Electrically-driven portable sprayer
FIELD: engines and pumps.
SUBSTANCE: invention relates to small-sized portable devices for processing fruit trees, berry bushes, vegetables from wreckers and an optimum dosed out irrigation with application of fertilizers. The sprayer is fitted on a floating device in the tank for working liquid and contains a vertically-arranged electrically-driven submerged pump for pumping over a liquid solution upwards including hose devices of discharging liquid solution from the pressure chamber of the said pump, devices of dispersion and electrical control of the sprayer. The electrically-driven pump for pumping over the liquid is a vibration type above the tension spring mounted on the shaft of the basic device which contains a bottom tubular part, a central basic part laying on the top surface of the demountable cover hollow, and two basic racks with holes for installation of the axles located in the top part of the basic device. The floating device has a central adjusting hole into which the basic device is inserted by its bottom tubular part accommodating the vibration-type electrically-driven pump. The axle is arranged in holes of lateral basic racks to adjust the position of the said vibration pump in height relative to bottom deepening. The liquid comes under pressure from a delivery tube of the vibration pump through the union fitted on a delivery tube of the said pump, to the liquid pressure regulator connected by means of demountable hose devices with snap-up connections with the sprayer demountable devices and electrically-driven pump control device. The demountable device of dispersion and electrical control consists from a rod of a certain length, mainly wooden, the hose with inlet and outlet unions with connections for feeding liquid solution to spraying head fixed on the outlet union being attached thereto. The demountable device of cut in/cut out the electrically-driven pump, fixed on the said rod, consists of a sealed interrupter switch and sealed plug.
EFFECT: simplification of processing the gardens, simpler design of sprayer.
9 cl, 9 dwg
The invention relates to a device for processing fruit trees, berry bushes, vegetables and ornamental plants liquid solution for chemical protection against pests and diseases, foliar feeding of plants, economical watering with a wide spray.
Known portable sprayers containing a cylindrical housing, the piston and crank located on the side of the case sibornalese node (SU # 1739937, CL AM 7/00, SU # 1803015, CL AM 7/00; UA No. 47416, CL AM 7/00 - inventions of the USSR and Ukraine).
The disadvantage of all of them - insufficient intake capacity for dispersion within 3-4 liters of heavy manual labor in the collection of the liquid and its extrusion, resulting in low productivity, poor quality of spraying due to poor atomization.
Known portable sprayers, consisting of a reservoir for the working fluid from the filler neck filter, hand pump and the outlet tube of the hose (SU # 246207 IPC AM 7/00). The lack of sprayer is limited capacity within 10 liters, manual swing - heavy manual labor, low productivity, the complexity of the cleanup operation, and during emptying of the working fluid in reservoir pressure spray falls.
Known portable sprayers, which are filled with fluid and pumped up in her air hand or foot PR is Bodom (see patent of Ukraine UA NO. 15541, UA No. 23404, CL AM 7/00, an FRG patent DE No. 19511885, CL AM 7/00).
The lack of sprayer: hard work, low productivity, the complexity of the operation.
Known machines for chemical protection of plants - machinery sprayers pumps. Working bodies of these sprayers consist of tanks, pumps, filters, pressure regulators, nozzles, spray systems, and fuel devices (Tutorial. Wemhoener, Ipharmacy "Agricultural machinery", str...218. Moscow, Colossus, 2004).
In the engine sprayers set, piston, centrifugal, gear, diaphragm, roller and rotary pumps. The main characteristics of the pump flow (l/min) and fluid pressure (MPa). Vibrating pumps in machinery chemical plant protection is not applied as thin and do not provide high performance in large farms.
Known machine high-performance sprayers, as they are costly, energy-intensive, complex devices and therefore applicable in large farms, where the gardens have driveways and spacing between trees, and not in farms and private gardens, where trees besides thickened and the machines have no place to sleep. The flow of spray fluid machinery sprayers large.
However, in adultcheck the x and farms the use of cheap and small sprayers on the basis of the vibration of the pumps will allow a significant increase productivity and eliminate manual work by pumping air into pnevmopistoleta with a working tank liquid not more than 10 litres.
The closest technical solution to the claimed invention is a device for spraying a liquid (the Federal Republic of Germany patent No. 25.09.297, CL AM 7/00)consisting of a plastic tank with transparent bottom recess in the bottom of the tank and installed in the tank submersible pump, which is designed as an electric piston pump that is built into the tubular casing, which is made together with the cover. The pump is used for pumping the liquid solution up and performed with the vertical Central axis of the location. The tank is closed tightly removable cover through the high speed screw lock, which is due provided in three places elements bayonet mount or threaded elements provides stiffness, and tightness is ensured by a seal - sealing rings, which is tightly mounted on the upper end surface of the tank and rigidly clamped by the flange of the cover.
The pump pumps the solution through the nozzle into the intermediate tank, which is tightly closed by the cap on the lid. The cap contains a connecting fitting for a hose, which is inserted into the tube. After fixing the connecting fitting intermediate the tank becomes the discharge chamber, which presses on the lid.
Deepening Logitec measuring Cup, so after removing the cover you can put powdered or liquid substance in a specific amount, and then fill the tank with water. The lid has a hole for cablerunner wire to electromagnetic porshneva pump. Thus known sprayer has a device - hoses to drain the liquid solution in the spray device (not shown in the description not described) and the control unit electric pump (not shown in the description is not described). Known portable sprayer.
