Beschikbare device for transmission of securities (options), and a way for him

 

(57) Abstract:

The invention is intended for transportation of paper between two points in two directions. Beschikbare device for transmission of securities to support it moving sheet to guide the sheet in the range of angular positions includes an item in the form of a plate, deflector and spring. Element in the form of plates includes a first support plate for the sheet and the regional area. Regional area includes transmitting surface which in cross section ends on the losing edge. A deflector mounted to rotate on the element in the form of a plate and includes a second supporting surface for the sheet. The deflector includes a cross-section of the first section with the fingers, on which the second surface falls on the cone at the point, which forms a linear edge which is in contact with the transmitting surface. The deflector also has a first edge that is in contact with the surface of the first groove. The rib includes a Cam surface that properly interacts with the Cam supporting surface of the groove to create a fixed point of rotation during the rotation of the deflector.Noah edges with a transmitting surface, and the Cam surface with the Cam supporting surface of the groove. In all angular positions of the range of the linear edge is a backlash-free connection with the transmitting surface so that the documents can move it without them tearing. Method for transmission of securities incorporated in the work described device. The invention is reliable in operation and provides the oriented movement of the sheets in two directions, as well as in several angular positions, has a simple design with long lifetime. 3 C. and 25 C.p. f-crystals, 9 Il.

The present invention relates to bestelwagen device for transmission of securities. More specifically, the present invention relates to a device that operates as a pipeline for the transportation of paper between two points in two directions and which provides detection of paper on the device, while the device sends out its leaves in a certain range of angular positions of the latter. Specifically, the present invention is intended for use in ATMs.

ATMs are familiar from the prior art. Using ATMs is possible to conduct various banking transactions. Most rasprostranenie deposits only in the envelopes. The envelopes can be cash, currency or other valuable documents. The customer is required to he introduced into the machine using the keyboard the value of all objects placed in the envelope. A marking mechanism in the ATM usually marks the envelope identification data to associate with the operations performed by the client. The registration Deposit is also carried out on paper and/or electronic memory. Then the Bank or other institution that runs the ATM should compare the contents of the envelope with the data entered by the customer to ensure that the client has entered the correct data. Various objects placed in the envelope, then sorted and sent for further calculation and processing.

To minimize the time required for verification of deposits, was developed ATM, including mechanisms that can determine the merit of paper money, to scan and read receipts, and to make an electronic copy of both sides of the check or other negotiable instrument. Such devices can also sort the input objects into them, sending them in different compartments of the ATM. This reduces the time required for obosnovanie"ptx2">

The movement of documents within the cash required for reliable recognition, playback and sorting, it is very difficult. Documents must be carefully aligned and fitted to all their way to read and play. The documents must also be a certain way is focused on the various transmission mechanisms and outlets.

The free movement of documents between different types of transmission mechanisms and holding compartments creates constructive complexity. This is because the connecting device between such nodes often have joint or gap in which the document may be stuck or sadamasa. The more places or areas where you want to get a specific document, the more difficult it becomes to make it reliable transportation.

Thus, there is a need for the device to maintain paper documents during their transport inside the ATM, which can deliver documents in various selected angular directions in the absence of a joint at which such documents may be stuck or break.

The present of the invention is the creation of the mu sheets of paper can move in two directions.

Another problem solved by the present invention, is the creation of Bestimmung device for transmission of securities to support it moving sheet, in the direction of the above sheets in several angular positions.

The next task of the present invention is to provide Bestimmung device for transmission of securities for use in the ATM, the device for transmission can be bent in several angular positions.

Further the present invention is the creation of Bestimmung device for transmission of securities for use in ATMs, which can be used in combination with sensors to detect the presence and orientation of its leaves.

A further object of the present invention is to provide Bestimmung device for transmission of securities for use in the ATM, which ensures the precise alignment of the paper sheets passing through the device for transmission.

Another object of the present invention is to provide Bestimmung device for transmission of securities that would be reliable and simple in construction and would have a great life.

The above tasks are performed in the preferred embodiment of the present invention using Bestimmung device for transmission of securities, which includes the element in the form of a plate, the deflector element and the spring.

Element in the form of plates includes, generally flat first support sheet surface. The surface of the support plate, wider than the sheet, which can be transported on the surface in the direction in which the moving leaves. The surface that supports the sheet ends at the regional site. Regional area includes a cross-section transmitting surface, protruding at an acute angle relative to the first support sheet surface and are smooth continuation. Regional plot ends of the transmitting edge.

The deflector element is mounted for movement on the element in the form of plates. The deflector element comprises a second support sheet surface. The deflector also has first, second and third sections with your fingers. In cross section the first section with your fingers gently down the conical surface to the point where he captures the transmitting surface. Neredeyse surface element in the form of a plate in a number of angular positions deflection element.

