamping devices along the first part of the path (P), to move the second clamping elements from the second free to the second operative positions. |
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Packaging machine and method of packaging products Machine comprises a device for forming a sleeve of packaging material, in which the products are placed, the sealing device that produces transverse welded seam to form the bags, a device for removing air from each bag through the opening in the bag. At that the device comprises a locking element located between the sealing device and the device for removing air. The locking member holds the sleeve, and isolates hermetically the bag with product. At that the device for removing air additionally acts under the influence of the locking element on the sleeve. In the method of packaging the sleeve of packaging material is preliminary placed, a number of transverse welded seams on the sleeve is made for creating the bags, the product is placed in each bag, a hole is made in each bag, through which air is removed, and additional welded seam on the bag is created for isolation of the hole and hermetic sealing of the bag. At that the bag with the product is additionally hermetically isolated during the hermetic isolation the air is removed from the bag. |
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System for packing of products System for vertical packing into a container of a predetermined amount of objects entering in the system item-by-item. The system comprises a grouping unit to form a group of objects, mounted relative to each other in the positions defined by the specified pattern, with overlap between each successive and each preceding object, a transport unit for supplying the group of objects into the container filling system by moving it in the lateral direction, a container filling system placing the group of objects in the container in the controlled mode. The system also comprises a unit of operations with the container, comprising means for receiving and holding the empty container in the vertical position, means for tilting the empty container to 90° in the container filling system and backward tilting of the filled container to the vertical position and for mounting the filled container on the output conveyor, and a control unit for controlling the operation of grouping, transporting units, the container filling system and operations with container. At that the speed of each unit is set proportional to the flow of the object through each of the units and the container filling system. |
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Method of packaging liquid product Invention relates to packaging of liquid product, such as a food product, particularly a product, which is sensitive to oxygen, into the container with the low oxygen content, having an opening. The method comprises removing air from the container by filling it with liquid to a nominal volume in the unregulated atmosphere, placing the filled container in the non-oxidising atmosphere consisting of at least one non-oxidising gas, the partial pouring of liquid from the container in the non-oxidising atmosphere so that at least one non-oxidising gas replaces the product poured out of the container. Then the container opening in the non-oxidising atmosphere is hermetically sealed. The installation for implementing the method comprises a flow-line production line, in which the means for filling containers with liquid product to a nominal volume in the unregulated atmosphere, a chamber with non-oxidising atmosphere filled with inert gas and containing means of conveyor feeding for moving the containers along, are located successively in the direction of forward movement of containers. At that in the chamber a device is located for emptying the containers by pumping. The installation also comprises a device for hermetic sealing the container opening, built in the chamber. The invention also provides the use of a method or the installation for packaging liquid food product. |
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Forming element is intended for volume control for package formed out of package material sleeve and sealed in several sleeve sections perpendicular to the main sleeve axis. The element includes main wall capable of cyclic interaction with the first part of sleeve running between two sequential sections, and at least one flap running along the main wall. The flap moves against the wall between a first position where it interacts with the second sleeve part running between two sequential sections in order to control volume between sequential sections of package formed, and a second position where the package is separated from the second part. Additionally the forming element includes tensile elements shifting the flap into one of the two positions, and engagement surface attached functionally to the flap and engaging a control element to shift the flap to another first or second position against elastic devices. The flap is attached to wall around second axis with articulated joint. In addition, the forming element includes a case with engagement surface, attached to the wall by articulated joint around a third axis different from the second axis and displaced against engagement surface, and linking element positioned between the case and flap so that the flap turns around the second axis when the case turns around the third axis. Package module includes two clamps moving in cycles between closed configuration when they grip and sold a sleeve in several transverse sections, and open configuration when they separate themselves from the sleeve. Each clamp features a forming element described above, and is attached to it so that when the clamps are closed, main walls of respective forming elements engage with respective first parts of sleeve, and respective flaps shift between first and second positions. Method of package forming involves activation of cyclic interaction of two main walls of respective forming elements described above with respective first parts of a sleeve between two sequential sections, at least one flap positioned along respective wall. Flap of at least one of forming elements is shifted against the wall from initial position where it is separated from the sleeve, to operation position where it engages the second part of sleeve running between two sequential sections, and rotation of the case attached by joints to a forming element wall is converted into flap rotation. Another method of package forming differs from the first one by involving movement of each main wall against respective clamp. Forming unit includes two clamps described above in a package module. Each clamp has a forming element described above. |
