RU84084U1 - AUTOMATIC PACKING DEVICE ANU-500 - Google Patents

Abstract

An ANU automatic stuffing device containing a pneumatic actuator (pneumatic cylinder), a distribution unit, a power cylinder, suction, pressure and safety valves, characterized in that a container for viscous material is introduced, having a safety device for protection against destruction, a measuring scale and a piston position indicator containing a pneumatic cylinder in which the piston is installed, while the piston rod is a plunger of a high pressure pump, which is rigidly connected to the filling tank and a pneumatic cylinder and containing a working chamber, a suction, discharge and relief valves interacting with viscous material, while the rod of the pneumatic cylinder interacts with suction and discharge valves, and the suction valve is connected to the cavity of the container for viscous material, and the discharge valve with a high sleeve pressure, while the plunger (rod of the pneumatic cylinder) of the high-pressure pump acts directly on the viscous material that enters the working chamber of the pump and containers for viscous material under the influence of a piston, which is affected by air coming from a distribution unit having an air valve to change the piston speed of the pneumatic cylinder and a pressure regulator, by means of which the pressure in the pneumatic cylinder changes and, as a consequence, the pressure of the viscous material .

Description

The ANU-500 automatic stuffing device refers to devices designed for flushing and subsequent restoration of tightness in the area of seal assemblies of shut-off and control valves, as well as for pumping viscous materials into mechanisms nodes with a pressure of up to 50 MPa and creating excessive hydraulic pressure in vessels with a capacity of up to 5 liters.

It is known automatic stuffing device ANU (utility model patent No. 42875) comprising a pneumatic actuator, in the housing of which a piston block is mounted rigidly interconnected and containing a power cylinder, in the housing of which a piston is installed that does not have a rigid connection with the pneumatic actuator piston block, a distribution unit mounted on the housing of the pneumatic actuator, suction, discharge and safety valves.

The disadvantages of the known automatic stuffing device ANU are: complicated in the manufacture and assembly; a small capacity of the master cylinder with a large weight of the automatic stuffing device (the ratio of capacity to weight is 1.5 l to 22 kg.); difficult to operate due to the need for frequent disassembly for servicing the air distributor, suction and discharge valves; a working pressure of 15 MPa does not allow servicing a switchgear with a working pressure of more than 12 MPa, low productivity (50 cm ³ / min); the presence of hydraulic fluid, which creates additional weight, and the presence of debris and paraffin in it causes clogging of the discharge valve; lack of ability to control the consumption of viscous material; To move the piston of the power cylinder, it is necessary to disconnect the high pressure sleeve from the stuffing device and install an additional adapter.

The technical result achieved when using this automatic stuffing device ANU-500: simplification of manufacture and assembly,

increase of reliability, safety and maintainability; an increase in the proportion of viscous material in the total weight of the automatic stuffing device (the ratio of capacity to weight is 5.5 l to 25 kg); increase in discharge pressure up to 50 MPa and productivity up to 350 cm ³ / min; the ability to change the working pressure and performance during operation; visual control of viscous material consumption; displacement of the piston of the filling tank without disconnecting the high-pressure hose from the stuffing device.

The specified technical result, which is achieved by the claimed utility model, is achieved by the fact that in the automatic stuffing device ANU containing a pneumatic actuator (pneumatic cylinder), a distribution unit, a power cylinder, a suction, pressure and safety valves, a container for viscous material having a safety a device for protection against destruction, a measuring scale and a position indicator of the piston containing a pneumatic cylinder in the housing of which a piston is installed while the piston rod is a plunger of a high pressure pump, which is rigidly connected to the filling tank and the pneumatic cylinder and containing a working chamber, suction, discharge and relief valves interacting with viscous material, while the piston rod of the pneumatic cylinder interacts with the suction and discharge valves, and the suction valve is connected with a cavity of the container for viscous material, and a discharge valve with a high pressure sleeve, while the plunger (rod of the pneumatic cylinder) of the high pump pressure directly interacts with the viscous material, which enters the working chamber of the pump from the container for viscous material under the influence of a piston, which is exposed to air coming from a distribution unit having an air valve to change the speed of movement of the piston of the pneumatic cylinder and a pressure regulator by which pressure changes in the pneumatic cylinder and, as a consequence of this, the discharge pressure of a viscous material.