The second section with the fingers deflection element is mainly parallel to the first section with your fingers. The second section with the fingers limits the angular movement of the reflector by concatenating the edge area on the first edge of the range of its angular positions.

Regional plot element in the form of plates includes a first groove located in the middle at the regional site, and the notch that is located remotely at the regional site. In the first embodiment of the present invention the first edge has a Cam surface that captures the slidable transversely protruding Cam supporting surface of the groove. The first edge further captures the bearing surface of the deflector on the transverse side of the first groove. The second edge on the deflector element is in the notch. The second edge has a side surface that interacts with the side rail. The side guide is used to adjust the sheets moving on the device. In the second embodiment of the present invention only one lateral guide supports the deflector element in the transverse direction, and in this case, the first edge captures kolachalama in the form of a plate and the deflector element. Triple spring moves the deflector element, moving a linear edge to the transmitting surface. Then, the spring moves the first edge to capture supports a Cam surface of the groove. The spring also moves the edge for engagement supporting the Cam surface of the groove. The spring also moves the edge to capture the bearing surface of the groove in the first embodiment of the present invention and a side surface for gripping the side rail in the first and second embodiments implementing the present invention. The spring then moves the deflector element at an angle to the first edge of the range.

Deflection element provides support for the sheets, moving on it. The deflector element can be located anywhere in the angular range, providing bestcovery and gapless capture the transmitting surface. As a result, the sheets can be reliably moved in any direction on the device. The device further provides a consistent and reliable moving, so moving the sheets can be reliably taken and removed from all nodes.

Fig. 1 is a top view of the first variant implementation Bestimmung device for propositional device for transmission of securities.

Fig. 3 is a view in section, viewed along the line 3-3 in Fig. 1, which shows the deflection element is in the first angular position.

Fig. 4 is a view in section along the line 3-3 in Fig. 1, which shows the deflection element is in the second angular position.

Fig. 5 is a top view Bestimmung device for transmission of securities connected with the supporting member for the sheet.

Fig.6 is a side view Bestimmung device for transmission of securities connected with the supporting member for the sheet.

Fig. 7 is an enlarged view in section of the first edge deflection element in connection with the groove element in the form of a plate.

Fig. 8 is a top view of the first alternative Bestimmung device for transmission of securities which are the subject of the present invention.

Fig. 9 is a top view of the second alternative Bestimmung device for transmission of securities which are the subject of the present invention.

In accordance with the aforementioned reference to the drawings and particularly in Fig.1 shows a first variant nestykovochka the adjustment device for the transmission of securities includes the element 12 in the form of a plate, the deflector element 48 and the spring 44.

The element 12 in the form of a plate includes a generally flat first support sheet surface 14. The support plate surface 14 being flat, can mainly be longitudinally protruding ribs. Such ribs are desirable for separation sticky leaves that move in a given direction, especially the leaves, which can be wet, damp or wet. Further, in alternative embodiments, the implementation of the present invention, generally flat surface in the present invention, may consist of many individual elements, each of which has a surface for supporting sheet.

As is shown in Fig.2, the first support sheet surface 14 in the cross-section includes an edge section 16. Regional section 16 includes transmitting surface 18, which is a smooth continuation of the first supporting surface 14 of the sheet and located at an acute angle thereto. Transmitting surface 18 terminates adjacent the transmitting edge 20.

The deflector element 48 is mounted for movement on the element 12 in the form of a plate. The deflector element 48 has a generally p is loscoe, may have a longitudinal protruding ribs or other elements, destroying it sticking sheets. On the support plate surface 22 has a cross section with a second transmitting surface 58, which is located at an acute angle relative to the surface 22. The deflector element has a pair located at a distance from each other of the edges 52, grabbing the sheet. Recesses 60 are located near the edges 52. As will be presented later, recesses 60 are adapted for making teeth guide element for the sheet. Deflection device also includes a number of protrusions 54. The tabs 54 are used to fill gaps between the rollers inside the ATMs, which are used to move the sheets.

The deflector element 48 further includes a cross-section of the first section 26 with the fingers. The first section 26 with the fingers down the conical surface to the point 28, where it interacts with the transmitting surface 18. The plot with the fingers provides a smooth transition from the transmitting surface element in the form of a plate on the second surface 22. The first section 26 with the fingers interacts with the transmitting surface along a linear edge 27. Section 26 with the fingers on the ASS="ptx2">

As is shown in Fig. 2, the deflector element further includes a cross-section of the connecting surface 30, which acts transversely with respect to the first section 26 with the fingers. The connecting surface 30 is always biased by a transmitting edge 20 by a series of movements of the deflection element. Deflection element further includes in cross section a second section 32 with the fingers. Section 32 with the fingers acts transversely with respect to the connecting surface 30 and generally parallel to the first section 26 with the fingers. The second section 32 with the fingers limits the range in which can move the deflector element. In the first extreme point of the rotational movement of the deflecting element shown in Fig. 3, the edge section 16 communicates with the second section 32 with the fingers.