Known sprayer has the following disadvantages compared with the claimed device:
1. According to the description and the claims of conflicting device and the pump type. Built it in the lower part of the tubular device as submerged and difficult to access during operation. In the first paragraph of the claims are not even told that it was the pump.
2. It is quite difficult device plastic tank, the transparency of its short-lived.
3. The presence of an intermediate discharge chamber complicates the device and operation of the removable cover. The need for its integrity creates the complexity of its Assembly and disassembly requires high-speed device locks.
4. There is no need to fill in the recessed powder and liquid substances, and then pour into the tank in the U. More correctly to make a liquid solution separately in a glass or ceramic bowl and pour it through the funnel filter in the spray tank and will not need cleaning the filter on the pump.
5. Not shown in the device description supply hose, spraying and control of the sprayer.
The technical result, which directed the alleged invention is portable, easy to operate mechanical equipment located on a small floating round the pontoon tanks for fluid installed in the garden of a farmer, with a full working set of devices from the pumping fluid to the spraying, in which the hand pump replaced pump, which eliminates heavy physical labor in the process of spraying in the garden and in the garden of a farmer, the gardener.
In addition, the task is to create a productive device and at the same time cheap compared to native sprayers.
A technical problem solved by the fact that the portable sprayer with a submersible pump placed in the reservoir for the working fluid, which is used for pumping the liquid solution up and performed with the vertical Central axis of the arrangement, including hose device drain the liquid solution from the chamber discharge is of electronicos under pressure, a spraying device and electrical control operation of the sprayer, according to the invention, the sprayer is equipped with a floating device, and a pump for pumping the fluid are made of vibration and pinned down on the spring tension, smontirovanno on the axis of the support device, which contains the lower tubular part, the average disk support portion lying on the upper surface of the floating device, and located in the upper part of the support device of the two supporting racks with holes for the insertion axis, a floating device has a Central mounting hole, in which is inserted a support device with its lower tubular part, inside of which is vibrating pump, while the axis from the top in the holes of the side posts, and fluid under pressure from the discharge tube of the vibration of the pump passes through the fitting mounted on the discharge tube of the pump, the pressure regulator fluid, which is connected by detachable hose device with coupling connections with split atomizing device and electrical control process on and off of the pump. Split the atomizing device consists of a rail gauge length, mostly of wood, on which are fixed bolts on the m-mount hose with inlet and outlet fittings with connection for supplying slurry to the spray head, fixed to the output fitting, and the hose between the fittings attached elastic shock absorbers.
Floating device consists of a metal round small pontoon, balancing the buoyancy force of the liquid mass of the pump with hoses and a support device.
Holes in the supporting pillars support device is arranged to adjust the position of the vibration of the pump above the bottom of the floating device.
The pressure regulator includes a housing with a bottom inlet threaded hole inlet fitting, screwed in the discharge tube of the pump, and the transverse cross-cutting horizontal hole perpendicular to the bottom of the inlet, relative to which the horizontal hole is divided into the outlet and on the other hand shut-off, which features adjustable drain valve for a liquid solution with a sharp rise in pressure when the clogging of nozzle drain in the bottom hole for the adjustable drain valve, with adjustable discharge valve of the pressure regulator consists of a lock with seal and screw, located between the absorber that is configured to fluid pressure from the pump.
Detachable hose device comprises a hose is cutting PVC which of the two sides put on nipple fitting joints in which they are articulated with Union nuts and seals, with the possibility of easy and tight connection with the pressure regulator and the device spraying a liquid solution.
The electrical control device process enable or disable vibration pump from the electrical outlet to the motor contains fixed on the rail system sealed plugs and discontinuous switch, disconnect one phase wire, strip with sealed plug and sealed socket.
In the proposed sprayer used model high-performance small-sized submersible vibrating pump from the number issued in the Russian Federation and the CIS working in limbo, which creates the possibility of developing a fundamentally new design of the mechanized sprayer in stationary tanks on floating device.
Introduction to device sprayer new site - support device, which is installed without mounting on a floating device, allows to compactly embedded vibrating pump in the tank barrel, keeping the light collection and respiratoty. Fixed through a spring tension on the supporting device electrons is rapidly removed from the tank barrel together with the control device switched off the pump.
A floating pontoon in the reservoir allows you to quickly set the sprayer in working position.
The presence of a pressure regulator and dvukhmodovogo spray is a protective device of the electric pump when the clogging of the liquid in the spraying process.
The use of hose device connection provides quick collection and tightness of supply of liquid under pressure.
New atomizing device and electrical control creates convenience in handling high fruit trees due to the height of the rail.
Figure 1 shows schematically the proposed floating sprayer installed in the tank (barrel). The overall look. The atomizing device is not shown. Figure 2 - the same, type B; figure 3 - section a-a in figure 1; figure 4 is a device for the atomization of liquid and electrocute and off of the pump in a detachable manner; figure 5 - same view In figure 4; figure 6 - section d-D figure 4; 7 schematically depicts a pump vibration in the incision; Fig - type G figure 1; figure 9 shows schematically the device of the sprayer in working position.
Figures 1 and 2 show a reservoir for liquid solution made in the form of a standard barrel 1 with a capacity of 200 liters, used for irrigation.