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Proposed method comprises preparing at least one sterilised double-barrel chamber with separation element in a cartridge. The latter is made, preferably, of plastics to intake at least one double-barrel system to make at least one system retained in the cartridge irrespective of its orientation. Note here that said cartridge is fitted in vessel adequately closed. Then, said vessel is transferred via a sluice into clean room, opened to fill the first barrel and closed. Said cartridge is turned over, filled to close the second barrel and to remove said vessel via said sluice from said clean room. In compliance with the other version, with first barrel filled said vessel is closed by gastight element to subject the solution to sublimation chamber in said first barrel. Pre-sterilised structural system comprises above described double-barrel system, cartridge and vessel. Said vessel is sealed by gastight closing element to allow active and/or auxiliary substance to be subjected to sublimation drying. In compliance with some other version, said pre-sterilised system differs from aforesaid and comprises and, preferably, is made of plastics to be reliably retained in said system irrespective of cartridge orientation. |
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Method of disperse material loading into soft containers and device for method implementation Device for container filling includes support ring 12 and top platform 9 positioned coaxially one under the other at some distance and capable of movement in vertical plane by lifting device 1. Support ring 12 and top platform 9 are interconnected by concentric tensile elements 10 and at least three clamping levers 4 with equal arms connected by joints, where joint 2 connecting arms of each lever is connected by joint with support ring 12. Also the device includes hydraulic cylinders 11 positioned in concentric pattern on the support ring and effecting clamping levers via it, elastic housing 3 with one end attached to the top platform and the other end attached to the bottom end of larger arm of each lever. In addition, the device includes bottom support platform 7 for placement of soft container and device for disperse material consolidation moving vertically coaxially inside the top operation platform and support ring. Device for material consolidation used in the device described above includes cylindrical shell, moving elements positioned concentrically at the outer side of shell and moved vertically by hydraulic cylinders mounted on the shell. Shell wall features vertical slots through which mobile working elements enter the shell space, and number of slots matches number of mobile elements. Each working element is connected by a spring to respective mobile element by rotation axle, unloading openings are made in the bottom shell part to push material from the shell space with a conical bottom for material consolidation inside a soft container. Method of filling is implemented by consolidation device described above. A container is put on the bottom platform, its upper edge attached to lifting lugs, then hydraulic cylinders bring lower ends of clamping levers together through the support ring to enter loading neck of container, top platform is lowered inside the container, clamping levers are opened and tilt in joints thus spreading the container, straightening folds and making the container into work form. Elastic housing mounted on levers and platform ensures sealing of loading process and prevents dust emission to air; soft container is filled with material and consolidated. |
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Double package line and dosing system Group of inventions relates to package of primary goods, such as cans or bottles, into package sets. Package machine includes at least two independent lanes where primary goods placed in groups into secondary package are fed from package machine input into full-cycle third package device where secondary packages supplied directly from each of the two independent lanes are combined with a half-finished third package. Third package loaded by two or more secondary packages is completed and transported by transmission device from the mentioned third packing device basically at the same speed with each of two independent lanes where incoming primary goods are put. |
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Method of filling big-bags with cullet Invention relates to filling big-bags with cullet and can be used in glass production and construction industry. Proposed method comprises placing of big-bags on weighing device of filling station, inflating of big-bags with air forced by blower, pre-crushing of cullet, feeding it into big-bag with the help of vibratory feeder and control over weight of cullet portion to be filled in big-bag. Note here that after crushing cullet is fractionated to fine fraction sized to less than 10 mm, larger fraction with particle size of 10-40 mm and coarse fraction with particle size over 40 mm. Note here that, first, fine fraction is fed into big-bag in amount of 20-25%, of total weight of the portion. Then, larger fraction is fed therein in amount of 75-80% of said total weight. Coarse fraction of cullet is returned after fractionation for additional crushing. |
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Device to measure concentration, sterilisation chamber and filling machine with said device Device to measure concentration of hydrogen peroxide comprises catalyst with inlet and outlet, thermometer to measure temperature of ambient medium nearby inlet and means to cause the flow through said catalyst. Besides, this device comprise second thermometer arranged inside the channel between catalyst inlet and outlet and means to calculate concentration from the difference between first and second temperatures. Sterilisation chamber for filling machine for making packages with food products and filling machine comprise above described device. |