As is shown in Fig. 1, the edge section 16 of the element in the form of plates includes a first groove 34 located mainly in the centre of the regional area. The deflector element includes a first edge 38, which is included in the first groove 34. As is shown in Fig.7, the groove 34 is exposed from the inside with the rear surface 33. The back surface 33 is located inside relative to predictve Cam supporting surface.

The first edge 38 acts between the first and second sections with your fingers. The first edge 38 has a lug 39, which is located, as shown, the lower edge 37. The protrusion 39 is in contact with the Cam surface 43. As will be later detailed, the Cam surface 43 when the slide cooperates with a Cam supporting surface on the flange 37 in the range of rotational movement of the deflection element.

The first edge 38 includes a side surface of a rib, which extends perpendicular to the back surface 33 and the Cam surface 37. In the first embodiment of the present invention shown in Fig.1 and 5, the side surface of the first edge 38 adjacent slidable in rotation to the bearing surface 35 of the baffle on one side of the groove 34. Thus, the deflector element is mounted for movement on the regional site and its movement in the transverse direction is prevented.

Further, the transverse marginal edge of the plot made the notch 36 and the deflector element has a second edge 40 which fits into a recess. The second edge includes a side surface 41. The side surface 41 when the slide interacts with b the bias current devices.

The deflector element 48 further includes in cross section a third section 42 with a finger that protrudes from the bottom surface 24. The stop 46 communicates with the third section 42 with the fingers and is in contact with the first lower surface 24. The stop 46 is in contact with the leg of the spring 44. The stop 46 is located under the same angle as the leg spring, which allows the leg of the spring to slide, interacting with emphasis, when the movement of the deflector element.

In a preferred embodiment of the present invention, the spring 44 is a triple spring, which moves the deflector 48 in three directions and acts between the plate 12 and the stop 46. Spring is installed with the possibility of removing the element in the form of a plate and her leg sticking out and up, as shown, for engagement with a support. The spring 44 moves the deflector 48, moving linear edge 27 to the transmitting surface 18. Triple spring 44 also moves the Cam surface 43 of the first edge 38 to the Cam supporting surface on the flange 37 of the groove and the side surface of the rib - bearing surface 35. Triple spring also moves the deflector to rotate upward, as shown in Fig. 2, the first edge of the range is Trama further rotation. This power offset causes the deflector to be at an angle with respect to the element in the form of a plate using other mechanical devices that capture and position the deflector element. After releasing the deflector element returns to its angular position shown in Fig.3, in which the second section with the fingers captures the regional section 16.

Regional plot element 16 in the form of a plate, the first portion 26 with the fingers and the second section 32 with the fingers deflection element, each contain plenty correspondingly spaced holes 50, as shown in Fig.1. The size of the holes 50 are selected in such a way that light rays pass of photosensors (not shown) through these holes. Holes ignore such identification rays in the range of movements of the deflection element. Holes 50 are used in conjunction with photosensory inside ATM for identification documents, roaming supported on the device. Multiple holes allow the use of such sensors to determine the width and terms of positioning of the documents passing through beschikbare device for transmission of securities.

As shown on stiny and the second surface 22 of the deflection element. Guide sheet is perpendicular to such surfaces and provides positioning of the plates. Guide sheet is shifted in the direction of the arrow 5, remaining near the surface that supports the sheet. However, the deflector element moves freely in its range. Lateral side 41 of the second rib 40 is displaced relative to the guide sheet with triple springs 44 and rotates relative to the guide sheet with no gap between them. The sheets supported on the device, optimally directed to a guide for the sheet during transport to ensure their positioning for recognition, reading and/or scanning with other devices within the ATM.

The deflector element can move to the first edge of their area (range) of angular displacement, as shown in Fig.3 and 7. In an alternative embodiment, the deflector is moved to the opposite edge of their area, as shown in Fig. 4 (and shown in dotted lines in Fig.7). When the rotation of the deflection element, the Cam surface 43 is moved in contact with the Cam supporting surface on the flange 37. The Cam on the plate at the same location throughout the transport section of the baffle. As the deflector rotates around the fixed point of rotation, it is with a certain accuracy and frequency that ensures the receipt and delivery of sheets from other devices within the ATM.