On the entrance surface of the tank has a floating pontoon 2, on the upper surface 3 which has okrujnoi electric vibrating pump 4 for pumping the liquid solution, made with the vertical Central axis of the location and suspended from above on the spring tension 5 axis 6 of the supporting device 7, which is located in the centre of the pontoon 2 and mounted on its upper surface 3 of the disk support part 9 of the supporting device 7. The supporting device 7 includes a lower tubular portion 10 with an outer diameter of the pipe D, is inserted into the Central mounting hole 11 of the pontoon 2. The supporting device 7 comprises a lower tubular part 10, the disk support part 9 and the upper part of the support device 7 two struts 12 with holes 13 for mounting the axis 6 with the screw mounting nuts 8.
The axis 14 of the hole 13 located at a distance "a" from each other (see Fig), provide the ability to adjust the position of the vibration of the pump 4 in height by lowering the level of liquid along the wall 15 of the barrel 1 to a certain level at the distance "H" from the bottom 16 of the barrel 1. Metal cylindrical pontoon 2 balances afloat its buoyancy displaced fluid the weight of the pontoon pump with hoses, a support device. Buoyancy of the pontoon - F, kg:
where D2- outer diameter of the pontoon, EBM,
D1- inner diameter of the pontoon, EBM,
h - the height of the pontoon, EBM,
ρ - the proportion of aquatic plants is ora
R - the total weight of the pontoon, motor, landing gear, hose, kg
The lower part of the pump 4 is performed with the holes 17 in the bottom part to ensure suction of liquid through the valve 18.
The pump 4 pumps the working fluid to the pressure regulator 19, discharging the liquid back into the tank when the clogging of the nozzles.
The housing 20 of the electric pump 4 is located inside the pipe with an inner diameter of D1that is greater than the maximum diameter of D2the pump 4. A supply of electric power to the electric pump 4 is carried out from the electrical outlet 21 of the supply voltage of 220 V electric wires 22 with a plug 23 and through a sealed outlet 24, not closing the pump 4. The pump intermittent switch electrical control system to split the atomizing device. The pump sucks the liquid from the tank 1 through the discharge pipe 25 and socket 26 pumps the liquid solution through the pressure regulator 19 to the connecting hose device 27, which is connected with the pressure regulator via the connection 28.
The pressure regulator 19 contains Cabinet item 29 made of an alloy of non-ferrous metals brass or bronze, with bottom inlet threaded hole inlet port and cross-section through a horizontal hole, perpendicular to the lower input is, with respect to which the horizontal hole is divided into the outlet 30 and on the other hand shut-31, which has an adjustable bleeder valve for the liquid solution with a sharp rise in pressure when the clogging of the nozzle. The reset discharge is carried out in the lower hole for the drain valve. A drain valve consists of a stop 33 with the seal 34 and screw 35 located between the absorber 32, configured to fluid pressure from the pump.
Thus, a drain valve of the pressure regulator 19 is a system of protection of the pump from peregruzka when the blockage in the system fluid supply and high voltage.
The pressure regulator 19 from the side hole 30 is connected with hose device 27, which consists of a hose 36 PVC connected rigidly with the two sides with threaded fittings 37, which allow you to screw the coupling nuts 38 hose device 27, not rotating the hose 36. The ends of the hose 36 is put on the nipple fitting 37 which ends pulling from one side to the casing 29 of the pressure regulator 19, and on the other hand to a device for spraying. With the help of seals 39 and 40 prevent leakage of fluid. Seal 40 is clamped washers 41 and nuts 42. Details 38-42 are connections 28 for the hose device 27.Split the atomizing device and electrical control (see figure 4, 5, 8 and 9) is a rail 43 length in the range L=2...5 m depending on the height of the fruit trees and the discharge capacity of the pump. The rail 43 is predominantly wooden square of dried pine or metal tube. At the inlet and outlet ends of the slats 43 fixed metal brackets 44 by bolts 45 and washers 46 and nuts 47. The metal brackets 44 are composed of channel bases, made of thin metal, and brackets with a folded strip with a hole for fixing of fittings 48 with strained at the end of the flexible hose 49 of PVC and with an inner diameter "d"equal to 8-10 mm long rod 43 between the fittings 48 on the surface of the rail 43 is fixed elastic dampers 50, clamped with metal straps 51, by means of bolts 52, washers 53 and nuts 54. Inlet port 48 in the split position is clamped by a nut 55, and the output fitting 48 is screwed on the spray head 56. Spray head 56 in a version - dwukrokowa. They can be odnorazovye, dwukrokowa and Mnogotochie longitudinal direction of the jet, the tilt-swivel and tilt perpendicular depending on the zone of atomization and pressure forces of the pump.
Combined spray head 56 with two diffusers sostoi is from divider 57 jet of fluid to the valves 58 and 59, tighten the stud 60 and the clamp 61 is placed in the caps 62 vortex nozzles 63. The caps 62 are made with the outlet d1magnitude of which creates an area of spray.
On the back of the rail 43 posted by sealed discontinuous switch 64 secured by screws 65, the closed casing 66 and is connected with a sealed plug 67.
In the electrical control system the operation of the pump 4, the outlet 24 is connected with a plug 68 of the extension 69 which, through its outlet end 70 connected to the plug 67 and then intermittent switch 64 turns on and off the pump 4.