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Method of printing on water-soluble film In compliance with proposed method, water-soluble film is continuously fed through at least one section of flexographic printing that contains material that features viscosity of 300 P to 10000 P. Said viscosity is maintained constant. Then, said film is fed into section of water-soluble bags production sections for forming in the molds directly after printing. |
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Method and device for packaging portioned products in blank for package Method comprises at least two webs of packaging material, aligned in parallel with the overlapping location of sides facing each other, and transported each towards the open upwards folding mine, at that the webs divide them transversely their located with overlap longitudinal edges to form flat patterns of blanks. Then the patterns using the folding punch entering the mine in the mine are placed in the mine with formation of an open upwards blank and filled with the portion of the product, and the projecting upwards parts of the blank are folded inwards with the location with overlap. At that the patterns with frictional closure before their placement in the mine are fed to the position of their placement over the mines, after which the free edges of the patterns are raised together at least to the level at which the edges are not in the area of the neighbouring mine, then the patterns are released from of frictional closure. The device for implementing the method comprises at least two, adjacent to each other, open at the top folding mines, each of which is provided with a folding punch inserted into it, the alignment device to align at least two webs essentially in parallel and with location with overlap of the edges facing each other, as well as a cutting device operating across the edges of webs and a transport device for moving the patterns to the mine. At that the transport device comprises two parallel guide devices, spaced from each other in the transverse direction, each of which comprises two located one over the other guide means formed to locate with the frictional closure of patterns between each other and also for their release. At that between the mines the lifting means is located for gripping from below the edges of the patterns, made with the ability to move between the lower position of the edges and higher position in comparison with it. |
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In the method the container is filled with products in uncontrolled atmosphere, the air is removed from the container due to its filling to the nominal volume with the liquid, the filled container is placed in a non-oxidising atmosphere consisting of at least one non-oxidising gas, the liquid is completely or partially removed from the container in a non-oxidising atmosphere, at that the products are held in the container so that at least one non-oxidising gas replaces the liquid in the container. Then the container opening is sealed by gas-tight manner in a non-oxidising atmosphere. The unit for implementing the method is a production line and comprises containers located sequentially in the direction of movement with an opening frontwards, a means for continuous filling the containers with liquid, a chamber with the non-oxidising gas, the means of conveyor supply of the containers forward and a device built-in in the chamber for overturning the containers for removing liquid, provided with means of retaining non-liquid products in the container, and a device for sealing closure of the container opening. The method or device for packaging food products, such as pieces of vegetables or meat, is applied. |
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Invention relates to moulding system 1 to make container 1. Said system comprises opposed moving mould half 10 and fixed half 20. Container 500 has bottom 57 from compacted cardboard blank, walls attached thereto and rim partially moulded from plastic and attached to top edge of said walls, all along their edges. Mould moving half 10 comprises at least core plate 4 and flat compaction frame 5 to displace relative to said core and has compaction surface 5a and surrounds said core 41. Besides, said half 10 has limiting frame 6 to be arranged between said core 41 and compaction frame 5. Mould fixed half 20 comprises at least one mould plate 7 with cavity 71 and compaction surface 7a. System 1 is equipped with extension nozzle 612 coupled with base stage 611 of said limiting frame 6. Note here that compaction surface 612a of said nozzle 612 has grooves or recesses located below the plane of compaction surface other part. Limiting frame surface or cutouts can comprises convexities or patterns, grooves of recesses located either level with surface 612a or extending a bit therefrom. Bulges or embossed patterns in said grooves or recesses allow making on container plastic rim of bulged edges 80 with grooves or recesses located there between located in possible version, said embossed patterns or bulges. |
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Invention relates to slicing the food products. Proposed device comprises slicing machine and loader assy. Said loader includes set of parallel grouping conveyor belts, means to level said conveyor belts with said slicing machine to receive serial row of slices. Said rows of slices are arranged across forward motion when grouping conveyor belt moves forward timed with slicing machine to form partial set of slices on every conveyor belt. Besides, said loader comprises conveying means for transfer of sets of slices grouped from said partial groups from grouping conveyor belts onto moving conveying surface. |
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Unit for mixing of loose materials Invention is tended for use in chemical industry, agroindustrial complex, construction, etc. Proposed unit comprises belt conveyor with drive, bins with proportioners arranged above said belt and mixing device composed by drums with resilient elements and discharge device. Note here that said bins with second material proportioners alternate over conveyor length with mixing devices while resilient elements on drum surfaces are shifted in spiral. Note here that every next drum has spiral direction opposite that of previous coil direction. For return of pre-prepared mix to first material bin top part, this unit has transfer system coupled with discharge device. |