During operation, the paper sheet 57, such as a check or promissory note, issued in foreign currency, exciting moves the sheet surface 14 of the element 12 in the form of a plate. The document is preferably driven by interaction with the surface 14 using a belt conveyor moving in the direction of the arrows A and A'. Of course, in other embodiments, implementation of the present invention can be used rollers or other drive device. Also, as described above, the surface, exciting the sheet, although mostly flat, but may include a longitudinal protruding ribs or other contours or ledges to avoid resistance or adhesion of the sheets.

Upon reaching the transmitting surface 18, the document moves freely along a linear edge 27 of the first section 26 with the fingers and on the second surface 22 of the deflector. As between the linear edge and a transmitting surface in any angular position of the deflector does not have gap activity of their tearing.

Similarly, when fully downward angular position of the deflector 48, shown in Fig. 4, there is no gap between the transmitting surface 18 and a linear edge. The force of the bias spring 44 maintains a linear edge opposite the transmitting surface in all angular positions. Triple spring also holds the Cam surface 43 of the first edge 38 is biased against the Cam stop on the edge 37, and the side surface of the rib opposite the bearing surface 35 of the groove 34. This provides a fixed rotation of the deflector and eliminates the gap between the linear edge and a transmitting surface.

The deflector is located in a selected angular positions by means of mechanical devices in the ATM, exciting deflector. The deflector is used for sending or receiving documents in different compartments and devices or with them, as well as for the safe transportation of these documents to the element in the form of plates or with him. This allows positioning and sorting of documents in accordance with requirements.

The first alternative implementation of the present invention shown in Fig. 8, has a deflector element 48', is such a Cam surface 43, which moves in contact with the edge 37 of the groove 34. The baffle 48' differs from the deflector 48 so that the edge 38' is of such a configuration, in which its lateral surfaces are contactless relative to the side walls of the groove. The baffle 48', as in the first embodiment of the present invention has a second edge 40' with a lateral surface 41'. The second edge includes a recess 36 of the transmitting surface. The side surface 41' is in contact with the side rail 62, which prevents the movement of the baffle 48' in the transverse direction. Interaction side surface 41' and the side rail 62 allows the deflector to freely rotate, while maintaining its position in the transverse direction.

The second alternative implementation of the present invention shown in Fig. 9. This variant is the same as previously described except that the deflector 48 includes a pair of first ribs 38". Ribs 38 are located in the grooves 34'. Ribs 38 and the grooves 34' interact similar to the first alternative implementation of the present invention so that each edge has a Cam surface similar to the Cam poverhnost are contactless against the walls of grooves similar to the first alternative implementation of the present invention. Move the deflector 48 in the transverse direction is prevented by contact of this deflection element with the side rail 62.

Located with a gap, the first edge of the second alternative implementation of the present invention provide greater lateral stability to vent 48" compared to the other options described implementation of the present invention. In other embodiments can use other quantities and configurations of ribs and grooves, including combinations that provide lateral stability through contact with the sides of the groove. Of course, as explained above, the ability to maintain the deflector element with the side rail or similar transverse support can eliminate the need to provide lateral support to the baffle using the clutch sides of the ribs with the grooves in some embodiments, implementation of the present invention. Similarly, in other embodiments, implementation of the present invention, the transverse support baffle ribs may eliminate the need for other cross supports. On the basis of the present description of the present invention assistants can prig. 5 and 6, the deflector element of any of the described embodiments of the present invention may be associated with a guiding element 64 for the sheet. The guide element 64 for sheet includes an edge 66 of the knife, which comes in contact with the second transmitting surface 58 of the deflector element.

A guide element for the sheet also includes a pair of teeth 68 which are adapted for engagement with the recesses 60 in the deflector element. The guide element 64 for the sheet also includes an arcuate surface 70. The arcuate surface 70 is adapted to grip and directional rotating 180 degrees upon contact with the latter. In the optimal case, belt conveyor, moving the pulley, is located next to the arcuate surface 70. The guide element 64 for sheet has a Central cut-out 72, as shown in Fig. 5, which receives the protrusion 74 on the deflector member when the guide element 64 for the sheet is next to him. In the transport conveyor can be supported on the ledge 74, to ensure interoperability sheets with the arcuate surface 70.

Gentle handling of the sheets deflecting element and in contact with napravlenny section of the sheet up. The teeth 68 that are located in the recesses 60 are under the sheet to sheet in a predictable way in contact with the arcuate surface. In addition, the edge 66 of the knife interacts assasino from the second transmitting surface so that the surface of the sheet remote from its center, was not torn.