Typical pump 4 type "Baby", "Strumok", "Neptune", "Brook" and the other manufactured by the enterprises of the Russian Federation, Ukraine, Belarus, consists of the hydraulic chamber 71, below, and devices electromagnet 72, placed on top (see figure 1 and 7). The hydraulic chamber 71 is composed of a suction compartment 73 and discharge chamber 74 separated by a piston 75, fixed to the shaft 76.
Rubber shock absorber 77 and the rubber diaphragm 78, focusing 79 secured in the sleeve 80 at some distance from each other, separate the solenoid 72 of the hydraulic chamber 71. On the yoke of the electromagnet 81 72 has two coils 82, connected in series. At the bottom of the electromagnet device u is a false anchor 83. Anchor 83, shock absorber 77, aperture 78 and the piston 75 is installed on the rod 76. Between the armature 83 and shock absorber 77 is installed washer 84 of the adjustment. Between the piston 75 and the aperture 78 is installed washer 85 adjustment.
The hydraulic chamber 71 occupies the space between the diaphragm 78 and the lower part of the base 86 in which you have suction holes 17, covered by a rubber valve 18. The upper part of the body ends with a lead pipe 88, the inner diameter of which is made the thread and it screwed the fitting 26. On the opposite side of the upper part of the body is screwed into the threaded sleeve 89, which passes through the wire 90 in a rubber tube for power supply 87. In the center of the upper part of the body is the eye 91 with a hole "d2" for the suspension of the pump. The top cover is fixed with the bottom 4 screws 92 are tightened by nuts 93.
The flow of fluid from the pump 4 after its immersion in the liquid solution in the tank 1 with the subsequent inclusion is due to the vibratory oscillations of the electromagnetic drive for the reciprocating movement of the piston. When lifting rod 76 up liquid is sucked through the holes 17 in the suction compartment 73 and simultaneously ejected through the discharge tube 25 up in the pressure regulator 19 and then to a spray head 56. When SDA is caņa stem 76 of the valve 18 is closed and the fluid from the suction compartment is extruded in the discharge chamber through the edge of the piston 75 and over again in the discharge tube 25 and up. Fluid flow is continuous.
The height H1- the distance from the point of suspension of the pump 4 to the lower protruding part of the body of the pump.
In an unusable state sprayer disassembled compact nodes: a pontoon landing gear; the engine with a pressure regulator, a spring 5 and the turn-on lead 22, the hose device with locking joints; extension; plug-atomizing device and on.
Preparing the sprayer for operation as follows.
a) On the surface of the liquid in the barrel (tank) lower pontoon.
b) On the pontoon establish a support device on which unscrewed one nut 8 axis 6.
C) Install the pump 4 is threaded into the eyelet 91 spring tension 5. Insert the axle into the upper eyelet of the spring 5, and hang the pump on the axis 6 of the supporting device, then fix the axle nut 8.
g) Connect the hose device 27 and a coupling connection 28, the pressure regulator 19 split atomizing device on the rail. Connect the extension cable 69 to the outlet 24 and the plug 67 on the device for spraying.
d) Include the plug 23 into the wall socket 21 and intermittent switch 64 test the spray device 56 and the pressure regulator 19. If necessary, configure, washed, seal seals. Adjust the new sprayer include the operating mode.
e) After emptying the tank, the pump 4 is switched off, then fill the tank again with the liquid solution and include. The duration of the emptying of the tank experienced determined during the continuous operation of the pump. If the length of the hose up to 15 meters sprayer does not lose his head, allowing you to spray the trees with a height up to 8...10 m
g) After the work out of the tank and pour small amounts of working solution tank and fill with clean water. Wash out the pump and system hoses and spray. Then disassemble and wash out the parsed nodes of the sprayer, and then dried.
The proposed sprayer installed in the tank 1 in the garden of a farmer. In the conditions of the farms offer a sprayer for 1 day, you can process up to 1 hectare of garden with tall trees. Compared with the machine, tractor sprayers offer the sprayer is cheap, simple, and convenient with high enough performance.
The usability and performance of the proposed sprayer is superior to all kinds of sprayers, hand pump and differs little from them by value.
1. Sprayer electric portable for processing fruit trees, berry bushes, vegetables liquid solution consisting of submersible electric on the wasp, which is located in the reservoir for the working fluid used to pump the liquid solution up and performed with a vertical axis of locations, including hose device drain the liquid solution from the chamber of the injection pump under pressure, the spraying device and electrical control operation of the sprayer, wherein the sprayer is equipped with a floating device, and a pump for pumping the fluid are made of vibration and pinned down on the tension spring is usually mounted on the axis of the support device, which contains the lower tubular part, the average disk support portion lying on the upper surface of the floating device, and located in the upper part of the support device of the two support stands with holes to install axis, a floating device has a Central mounting hole, in which is inserted a support device with its lower tubular part, inside of which is vibrating pump, while the axis from the top holes of the side posts, and fluid under pressure from the discharge tube of the vibration of the pump passes through the fitting mounted on the discharge tube of the pump, the pressure regulator fluid, which is connected by detachable hose device with captive soy is inanami split atomizing device and electrical control process on and off of the pump.
2. The sprayer according to claim 1, characterized in that split the atomizing device consists of a rail gauge length, mostly of wood, on which is fixed a bolt-down hose with inlet and outlet fittings with connection for supplying slurry to the spray head, is fixed to the output fitting, and the hose between the fittings attached elastic shock absorbers.