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Self-adhesive shrinkage label and product with label Label is made with the ability to cover the said surface without complete wrapping the product and comprising a heat shrinkable tape with inner and outer surfaces and with the machine and transverse directions and a continuous adhesive layer of pressure-sensitive adhesive with the inner and outer surfaces covering substantially the entire inner surface of the heat shrinkable tape. At that the inner surface of the adhesive layer is adhered to the inner surface of the tape and the outer surface of the layer is made with the ability of adhesion with surface with at least one complex curvature. At that the tape is made with an ultimate shrinkage S measured by the method ASTM D1204 in at least one direction of at least 10 % at 90°C, and in another direction S±20%. The invention also relates to the product with the label. |
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Method comprises a device of internal radial 2 coil strapping 1, wrapping the coil 1 with polyethylene film 3 on the outer side with bending of the film to the end surfaces and in the hole of the coil, installation of outer 7a, 7b coil strapping. At that on top of the film the protective metal sheet 4 is mounted along the outer circumference of the coil 1, on the top of the sheet 4 circumferentially the outer strapping 7a, 7b is mounted, on the mating surfaces of the end surfaces of the coil and the protective metal sheet 4 the metal corrugated angle bars 5 are mounted, which are strapped with the outer strapping 7a, 7b circumferentially. In addition, in the hole of the coil 1 onto upper and lower semicircles the plastic sheets 6 are mounted, and the outer radial strapping 7a, 7b is mounted on the coil, and the connections 8 of all outer strapping are carried out by means of locks, cutting-outs or spot welding. |
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Article with binder and method of its manufacture Raised binder is composed by at least two webs and comprises concentric discrete bulged long elements surround by flat surfaces formed in every said web. Said discrete bulged long elements have exposed proximal ends. Note here that said discrete bulged long elements feature thickness smaller than that of flat sections. Proposed method comprises feed of at least two webs between pressure source and forming structure. Said structure comprises multiple discrete forming elements selected from the group including discrete holes, discrete recesses, discrete ledges and combination thereof. Then, pressure is applied from pressure source to webs and forming structure to press tightly said two webs to said discrete forming elements of said forming structure so that raised joint is formed. |
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Method and appliance for fluid transfer Appliance comprises container fluid with bottom opening, connector jointed to said container in said opening and furnished with valve to press it to closed poison by attracting first and second elements including magnetic material, and filling device with stiff element with perimetre smaller than that container opening with channel along the axis and one or more openings in container sidewall communicated with said channel. Note here that connector can change from closed position to open position by pressing stiff element to one first or second elements for communication of openings with container inner space. In compliance with another version, dispenser connector comprises nozzle with channel and one or more openings in its sidewall connected with the channel, platform around said nozzle and hole larger than nozzle perimetre. Note here that said nozzle is arranged in said hole while said platform including magnetic material surrounding at least partially said opening, and flexible sleeve secured to said platform to displace connector between closed position whereat flexible sleeve and/or platform close one or more openings of the nozzle and open position whereat at least one part of openings are open. Drink dispensing system comprises container with valve cushioning the bore made at its bottom to closed position, magnetic cap, nozzle with magnetic material at its upper surface or nearby it. Note here that said material features intensity sufficient for cap retaining by ruling out of displacement between said cap and nozzle at their contact. This system comprises platform surrounding the nozzle part in circle to displace around it. Container comprise connector jointed to said container in said opening and furnished with valve to press it to closed poison by attracting first and second elements including magnetic material, and filling device with stiff element with perimetre smaller than that container opening with channel along the axis and one or more openings in container sidewall communicated with said channel. Note that personal or commercial info unit is arranged at second element top surface while connector is attached to container by first and second element. Proposed method consists in using filling device and platform surrounding the nozzle. Note here that said container is arranged on filling device and comprises the connector while platform is brought in contact with outer surface of said connector for its displacement along the nozzle. Note that nozzle separated first element from second one to communicate the holes with container inner space. |
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Device contains thermoplastic part, connected with chamber with possibility of contacting with filling it substance, which has section in which element for injections can perform puncture, with possibility of restoring its impermeability under impact of laser radiation. Thermoplastic part contains first polymer material in first quantity by weight, which contains block-copolymer of styrene and possesses first elongation, second polymer material in second quantity by weight smaller than the first one and, at least, one substance, selected from group, including ethylene α-olefins, polyolefins and olefins, and possesses second elongation, which is smaller than the first one; pigment in amount, which makes it possible for case to absorb laser radiation to a considerable degree and prevent passing of radiation through walls to a considerable degree; and makes it possible to cover puncture in hermetic way; lubricating substance in amount which reduces friction force in the place of contact of case and element for injections. Described above device is used in method of manufacturing