The advantage of the interaction of the guide element 64 for sheet and baffle such that the sheet can be rotated 180 degrees for reading or scanning from both sides. Of course, the guide element for the sheet can be moved with a deflector 48 and the baffle is moved to a suitable angular position by the influence of the ledge 54. This allows the document to move past the guide element for the sheet and enter into supporting engagement with the deflector (or exit capture from any given angular position. This allows the device presented in this invention, accept or receive the sheets from the mechanical units or compartments for storage, located in different angular positions. Next item in the form of a plate preferably is part of a mechanical device that has the ability rotational periomenopause the subject of the present invention, provides support sheet at different angles in the absence of the gap. However, the preferred implementation of this device fast and economical in manufacture. This is possible because the device maintains the same cross-sectional point on the linear edge in bestelwagen connection with the transmitting surface around the angular range of motion for the baffle. This is due to the action of the spring and rotation, achieved by engagement of the first edge and the groove. In the transmitting surface and the boundary section and the deflector element can be performed using conventional production methods with easily achievable tolerances.

The deflector element which is the subject of the present invention, is molded from plastic, which provides the required dimensions and shape for areas with your fingers. Such manufacturing deflection element also provides the exact fulfillment of his ribs, protrusions and holes.

While in the preferred embodiment, the present invention uses a molded deflector element and triple spring, in other embodiments, the implementation of this image is public springs to create Bestimmung device for transmission of securities.

Thus, beschikbare device for transmission of securities that are the subject of the present invention fulfills the above objectives, eliminates difficulties encountered with earlier devices and systems, solves problems and attains the desired results described in this application.

In the above description, several terms have been used for brevity, clearness and understanding, however, this does not imply certain restrictions, as these terms are presented using descriptive purposes and are intended for wide interpretation. Moreover, the descriptions and illustrations provided in this document should be considered as examples, and the present invention is not limited to the exact details shown or described. Forth in the accompanying claims any feature described as a means for performing a function shall be construed as encompassing any means capable of performing a specified function, and should not be limited to the specific means to perform the functions described in this application, or simply equivalent.

After describing the characteristics, development and principles of the present sibboleth results in the accompanying claims presents a new and useful structures, devices, elements, arrangement, parts, combinations, systems, equipment, work and relationships.

1. Device for maintaining a moving paper sheets, and the sheets moving along a trajectory in the direction of the longitudinal side of the sheet on the above device, are arranged so that their width is across the direction of movement of the sheet, and the above device has the ability to support the sheets, moving in multiple angular positions within the range that contains the element in the form of a plate that includes a first supporting surface for the sheet above the path of the sheet, the first supporting surface for the sheet has at least the same width in the direction transverse to the direction of movement of the sheet, as the width of the sheet, the above-mentioned element in the form of plates further comprising transmitting surface on the above-mentioned path of the sheet, and transmitting surface is a smooth continuation of the first surface in the direction of the sheet and has at least the same width in the horizontal direction, and the width of listselector, and the connecting element, periodically connecting the deflector and the element in the form of a plate, in which the deflector can be moved at an angle with respect to the element in the form of a plate, and the baffle has a second flat supporting surface for the sheet, a second supporting surface for the sheet is in the path of movement of the sheet supporting surface for the sheet has at least the same width in the transverse direction, and the width of the sheet, the deflector includes a cross-section of the first section with the fingers, moreover, the first section with the fingers in the cross section of borders with the second supporting surface for the sheet and down the conical surface at the point at which the second supporting surface for the sheet in contact with the transmitting surface so that the second surface ends at a linear edge, serving in the transverse direction, and which in cross section in the above point assasino interacts with the transmitting surface, when the deflector is in one of the many angular positions within the above range.

2. The device according to p. 1, wherein one of the transmitting surface is where the edge is in the groove, when the deflector is in the above range.

3. The device under item 1, characterized in that the element in the form of plates includes a regional area, and the transmitting surface located on marginal land and marginal land includes a groove, and in which the groove is in contact with the Cam supporting surface, and in which the finger section of the baffle further includes a rib, the rib protruding on the side of the baffle opposite the second surface, and in which the rib includes a Cam surface, and in which the Cam surface is in sliding contact with the Cam supporting surface throughout the range of positions of the deflector.

4. The device under item 1, characterized in that the connecting element includes a spring in which the spring moves the linear edge with a transmitting surface in the above range.

5. The device under item 1, characterized in that the element in the form of plates includes a regional area, and the transmitting surface located on the edge area, the edge area comprises a groove, and in which the groove is bordered by a bearing surface of the deflector, and in which the edge is located on the side of the baffle opposite verazanno range vent.

6. The device under item 5, wherein the connecting element includes a spring in which the spring moves the deflector, in which the linear edge is shifted to communicate with the transmitting surface and the edge is shifted to interact with the bearing surface of the deflector.