3. The sprayer according to claim 1, characterized in that the floating device consists of a metal cylindrical pontoon, balancing the buoyancy force of the liquid mass of the pump with hoses and a support device.
4. The sprayer according to claim 1, characterized in that the holes in the supporting pillars support device is arranged to adjust the position of the vibration of the pump above the bottom of the floating device.
5. The sprayer according to claim 1, wherein the pressure regulator includes a housing with a bottom inlet threaded hole inlet fitting, screwed in the discharge tube of the pump, and the transverse cross-cutting horizontal hole perpendicular to the bottom of the inlet, relative to which the horizontal hole is divided into the outlet and on the other hand shut-off, which features an adjustable valve for SB the wasp liquid solution with a sharp rise in pressure when the clogging of nozzle in the bottom drain hole, located over the drain valve, with adjustable discharge valve of the pressure regulator consists of a lock with seal and screw, located between the absorber that is configured to fluid pressure from the pump.
6. The sprayer according to claim 1, characterized in that the detachable hose device comprises a hose pipe PVC, which on two sides put on nipple fitting joints in which they are articulated with Union nuts and seals with the possibility of easy and tight connection with the pressure regulator and the device spraying a liquid solution.
7. The sprayer according to claim 1, characterized in that the electrical control device process enable or disable vibration pump from the electrical outlet to the motor contains fixed on the rail system sealed plugs and discontinuous switch, disconnect one phase wire, strip with sealed plug and sealed socket.
8. The sprayer according to claim 2, characterized in that the spray head is made with mesh nebulizer.
9. The sprayer according to claim 2, characterized in that the spray head is made with water spray.
FIELD: engines and pumps.
SUBSTANCE: invention relates to small-sized portable devices for processing fruit trees, berry bushes, vegetables from wreckers, and also optimum dosed out irrigation with application of fertilizers. The sprayer consists of the portable tank for working liquid with a demountable cover and vertically-arranged electrically-driven submerged pump accommodated therein which serves for pumping over a liquid solution upwards. The tank has, in its lower central part, a bottom deepening above which the suck-in device of the submerged the pump is arranged including hose devices of discharging liquid solution from the pressure chamber of the said pump, devices of dispersion and electrical control of the sprayer. The electrically-driven pump for pumping over the liquid is a vibration type above the tension spring mounted on the shaft of the basic device which contains a bottom tubular part, a central basic part laying on the top surface of the demountable cover hollow, and two basic racks with holes for installation of the axles located in the top part of the basic device. The demountable cover has the central adjusting hole into which the basic device is inserted by the bottom tubular part accommodating the vibration electrically-driven pump. The axle is arranged in holes of lateral basic racks to adjust the position of the said vibration pump in height relative to bottom deepening. The liquid comes under pressure from a delivery tube of the vibration pump through the union fitted on a delivery tube of the said pump, to the liquid pressure regulator connected by means of demountable hose devices with snap-up connections with the sprayer demountable devices and electrically-driven pump control device. The demountable device of dispersion and electrical control consists from a rod of a certain length, mainly wooden, the hose with inlet and outlet unions with connections for feeding liquid solution to spraying head fixed on the outlet union being attached thereto. The demountable device of cut in/cut out the electrically-driven pump, fixed on the said rod, consists of a sealed interrupter switch and sealed plug.
EFFECT: simplification of processing the gardens, simpler design of sprayer.
9 cl, 9 dwg
SUBSTANCE: combined injection wheel consisting of airbrush fixed on a tube, into which the working fluid may be fed through a pipe. The airbrushes have lids with output ports for fluid spraying and a dabber airbrush with a spherical inlet and a screw-type channel at the outlet. The combined injection wheel contains stream separator, which is connected with a distributor of the stream separators. The distributors are constricted by a wire nail and a presser and form a general pressure distribution chamber, which is isolated by weatherstrips. The stream separator is screwed to a tubular nipple fixed on a rack-and-pinion gear. The airbrushes are fixed on the sides opposite to the separator and may be rotated about the transversal axes of the holes of fluid passing from the upper part of the separator to the lower part of the airbrushes for increasing the spray cone. The dabber airbrush is installed inside of the outlet port of the lid.
EFFECT: providing stable operation of injection wheel.
FIELD: engines and pumps.
SUBSTANCE: device comprises hose connection designed to supply working fluid under pressure, pipe line with a handle and control system regulating working fluid supply into a sprinkler head. The hose connection, the pipe line with a handle and the control system regulating working fluid supply into a sprinkler head are made split. The pipeline handle consists of a measurement rod made of wood or a metal pipe, a hose with inlet and outlet branches is secured onto the rod, the branches have connections to supply a fluid to the sprinkler head; the head is screwed on the outlet branch. The control system consists of device to switch on and off an electric pump; this device is secured on the rod and comprises discontinuous sealed switch turning the electrical pump on and off and sealed plug connecting the electrical system for switching the electrical pump on and off through a sealed socket to power supply.
EFFECT: to simplify the design.
5 cl, 5 dwg
FIELD: engines and pumps.
