RU2011372C1 - Apparatus for treating animals and houses with aerosols - Google Patents

Abstract

FIELD: veterinary science. SUBSTANCE: apparatus has solenoid core connected to pressure plate by springs, whose tension force exceeds total force of valve springs of balloons located in apparatus. EFFECT: increased efficiency in treating animals and houses and enhanced reliability in operation. 4 dwg

Description

 The invention relates to veterinary medicine, in particular to devices for treating animals and premises with aerosol spray cans.

 A device is known in which the solenoid coil is installed under the lifting platform and is made paired with diametrically located cavities, and the cores of the coil are pivotally mounted on angular retainers, which are made in the form of vertical two-arm levers, the upper ends of which are mounted to interact with the lifting platform, and the lower ends equipped with a return spring connecting them to each other.

 The purpose of the invention is to increase operational efficiency.

 The goal is achieved in that the coil and the core of the solenoid are made with an axial cylindrical hole and are concentrically mounted on the stand, while the pressure plate is connected to the core of the solenoid by means of springs, the total tensile force of which exceeds the total force of the valve springs of the cartridges located in the device.

 In FIG. 1, 3 shows the proposed device, a longitudinal section (in position with inoperative valves of the cans); in FIG. 2,4 - the same, cross section with working valves.

 The device has a cross-shaped base 1. In its center, a central post 2 is fixed on the bearing, having a threaded portion 3 that does not reach the solenoid coil to a height equal to the height of the thread of the solenoid core. At the top of the center pillar is the suspension 4.

 In the middle part of the supporting racks 5 there is a fixed plate 6 with clips 7 of the spray can 8, with valve heads 9. In the upper part of the supporting struts, a vertical cross-shaped plate 10 is moved vertically, pressed upward by the springs 11.

 The coil 12 of the solenoid is attached to the base, its core 13 has a threaded section 14. The core is connected by springs 15 to the adjusting screws 16 of the pressure plate.

 The positions indicated: 17 - control panel, 18 - cover with current-transmitting disks, 19 - base plate with current-transmitting devices, including spring-loaded balls moving along the current-transmitting disks of the cover during rotation of the device.

 The device operates as follows.

 Adjusting screws 16 regulate the degree of tension of the springs 15 of the pressure plate 10. After that, six devices, for example, are attached to the ceiling by means of hangers 4 in a checkerboard pattern or another order at a distance of 10-12 m from each other and from the end walls of the room. Wires from them are displayed in the vestibule and connected to the control panel 17. A pair of cartridges 8 is installed on the base 1 and fixed in the latches 7 so that the valve heads 9 are under the protrusions (not indicated) of the pressure plate 10, and the outlet openings of the valve heads 9 are facing away from the device. After that, the first flock of sheep is driven into the room for processing, they leave the room, and the operating time of the spray can valves is set on the control panel in one session.

 After turning on the remote control 17, the electric current through the current-carrying disks of the cover 18 enters the spring-loaded balls of the support plate 19 into the coil 12 of the solenoid, which attracts the core 13. When it descends, it lowers the pressure plate 10 through the springs 15 passing through the holes in the fixed plate 6. It Having overcome the pressure of the springs 11, it moves along the supporting struts 5 and comes into contact with the upper surfaces of the heads 9 of the can valves 8 and turns them on: the aerosol starts to enter the room air. In this case, when changing the direction of the current, the core does not depart from the coil and does not make sharp sounds that frighten the sheep. Even if the length adjustment is not clear enough, the springs 15 will provide a pressure plate 10 to the valve heads.

 During lowering, the threaded section 14 of the solenoid begins to move along the threaded section 3 of the central rack 2. Due to the fact that it is fixedly mounted by means of the suspension 4, the bearings 1 begin to rotate on the bearings together with the cans with open valves, fixed and movable 10 plates, etc. At this time, current is transmitted from the cover plate 18 disks to the supporting plates 19 that rotate with the device and then to the solenoid coil 12. When lowering the threaded section 14 of the core 13 comes off section 3 of the Central rack 2 and does not interfere with the rotation of the device around the axis of the rack. At this time, the aerosol is uniformly dispersed by the rotating device.

 After the set time has elapsed, the control panel 17 stops supplying current to the device. At this time, the springs 11 of the supporting posts 5 raise the pressure plate 10 together with the core 13 and stop applying pressure to the valve heads 9. They close their openings and stop the release of aerosol into the air. At the same time, the threaded section 14 of the core begins to be wound onto the thread of section 3 of the central rack 2 and forces the entire device to rotate, but already in the opposite direction around the axis of the rack 2.

 Thus, one solenoid provides inclusion in the operation of the valves of the cartridges and the rotation of the device around the axis of the Central rack; and the springs connecting the core of the solenoid to the pressure plate prevent unnecessary sounds even with inaccurate adjustment of their length.

Claims (1)

 A DEVICE FOR PROCESSING ANIMALS AND SPACES BY AEROSOLS, including an annular base on which an axial strut with spring-loaded can holders is mounted, a pressure plate located on the can with the possibility of acting on the canister release buttons, with a drive in the form of a solenoid, the coil of which is fixed on the base, and the core is installed with the possibility of movement, and a current-transmitting device made in the form of a rotatable cover rigidly mounted on a rack above the pressure plate and located in a cavity formed by a plate and a cover of current-transmitting disks and spring-loaded balls, electrically connected to a solenoid coil, characterized in that the coil and the core of the solenoid are made with an axial cylindrical hole and are concentrically mounted on the rack, while the pressure plate is connected to the core of the solenoid by means of springs, total the tensile force of which exceeds the total force of the valve springs of the cans located in the device.

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