The proposed Automatic stuffing device ANU-500 is illustrated by the figures:

Fig. 1 schematically shows the proposed automatic stuffing device ANU-500, where:

1. The distributor.

2. Throttle.

3. Pressure regulator.

4. Angle fitting.

5. Pneumatic cylinder.

6. Pneumatic hose.

7. Flange.

8. Relief valve.

9. Sleeve of a high pressure.

10. Pressure valve.

11. Stem (plunger).

12. The housing of the high pressure pump.

13. The suction valve.

14. Shutter.

15. Nut.

16. The cover.

17. Safety device.

18. The stub.

19. The nut is round.

20. Emphasis.

21. The control hole.

22. The piston.

23. Measuring scale.

24. The cuff.

25. Refueling capacity.

26. Bracket.

27. Inlet fitting.

28. The collector.

29. Bracket.

30. Manual crane.

31. Casing.

32. Fitting.

33. Position sensor.

34. Connecting hose.

35. Angle fitting.

36. The pen.

37. Segment washer.

38. Screw.

39. The pen.

40. The body of the relief valve.

41. The body of the discharge valve.

42. The ball.

43. Support ring.

44. Guide ring.

45. Dispenser.

Wherein:

The pneumatic cylinder 5 is rigidly connected to the housing of the high pressure pump 12, while the rod 11 of the cylinder is simultaneously a plunger of the high pressure pump. The working cavity of the high-pressure pump is connected, on the one hand, through a suction valve 13 with a filling tank 25 for viscous material, and, on the other hand, through a discharge valve 10 with a high-pressure hose 9 and a relief valve 8. A pneumatic cylinder 5, a high-pressure pump housing 12, and the distribution unit is mounted on a filling tank 25, in the housing of which a floating piston 22 is located, on which, on the one hand, compressed air acts from the distribution unit, and on the other hand there is a viscous ith material.

In the automatic stuffing device ANU-500, a pressure regulator 3 is installed at the inlet of the pneumatic cylinder 5, which allows you to change the pressure

air at the inlet of the pneumatic cylinder 5 from 0 to 0.9 MPa, which provides a change in operating pressure from 0 to 50 MPa. A manual valve 30 is installed on the exhaust chokes 2 of the distributor 1, which, when turned on / off, decreases or increases the volume of air in the exhaust, which leads to a decrease / increase in the speed of movement of the rod 11 of the pneumatic cylinder 5. The seal of the piston 22 with the housing of the filling tank 25 is made of a magnetic ring rubber, while the latter interacts with a metal pointer measuring scale 23 mounted on the outside of the tank. To move the piston 22 to its original position, a one-way shutter 14 is installed in the upper part of the cover 16 of the refueling container 25, which opens when an air hose is connected to it. The pneumatic cylinder 5, the refueling tank 25 and the distribution unit are assembled from units and parts manufactured by the German company Festo (see. Catalog on pneumatics, Germany, version 2002/2003).

Description of the proposed automatic stuffing device ANU-500:

To a filling tank 25, consisting of a profile pipe with two caps and a freely moving piston, and connected on one side through a fitting 32 and a connecting hose 34 to an air (gas) distribution unit, and on the other hand, through a suction valve 13 with a pump working cavity high pressure, installed using brackets 26 and 29 air distribution unit, pneumatic drive, high pressure pump, device for returning the piston of the filling tank to its original position, safety device and measuring scale.

The air (gas) distribution unit, consisting of a distributor 1, a pressure regulator 3, two cylinder sensors 33, two exhaust chokes 2, a manifold 28, a manual valve 30, is connected using pneumatic hoses and connecting fittings to the working cavities of the pneumatic cylinder 5 and the air cavity of the filling capacity 25. Air (gas) is supplied to the air distribution unit through an inlet fitting 27 mounted on a manifold 28. A pneumatic drive consisting of a pneumatic

cylinder 5, the rod 11 of which is a plunger of a high pressure pump, is connected through two brackets 26 to the housing of the filling tank 25, and through the flange 7 to the pump housing 12.

The high-pressure pump of the plunger type is rigidly attached to the pneumatic cylinder 5 through the flange 7 and, on the other hand, is connected via the suction pump housing 15 with a nut 15 and a segment washer 37 to the internal cavity of the filling tank 25. The pump consists of a housing 12 suction 13, discharge 11 and relief 8 valves connected through a system of openings with a working cavity of the filling tank 25 and a high pressure sleeve 9, and from the side of the pneumatic cylinder 5 through a hole sealed with a cuff 24 s the rod 11 of the pneumatic cylinder 5.

The device for returning the piston of the refueling container to its original position is a shutter 14, screwed with its threaded portion into the cap 16 of the refueling container, and to which, if necessary, a quick-disconnect socket of the supply pneumatic hose is connected. At the same time, the shutter device 14 provides air supply into the refueling tank 25 when a quick-connect socket is put on it and closes when it is removed from the shutter.

The safety device, consisting of an angled fitting 17 and a safety plug 18, is connected by a threaded part to the inner surface of the refueling tank 25, and through the hole in the fitting 17 closed by the plug 18, to the atmosphere.