SUBSTANCE: pressure regulator is set to a specified fluid pressure so that if a fluid pressure exceeds the specified, the fluid pours out into a tank. The pressure regulator comprises case with a lower input vertical threaded aperture to hold an input sleeve; the said sleeve is screwed into an output branch of a force pipe of the electrical pump. Inside the case the input aperture is connected to a crosscut reach-through horizontal hole which relative to the input aperture is divided into an inlet hole on one side, and to a shut- off hole on another side; a regulated discharge valve is installed in the horizontal hole; at sprinkler clogging pressure exceeds the specified and the fluid is discharged into a tank; the fluid flows into the output lower aperture, located behind the discharge valve where a support with a gasket and a thrust screw are installed; a shock absorber is assembled between them; the shock absorber is adjusted to the electric pump fluid pressure. The inlet aperture is designed to feed fluid into a hose connection; the latter is secured to the pressure regulator case by means of the captive nut with gaskets.
EFFECT: simplification of a mechanized electrical pump design with a simplified pump regulator.
4 cl, 3 dwg
FIELD: agriculture, in particular, farm crop spraying process.
SUBSTANCE: method involves measuring consumption of working fluid per minute by one sprayer, standardized consumption of working fluid per one hectare, and speed of spraying unit; taking into account distance between adjacent sprayers on boom of field crop sprayer and consumption of working fluid per minute by one sprayer and determining from formula: q=QVa/600, where q is consumption of working fluid per minute by one sprayer (l/min); Q is standardized consumption of working fluid per hectare (l/hectare); V is speed of spraying unit (km/hour); a is distance between adjacent sprayers (m); determining type of spraying unit and its transmission on the basis of standardized consumption of working fluid per hectare, consumption of liquid fluid per minute by one sprayer, and speed of spraying unit; selecting color, type of sprayer and pressure by international standard and also in accordance with standardized consumption of working fluid per one hectare, consumption of working fluid per one minute by one sprayer, and calibrating measuring reservoir by providing separate sectors, each corresponding to specified standardized consumption of working fluid per one hectare, color and type of sprayer with respective pressure and having horizontal lines at various levels and indications as to sprayer unit types and their respective transmissions.
EFFECT: increased precision in adjustment of sprayer, wider operational capabilities, and reduced labor intensity.
1 dwg, 1 ex
FIELD: agricultural engineering, preferably, sprayers for treating of field crops and perennial plants with small doses of working fluid.
SUBSTANCE: sprayer has frame, reservoir, leveling reservoir, pipelines, air duct, and air pipe. Sprayer sprinkler has pneumatic reservoir with upper and lower plate-like disks and layers therebetween defining slit-type nozzles, and replaceable feeding pipe-circular collector positioned above slit-type nozzle with apertures in its lower part. Feeding pipes have various numbers of apertures of maximum diameter united in various groups. Yokes with various number and diameter of openings are disposed on feeding pipe in axial alignment with said apertures. Layers delimiting slit-type nozzle are made replaceable, and variously configured and sized to define their width and thickness.
EFFECT: increased efficiency, increased width of generated spray, wider range of flow rates of working fluid doses.
3 cl, 2 dwg
FIELD: agricultural engineering.
SUBSTANCE: sprayer has frame, reservoir, leveling reservoir, pipelines, air duct, and sprinkler including air pipe, upper plate, and base which are separated from each other by layer defining slit-type nozzle. Feeding pipe is positioned in front of slit-type nozzle. Air pipe is axially aligned with slit-type nozzle. Layer consists of two parts having shape of radial curved line at their outlet ends. Feeding pipe is disposed in horizontal plane, is formed arc-shaped and is provided with openings in its lower part.
EFFECT: increased efficiency, reduced consumption of working fluid, and increased width of spray.
FIELD: equipment for suppressing of stumps during gathering of cut forest-and-shrub vegetation along canals, roads, power supply lines, may be used in forestry and amelioration in clearing of lands from shrub vegetation and small forest.
SUBSTANCE: apparatus has frame with eyelets for connection to base machine. In lower part of frame there is provided hollow pin resting along edges upon two carrier wheels within which wheels two hydraulic pumps are mounted for delivery of arboricide mixture from tank into hollow pin through bypass pipes. Pumps spring-loaded relative to hydraulic cylinder casings are disposed on bypass pipes. Poles with pivotally fixed levers spring-loaded relative to hollow pin are rigidly secured to lower part of hollow pin. Stump surface loosener is rigidly fixed to each of said levers. Hollow pin is communicating with tank cavity through bypass valve. Mixture feeding mechanism has two systems for simultaneous feeding of mixture onto stumps. One of said systems has mixture feeding valves mounted on hollow pin and sprayers. Valves are actuated by means of pusher positioned in lower part of each spring-loaded lever. In other of said systems, valves positioned on hollow pin are connected to pipelines fixed to spring-loaded levers. Said pipelines are connected to distribution channels provided within looseners.
EFFECT: enhanced biological action upon stumps and reduced consumption of arboricide mixture.
FIELD: equipment for machines designed for protecting of plants from pests, diseases, as well as for weed controlling by means of sprayers.