7. The device under item 1, characterized in that the element is in the form of plate further includes a regional area, and regional site ends on the losing edge, the edge section includes a groove, in which groove is in the outer area from the transmitting edge, and the groove is in contact with the bearing surface of the deflector serving perpendicular to the losing edge, and in which the deflector includes a rib, and in which the above-mentioned edge is in the desired ratio in the groove, and in which the above-mentioned rib has a side surface, and in which the side surface of the rib is in contact with the ability to move with the bearing surface of the deflector.

8. The device according to p. 7, characterized in that the groove is in contact with the Cam supporting surface serving in the transverse direction to the bearing surface, and in which the above-mentioned rib further includes a Cam surface in contact with Calvo under item 8, characterized in that the device includes a spring bias linear edge to capture the transmitting surface and the subsequent displacement of the Cam surface of the side surface of the rib for engagement respectively with the above-mentioned Cam supporting surface and the bearing surface.

10. The device under item 1, characterized in that the element in the form of plates includes a regional area, and the transmitting surface is at the regional site, and in which the deflector comprises in cross section a second section with the fingers, in which the edge area is in an intermediate attitude between the first and second sections with your fingers, and in which the edge area is in contact with the second area with the fingers, when the deflector is located on the first edge of the range.

11. The device according to p. 10, wherein the deflector includes a rib protruding between the first and second positions of the sites with the fingers, and in which the first section includes a groove, and the groove communicates with the bearing surface of the deflector, and in which the edge is included in the above-mentioned groove, and the connecting element consists of a triple spring in which the spring moves the deflector, in which the linear edge offset is thew, as the deflector is shifted to the first edge of the range.

12. The device according to p. 1, wherein the deflector includes a side surface on the transverse side of the second surface, and in which the device further includes a side guide in contact with the ability to move with the above-mentioned lateral surface.

13. The device according to p. 12, characterized in that the connecting element includes a spring in which the spring moves the deflector, in which the linear edge is shifted to communicate with the transmitting surface and the transmitting surface is biased for engagement with the side rail.

14. The device according to p. 12, characterized in that the element in the form of plates includes a regional area, and the transmitting surface is at the regional site, and in which the edge section includes a recess, and in which the deflector includes a second edge, where the second edge is in the recess, and in which the side surface is located on the second edge.

15. The device according to p. 3, characterized in that the edge area of the element in the form of plates and each baffle includes at least one hole, and in which the holes at the appropriate regional section and the deflector with the through the above holes.

16. The device according to p. 3, characterized in that the deflector has an angle in the above range around a fixed pivot point.

17. The device according to p. 16, characterized in that the fixed pivot point of the cross-section represents the contact point of the first section with the fingers and the transmitting surface.

18. The device according to p. 3, wherein the groove cooperates with the bearing surface of the deflector, and the bearing surface of the baffle is perpendicular to the Cam supporting surface, and in which the rib includes a side surface of a rib, and the lateral surface of the fin is perpendicular to the Cam surface, and in which the side surface of the rib in contact with the possibility of rotation with the bearing surface of the deflector.

19. The device under item 18, characterized in that the device includes a spring in which the spring moves the Cam surface for engagement with a Cam supporting surface and displaces the side surface ribs for contact with the bearing surface of the deflector.

20. The device according to p. 19, characterized in that the first area with the fingers has the ability to rotate in above the surface.

21. The device according to p. 1, wherein the baffle further includes at least one recess in the second surface, and the recess is located in the direction of the sheet from a linear edge, the recess is elongated in the direction of the sheet, whereby the teeth of the guide sheet may enter into the groove.

22. The device under item 1, characterized in that the device further includes a second transmitting surface on the deflector, and a second transmitting surface is contactless with respect to the linear edge and is a smooth continuation of the second surface, the second transmitting surface in cross section is located under the second acute angle relative to the second surface, whereby the edge of the guide sheet the opportunity assasino to interact with the second transmitting surface.

23. The device under item 1, characterized in that the connecting element consists of a triple spring includes a leg, and further includes an emphasis on the baffle, and in which the triple spring shifts the linear edge to communicate with a transmitting surface, and in which the leg has a possibility of movement to the end, when the deflector is in dviout relative motion ability in cross section around a fixed point of rotation and in which the linear edge is in contact with the transmitting surface in the turning point when the movement of the deflector in the range.