and filling chamber-containing device with substance. Section is punctured with needle with hollow conically-sharpened tip and, at least, one hole for liquid, located near needle end. Needle is also connected with source of substance. Needle for introduction of liquid into chamber is introduced into section in such a way as to a considerable degree prevents formation of thermoplastic material and their getting into chamber. Lubricating substance is introduced into the place of needle and section contact to reduce friction force between said elements; substance is introduced into chamber by means of needle, after that, needle is removed from section in such a way as to a considerable degree prevent formation of thermoplastic material particles and their getting into chamber. Laser radiation is aimed at puncture in section. In accordance with the second version in method first formed is chamber-containing case, under conditions of mainly laminar flow, after that, thermoplastic part is formed in said conditions in such a way that it contains section for performance of protocol by element for chamber filling with its further restoration under impact of laser radiation. Thermoplastic part and case are connected together with formation of sterile chamber before cooling to room temperature. Element aimed for filling chamber with liquid as well as for introduction of substance is introduced into section. After that, element is removed and laser radiation is aimed at puncture. |
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Device for filling containers comprised means (7) for supplying the filler material to at least one metering device (5) forming the passage (27) for the flow in which a metering valve (29) is located, which is made with the ability of opening at least for the periods of time for dispensing processes for distribution metered quantities of filler material through at least one filling line (9) into the corresponding containers. The metering device (5) in the passage (27) for the flow downstream from the metering valve (29) comprises the device (31, 33, 43) for selective creating a suction effect in the passage (27) for the flow, and a control device (39) is provided, which depending on the termination of the corresponding metering process caused by closing of the metering valve (29) activates the device (31, 33, 43) creating a suction effect. |
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Packaging machine and method of packing products Packaging subsystem that is used in a packaging machine for packing one or more products by means of a box workpiece, comprises a hopper for box workpieces, a feeding mechanism for extracting workpieces from the hopper and placing them on the first conveyor, a folding mechanism for folding the panels of the workpiece about the first conveyor, and the conveying mechanism which picks the workpiece folded substantially in the shape of an inverted U and locates it around one or more products conveyed by the second conveyor. The packaging machine comprises the above subsystem. The method of continuous packing comprises providing a continuous flow of workpieces on the first conveyor, providing a continuous flow of products on the second conveyor, folding the workpieces around the first conveyor in the shape of an inverted U, sequential selection of at least one of the structures in the shape of an inverted U and placing it around one or more products on the second conveyor, and folding the panels of the workpiece to complete formation of the box around the group of products. |
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Device for manufacturing and filling containers Invention relates to a device in which at least one tube from plasticised synthetic material can be provided by extrusion into the open mould, and at least the filler material can be fed by at least one filling device having several separate channels, in the respective container by means of the filling rod. At that the device comprises a nozzle covering the filling rod. The nozzle in its functional position for cleaning and/or sterilisation and/or drying establishes medium conductive communication between its respective cavity and filling device channel designed for it and during manufacturing and filling of containers it is removed from its functional position. The nozzle comprises the first and second functional cavities located offset with respect to each other in a direction of the longitudinal displacement of the corresponding filling rod, at that the rod end part enters the first cavity, with the outlet of the filling channel passing centrally in the rod. |
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In the machine the roll packaging laminated material is made in shape of a tube, the tubular material is longitudinally sealed along the longitudinal direction, and then filled with liquid food product to a predetermined liquid level. During retention of the tubular packaging material with sealing clamping devices and the opposing clamping devices below the liquid level at high speed, it is sealed transversely by heating and pressing with the help of these devices, and is cut in the transverse sealing zone to obtain the containers. The machine comprises a pressure flange cushioning pressure provided by the liquid level in the tubular material and above the transverse sealing position, and containing a space filled with a sterile gas, cushioning movement of the liquid food product. The machine also comprises means for measuring, indicating oscillations created by closing of the sealing clamping devices, for measuring a residual amount of sterile gas, based on the detected oscillations. |
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System and method for sterilisation chamber in filling machine System comprises a heating means for evaporating the sterilisation agent on the packaging web, which is fed through the chamber, and a control unit for controlling operation of the machine. The system also comprises nozzles controlled by a control unit, for spraying the sterile liquid onto hot surfaces of the sterilisation chamber for their cooling after stopping the machine. The method of cooling lays in spraying the liquid onto hot surfaces of the sterilisation chamber after stopping the machine. The inventions are also the sterilisation chamber and the filling machine, each of which comprises the above-mentioned spraying cooling system. |
Another patent 2513268.