SUBSTANCE: spray boom has carriage made in the form of isosceles trapezium with two four-link mechanisms attached to sides of trapezium. Two four-link mechanisms of parallelogram type are mounted in vertical plane. Carriage is positioned in sprayer frame guides. Upper base of carriage is connected by means of cable hanger to movement mechanism fixed to frame and designed for moving carriage in vertical plane. Each of said mechanisms consists of pivotally interconnected links of different length, said links having axes extending in horizontal plane. First link is made immovable and integral with carriage side. Opposite second link is made integral with cantilevered boom part disposed between pivot joint for connecting it to third link which is joined with its other end to upper pivot joint of first link, and pivot joint for connecting cantilevered part with forth link positioned at point of intersection of line making continuation of third link in its working position with plane of working position of forth link. Other end of forth link is connected to lower pivot joint of first link. Forth link is made in the form of flat triangular frame with apex at point of connection thereof with cantilevered part of boom. Other links of boom are made of single-beam type from bar having triangular, box-like or round circular section.
EFFECT: simplified construction and manufacture process, increased strength, enhanced reliability in operation, reduced weight, material consumption and costs.
2 cl, 4 dwg
FIELD: agriculture mechanical engineering.
SUBSTANCE: batcher-mixer comprises housing, that receives the pressure-mixing chamber and pesticide chamber. The housing is detachable in the plane of the normal section with respect to the axial line of the piston and outlet port for discharging water. The head of the piston is provided with the face and ring collars. The face of the piston of the pesticide chamber is provided with the adjusting screw that is mounted from the side of the spring.
EFFECT: enhanced reliability, simplified design, and prolonged service life.
FIELD: agricultural engineering.
SUBSTANCE: fan-type sprayer has axial fan provided with mechanical drive and mounted in casing, liquid supplying system, and nozzles with slot sprayers. Each of slot sprayers is positioned in spaced relation inside nozzle case. Outlet end of slot sprayer is embraced with conical part of nozzle case. Air duct branch pipe is mounted in lower portion of nozzle case. Said space is defined by conical part of nozzle case and sprayer baffle plate. Slot sprayer is divided into individual chambers by means of distribution plates arranged symmetrically relative to nozzle case longitudinal axis, with inclination angle of distribution plates uniformly increasing from nozzle case center to both sides of periphery. Two hydraulic pipes of slot sprayer are extending in parallel with one another and interconnected by connecting member for defining closed contour. Hydraulic pipe is provided with openings uniformly distributed along its length and oriented into inside of slot sprayer in symmetry with openings of opposite hydraulic pipe.
EFFECT: increased efficiency in applying of high-concentrated suspended fertilizers and aqueous emulsions at optimal extent of dispersion and uniform distribution of used preparation on plants.
3 cl, 4 dwg
FIELD: agricultural technique.
SUBSTANCE: blower type sprinkler includes power unit supporting vessel with working liquid, pump, filters, drive, blower. Intermediate frame is secured to lodgments of power unit. Main frame is mounted on intermediate frame and it includes front, rear, angular and paired angular lateral lodgments. Vessel with working liquid is mounted on lodgments with use of rubber gaskets; said vessel is fixed by means of yokes engaged with paired angular lateral lodgments. Struts are mounted in main frame in end zones of vessel. Front and rear vertical frameworks mutually joined through tie rods are mounted on said struts. Ends of vessel with working liquid are secured to said frameworks. Oil tank with filters is mounted on rear vertical framework. Said tank engages with hydraulic pump provided with valve device that may realize smooth start at lowered starting moment of hydraulic motor. The last motor is provided in addition with three-way valve for driving blower mounted in separate strut. There are technological platforms on main frame. Staircase and control distributor of working liquid is mounted on one platform. In rear portion of main frame reduction gear of drive from power unit to hydraulic pump is mounted. Sprinkler has nozzles. Oval cross section egg-shaped vessel of sprinkler is mounted in such a way that its more pointed end is turned upwards. Base of vessel has supporting surfaces in the form of protruded blocks arranged in its ends, angles and lateral sides. Ends of vessel are provided with vertical housings having eyes with fastening openings.
EFFECT: reliable fixation of vessel filled with working liquid on frame of automobile, safety continuous operation of the whole aggregate.
2 cl, 2 dwg
FIELD: agricultural engineering, in particular, chemical protection of plants.
SUBSTANCE: sprayer has toxic chemical tank, suction filter, pump, pressure filter, regulator-distributor, main pipelines, hydraulic mixer, vertical and horizontal bar sections with working pipes, and slot-type distributors. Sprayers are arranged on vertical bar sections so that axes of spraying openings are oriented at an angle to spraying unit advancement direction line, said sprayers being arranged in alternation. Flat flame in one group of sprayers is oriented at an angle of 45 deg in direction of advancement and in other group of sprayers at an angle of 45 deg in opposite direction.
EFFECT: simplified construction and increased quality of treatment of green plantation.
SUBSTANCE: proposed device contains frame with mounted reservoir, tank connected with liquid sprayers made in form of cups, one nested in the other. Outer cups are provided with holes through which flexible elastic pipelines to feed liquid compounds are installed. Inner cups are installed for displacement in vertical plane by means of springs secured on ends of inner cups and are connected by corrugated hoses with tank communicating with reservoir through corrugated pipeline. Cover is fastened on lower part of each sprayer, and inner cup is furnished with measuring scale.
EFFECT: improved quality of treatment of forest seedlings, reduced harmful action onto surrounding medium.
2 cl, 3 dwg
FIELD: agricultural engineering.