25. Device for maintaining a moving paper sheets, and the sheets moving along a trajectory in the direction of the longitudinal side of the sheet on the above device, are arranged so that their width is across the direction of movement of the sheet, and the above device has the ability to support the sheets, moving in multiple angular positions within the range that contains the element in the form of a plate for supporting the moving sheet, the element in the form of plates includes on the trajectory of the sheet surface of the element on which the surface element supports moving it leaves the deflector to support moving sheet, moreover, the deflector includes on the trajectory of the sheet deflector supporting surface for the sheet, in which the deflector supporting surface for the sheet supports it leaves, in which the deflector supporting surface for the tiles above the deflector has a possibility of angular displacement with respect to the surface of the element above the element in the form of a plate in the range of angular positions, and in which the above-mentioned deflector surface to support the sheet acts as a dps rotary device for connecting element in the form of plates with the above-mentioned deflector when the joint angular displacement, and to maintain in which the above-mentioned deflection of the supporting surface is in constant contact with the aforesaid surface of the element in which the above-mentioned deflection of the supporting surface for the sheet provides a smooth extension above the surface of the element above the path of the sheet in all angular positions of the aforementioned deflector in the above range.

26. The device according to p. 25, wherein the rotator includes interacting a rib and a groove, one of which communicates with the above-mentioned element in the form of a plate, and the other with the above-mentioned deflector, and a bias device periodically communicates with the above-mentioned element in the form of a plate and above the deflector to move the rib and groove with the possibility of contact.

27. The device according to p. 26, wherein the rib includes a Cam surface and the groove includes a Cam supporting surface, with the Cam and the above-mentioned Cam supporting surface are in contact with the slidable.

28. Way to keep moving paper sheets, when dataelement, moreover, the sheets move to the first item on the first supporting surface for the sheet, and transmitting the supporting surface for the sheet, and transmitting surface serving as a smooth continuation of the first surface is at an acute angle thereto, and wherein transmitting surface has at least one groove that interacts with the Cam supporting surface, carry out the movement of the leaves on the above transmitting surface and with her relationship support with the second support surface for the sheet on the baffle, and the baffle is in the periodic interaction with the first element with the possibility of angular displacement relative thereto, the second supporting surface for the sheet deflector is in contact with the above-mentioned transmitting surface along a linear edge, and wherein the deflector includes at least one rib having myself a Cam surface, and a rib cooperates with the above-mentioned groove, carry out the movement of the deflector at an angle in the above range with the Cam surface of the ribs with the support of the slidable with the Cam supporting surface of the first pivot point by a linear edge, and the second supporting surface for the sheet is a smooth continuation of the above-mentioned transmitting surface.

 

Same patents:

The invention relates to technology and equipment plating parts, mainly the type of bodies of rotation in the holder

Assembly line // 2090481

The invention relates to the field of mechanization of cargo handling and can be used to load the working body of the thrower bales of various materials and other such bales, piece goods nerazvivshemusya

The invention relates to equipment for transportation of cargoes in the automatic mode, the machine-building - tion and metallurgical enterprises

FIELD: mining industry.

SUBSTANCE: invention can be used for transportation of rock in underground mines for reloading of rock from one conveyor to the other installed at one level. For this purpose device is used containing pair of flight conveyors, forced-draught and suction fans, air chamber with air inlet hole provided with cyclone installed over flight conveyor to be loaded. Air chamber is arranged between conveyors and is furnished with air collector made in form of screen with cells, housing and brushes from side of conveyors. Additional hole is made in bottom of air chamber to deliver air jet at angle to direction of material movement.

EFFECT: device of simple design providing effective and safe reloading of rock from one conveyor to the other installed at one level.

1 dwg

FIELD: mining industry; transport facilities.

SUBSTANCE: invention can be used for transportation of rock under ground, particularly, for reloading of rock from one conveyor to the other arranged at one level. For this purpose loose material reloading device is used which contains inclined and horizontal sections with drive arranged on support between two conveyors. Device is installed in housing with windows from side of conveyors, and is made in form of chain with scrapers passed over rollers and installed for moving in pair of trapezoidal guides. Housing is installed on support by means of hydraulic jacks. Angle of tilting α of side of trapezium is within 35° and 45°.

EFFECT: simple design, provision of effective and safe reloading of rock from one conveyor to the other arranged at one level.

3 dwg

FIELD: mechanical engineering; conveyor building.

SUBSTANCE: invention relates to devices for sorting out panels. Proposed device for individual delivery of panels 9 from first conveyor 1 to second conveyor 2 or third conveyor 3 is provided with fourth conveyor 8 moving at acute angle in vertical plane and intersecting direction 4 of movement of first conveyor 1, second and third conveyors being at different levels in height. Fourth conveyor 8 contains number of transfer members 10 which can be individually changed over between pushed-out working position in which they move synchronously with stops 11 found on first conveyor 1 from level below to level of third conveyor 3, and pushed-in passive position ion which they are located below level of first conveyor.