The measuring scale 23 is located on the outer surface of the refueling tank 25 and consists of a scale, a transparent plastic tube plugged with plugs on both sides, and a magnetized pointer placed inside the tube, and interacting with the piston 22, the seal of which is made of magnetized rubber.

The automatic stuffing device ANU-500 works as follows (see Schematic diagram of the automatic stuffing device ANU-500, Fig. 2):

Air through the inlet fitting 17 enters the collector 16 and is further divided into three streams:

the first stream - through an air hose enters the cavity A of the filling tank 15, where it acts on the piston and moves it, while the piston acts on the viscous material and squeezes it through the suction valve 18 into the cavity C of the pump 5;

the second stream - enters the position sensors 11 and further to the distributor 13, controlling its operation;

the third stream - enters the distributor housing 13, then through the air hoses in the cavity D and E of the pneumatic cylinder 10, while air enters the cavity E through the pressure regulator 12.

The piston block of the pneumatic cylinder 10 moves under air pressure, while the rod of the block moves inside the cavity C of the pump and squeezes out the viscous material through the discharge valve 9 into the high pressure sleeve 8 and simultaneously acts on the ball of the suction valve 18, as a result of which the valve closes and does not allow the viscous the material enters the container 15. When the spool of the distributor 13 comes to its extreme point, it opens the holes through which air (gas) enters the cavity D of the pneumatic cylinder 10 and burghers together with its piston rod in the direction E of the cavity, wherein the viscous material under the influence of vacuum in the cavity C of the pump 5 and the air pressure on the piston 15 enters the container from the cavity in the container 15 through the suction valve 18 into the cavity C of the pump 5 and fills it. Air from the cavity E through the distributor 13 enters the throttle 20 and then into the atmosphere. At the same time, under the influence of pressure in the high pressure sleeve 8, a viscous material acts on the ball of the discharge valve 9, as a result of which the valve closes and does not allow the viscous material to flow from the high pressure sleeve 8 into the cavity C of the pump 5. When the spool valve 13 approaches to its extreme position, the air supply opening to the cavity D is blocked and an opening opens, through which air enters the cavity E of the pneumatic cylinder 10 and acts on the piston, which moves with the rod m interacts with viscous

material and squeezes it from the cavity C of the pump 5 through the discharge valve 9 into the high pressure sleeve 8. The air from the cavity D through the distributor 13 enters the mufflers 20 and then into the atmosphere. Increasing / decreasing the discharge pressure is carried out by increasing / decreasing the air pressure entering the cavity E of the pneumatic cylinder 10, for which a pressure regulator 12 is installed in the distributor 13 - cavity E of the pneumatic cylinder 10. The piston of the pneumatic cylinder 10 is reduced / increased by changing the speed of the air passage through the openings of the throttles 20, for which a manual valve 19 is installed in the gap between them. To relieve pressure from the high pressure sleeve 8 after stopping automatic stuffing device, as well as to remove the air plug from the pump 5 and discharge valve 9, a relief valve 6 is used, when the screw is loosened, an opening is opened and viscous material is squeezed out into the atmosphere under the influence of residual pressure in the high pressure sleeve 8.

To connect the automatic filling device ANU-500 to the gas (air) network with a pressure of 1.0-15.0 MPa, a step-down regulator 2 is used, and for filtering air (gas) from condensate and mechanical impurities, a filter-regulator 3 is used.

The economic effect of using the proposed automatic stuffing device ANU-500 is at least 200,000 rubles. on one automatic stuffing device during its operation.

Claims (1)

An ANU automatic stuffing device containing a pneumatic actuator (pneumatic cylinder), a distribution unit, a power cylinder, suction, pressure and safety valves, characterized in that a container for viscous material is introduced, having a safety device for protection against destruction, a measuring scale and a piston position indicator containing a pneumatic cylinder in which the piston is installed, while the piston rod is a plunger of a high pressure pump, which is rigidly connected to the filling tank and a pneumatic cylinder and containing a working chamber, a suction, discharge and relief valves interacting with viscous material, while the rod of the pneumatic cylinder interacts with suction and discharge valves, and the suction valve is connected to the cavity of the container for viscous material, and the discharge valve with a high sleeve pressure, while the plunger (rod of the pneumatic cylinder) of the high pressure pump acts directly on the viscous material that enters the working chamber of the pump and containers for viscous material under the influence of a piston, which is affected by air coming from a distribution unit having an air valve to change the piston speed of the pneumatic cylinder and a pressure regulator, which changes the pressure in the pneumatic cylinder and, as a result, the pressure of the viscous material .