SUBSTANCE: sprayer has tank for storage of toxic chemicals, suction filter, pump, pressure filter, regulator-distributor, and pressure lines for supplying of working fluid to spraying devices. Pressure lines are provided with gauging inserts. Additional gauging inserts are positioned in front of each working device. Sections of gauging inserts are determined from formula: fn=Kn·fl cm2, where fn is section of n-line; Kn is coefficient determined by calculation depending on length of line and local resistances, K=(0.6-0.9); fl is section of line.
EFFECT: increased efficiency by leveling pressure of working fluid in all pressure lines.
FIELD: horticulture, in particular, spraying equipment used for protection of plants, trees and brush from pests and diseases.
SUBSTANCE: sprayer has tank for working fluid, cleaning filter with filtering grid at inlet end, pressure line with pump, valve and bar. Sprayer chamber bottom is equipped with protrusion configured as truncated cone with helical grooves along its axis. Outlet orifice of diaphragm is made conical along protrusion axis. Valve is made in the form of double-armed lever positioned above pressure line and pivotally fixed on shaft. Flexible member is mounted at one end of lever and roller is fixed in spacing between flexible member and lever attachment shaft.
EFFECT: simplified construction, increased quality of spraying by providing high dispersity, and reduced consumption of working fluid.
2 cl, 3 dwg
FIELD: agricultural equipment.
SUBSTANCE: method involves providing field soil strip cultivation; feeding working fluid to working tools; controlling feeding of working fluid to working tools; spraying working liquid by means of disk-type working tools, and providing splitting of droplets to 60 micron size; controlling alignment of strips under cultivation process. With herbicides used in conjunction with working fluid, droplet sizes are selected within the range of 60-160 micron, with insecticides used - droplet sizes are selected within the range of 160-250 micron and with fungicides used - droplet sizes are selected within the range of 250-350 micron. Working fluid flow rates are selected to be 3.5 l/hectare, 5-10 l/hectare and 10-20 l/hectare for herbicides, insecticides and fungicides, respectively. Boom sprayer has working fluid reservoir and working fluid distribution and application system, said reservoir and said system being hung onto power supply means. Working fluid distribution and application system has pipelines, generator and boom with spraying devices fixed thereon and provided with electric engines. Independent hydraulic system for mixing of working fluid has hydraulic pump connected to reservoir and cooperating with pressure regulator and hydraulic mixer located within reservoir. Hydraulic pump is actuated by power supplying means drive cooperating with generator of working fluid distribution and application system for applying working liquid by means of boom sprayers. Said system is equipped with dosing pump adapted for supplying of working liquid to each of working tools. Functioning of dosing pump is regulated by control unit providing correlation of working fluid flow rate and advancement velocity of power supply means. Disk-type working tools are adapted for regulation of droplet separation and speed of rotation thereof.
EFFECT: increased efficiency, enhanced reliability in treatment of field crops with small amounts of preparation, and reduced consumption of working fluid.
3 cl, 1 dwg
FIELD: agricultural engineering, in particular, liquid sprayers used for controlling of horticultural and vegetable crop pests and diseases.
SUBSTANCE: electric sprayer has electric pump with independent power source. Electric pump and power source are located within working fluid vessel equipped with sections for accommodating said pump and power source. Electric sprayer has telescopic holder provided with switch button. Holder has hand-held or automatic hose winding device. One end of hose is connected to electric pump. Sprayer is positioned at other end of hose.
EFFECT: convenient operation, improved safety, mobile and compact construction.
3 cl, 5 dwg
FIELD: agricultural engineering, in particular, spraying booms for surface application of liquid chemicals.
SUBSTANCE: spraying boom has nozzle units mounted on movable brackets. Working liquid is supplied via pipeline through combs which are connected to nozzle units through hoses.
EFFECT: increased efficiency of spraying boom by differentiated application of liquid chemicals through the entire width thereof.
2 cl, 3 dwg
FIELD: railway operation, in particular, equipment for controlling of grass weedage and elimination of brush from road-bed and permanent way.
SUBSTANCE: base platform is mounted by means of vehicle on permanent way portion intended for treatment with herbicides. Before treatment operation, hose sections are moved to working position, i.e., in parallel with surface to be treated. Movable members of housing are set in horizontal position. Water feeding is provided through pipeline from reservoir and preparation is fed through pipeline from tank into mixer. Simultaneously, pump is switched on and flow velocity regulator is moved to position for returning of working fluid through return pipeline into mixer. Converging tube is positioned with its flare portion oriented in direction of treatment. After switching-on pump, spraying apparatus advances along permanent way portion to be treated. Air flow velocity sensor generates signal delivered to flow velocity regulator drive to provide change-over of feeding of working fluid from return pipeline into pressure pipeline, through which working fluid is delivered to sprayers for applying working fluid onto road-way of permanent railway. Increase in the velocity of sprayer results in increase of flow velocity and, correspondingly, increase in an amount of working fluid fed to sprayers. Simultaneously, signal from sensor is delivered to movable member drives providing rotation thereof in vertical plane and defining housing restricting entrainment of drops with vortex air flows. Air is delivered through air duct to openings, from which it is discharged to the outside to thereby facilitate deposition of small droplets created during spraying of working fluid from sprayers. On increase of velocity of spraying apparatus, intensity of deposition of droplets is increased.
EFFECT: uniform application of herbicides onto area of road-bed of permanent way regardless of velocity of spraying apparatus and provision for preventing offset of preparation flow beyond area to be treated.