EFFECT: provision of alternate delivery of panels to output conveyors arranged at different levels in height with provision of high speed and reliability.

9 cl, 2 dwg

FIELD: packages, particularly devices for continuous filling and sealing of composite beverage packages having filling areas and opened package sealing end areas.

SUBSTANCE: device comprises separate zones made as rotary functional wheels provided with outer recesses 12. Separate packages are arranged in cells 8 serially fed to separate wheels and fixed in wheel depressions 12 by means of magnets 19 with force closures. To convey cells 8 between separate wheels transfer wheels are provided. The transfer wheels have outer recesses 12' and comprise cell 8 rotation means, which rotate cells inside recesses 12'. Cell 8 rotation means is rotational control member 25, which may rotate by means of drive so that cell 8 adjoins magnets without magnet striking during cell introduction and separates from magnets during cell removal. Cell comprises body opened from top thereof and adapted to receive package to be filed. Connected to cell body is at least one rim 16 having at least one lead 21 projecting upwards or downwards.

EFFECT: increased flexibility, possibility to produce packages of different size, increased structural simplicity and maintenance ability.

18 cl, 7 dwg

FIELD: transport.

SUBSTANCE: there is the object receiving appliance arranged on lower side of transporter moving element transportation travel line. Proposed unit comprises the object supporting appliance arranged on the bogie and elevated relative to moving element holder to receive the moving object from the holder with the help of object receiving appliance. At the end of transportation travel, the object return appliance is furnished to down the object support appliance relative to moving element holder In transportation of the bogie-type transporting unit, moving element is transferred into position whereat it is idle, while catch engages the holder to allow the bogie pull the moving element for it to move.

EFFECT: holder does not interfere with worker operation with object.

11 cl, 17 dwg

Chute // 2375282

FIELD: packing industry.

SUBSTANCE: chute is designed for reloading of material from one conveyor to another. The lower part of the chute body (1) is fitted by a shutter (2) made from elastic plastic material with rigid or hinge connection or from non-elastic material with hinge connection. The shutter free end enters the chute body and prevent escaping of material from the chute and conveyor band without the conveyor band travelling in respect to the chute.

EFFECT: material spilling is prevented.

2 cl, 2 dwg

FIELD: conveyors.

SUBSTANCE: proposed device comprises rotary cradle (13) arranged above the conveyor (2) that carried the objects. Rotary cradle has two through passages (8), each with (5) and outlet (6). Said rotary cradle is furnished with stop (9) arranged to turn between outlets of aforesaid through passages (8).

EFFECT: simple and fast withdrawal without damaging objects.

8 cl, 3 dwg

FIELD: transport.

SUBSTANCE: transfer car (1) moves over guiding rails (7a, 7b) laid on floor surface (6) along transport path. In the transport path intersection segment (14) which intersects path at floor level, hollow (15) in floor surface is excavated and covered by floor element (18) laid on one level (6) with floor surface. Inside this hollow, lifting guiding rails (16a, 16b) are installed with possibility to move vertically in parallel between upper level when they connect guiding rails located before and after the hollow (15).

EFFECT: facilitating transport path intersection, increasing safety.

5 cl, 15 dwg

FIELD: transport.

SUBSTANCE: invention relates to transporter incorporating truck. Transporter incorporating truck includes lifting table (12) for holding transported object. The table is made so that bearing base (28, 29) of table for holding bottom part of transported object is installed with possibility of removal on main body (13) of the table, and main body (13) of the table has top surface (13a) positioned flush with flat working deck (2) on transporting truck (1). On transporting truck (1), carrying stand (30) is installed with possibility to be removed. The stand is formed by pair of left and right stand members (37a) and (37b) located on left and right sides relative to transported object if to view in plane. Supporting part (39) contains stand members (37a, 37b) to hold left and right edges of transported object which edges are positioned on left and right sides of lifting table (12).

EFFECT: better fabricability of device.

4 cl, 14 dwg

FIELD: packaging industry.

SUBSTANCE: system comprises a first conveyor (90) for transporting products (B) from the entrance and a second conveyor (88) located under the nonlinear angle to the first conveyor for transporting products to the output. The system comprises a mechanism (30) for transporting products from the first conveyor (90) to the second conveyor (88). The mechanism comprises elements (38a-38e) for capture and release of the products. The elements are made with the ability of displacement between the first position and the second position independently from each other. During transportation to the second conveyor the products are located in adjacent ordered rows (124a-124f), at that the number of adjacent ordered rows of the products transported by the second conveyor is greater than the number of adjacent rows (100, 102) of the products transported by the first conveyor (90).

EFFECT: adaptive management of configuration of product flow.

17 cl, 21 dwg

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