RU190560U1 - Hydraulic hammer - Google Patents

Abstract

The utility model relates to the mining and construction industries and is aimed at improving the reliability of work and the efficiency of the hydraulic hammer operation. This technical result in a hydraulic hammer, containing a housing with a pressure and drain holes and with it installed with the possibility of reciprocating movement brisk to transfer impulse of force to the working tool, forming a pressure cavity with the body, an overflow cavity and a drain cavity, and made with a radial pressure channel , the overflow channel, the drain channel and the control channel, is achieved by the fact that the overflow channel is facing upwards and is connected with the overflow cavity, and on the outer surface of the piston is nen longitudinal groove connected to the drainage channel.

Description

The utility model relates to ancillary attachments during dismantling works, when working with soils, in particular to hydraulic shock mechanisms, and is intended for use as replacement equipment for construction road machines for the destruction of durable rocks, pavements, concrete structures and the like. works

Known hydraulic hammer, comprising a housing, a striker, a spool and a working tool. The casing has a pressure opening and a drain hole. The pin consists of a lower rod, an upper rod and a piston, and the diameter of the lower rod is larger than the diameter of the upper rod. An axial bore with grooves is made in the upper part of the striker, while the head has a pressure channel, an overflow channel, a drain channel and a control channel. The spool has a lower rod, upper rod and piston with groove. The spool has transverse holes and a longitudinal hole. The head is installed in the housing with the possibility of reciprocating motion and forms with it a pressure cavity, an overflow cavity and an energy accumulator cavity. The spool is installed in the axial hole, in the upper part of which there is a cork. Spool forms with a brisk drain cavity and control cavity. The pressure opening of the housing is connected to the pressure line, and the drain hole is connected to the discharge line. A working tool is installed at the bottom of the hydraulic hammer. The cavity of the energy accumulator is filled with compressed gas (RU 2623159, 06/27/2017).

The disadvantage of this device is that during the working stroke of the striker, there are: 1) high resistance when fluid flows from the pressure cavity to the overflow and 2) fluid leaks from the overflow cavity to the drain, hence increased resistance to the movement of the striker and heating of the working fluid, increased leakage of the working fluid into the discharge, which leads to a decrease in the operational efficiency and operational characteristics of the hydraulic hammer.

The technical problem to which the proposed utility model is aimed at is the expansion of the arsenal of hydraulic hammers technical equipment, the parameters of which provide an increase in the operational characteristics of the hydraulic hammers.

The technical result achieved in the implementation of this utility model is to reduce the resistance to movement of the striker during the working stroke and heating of the working fluid, reducing the leakage of the working fluid to the drain.

This technical result in a hydraulic hammer, comprising a housing with a pressure and drain holes and with a striker installed there with the possibility of reciprocating movement for transmitting a force impulse to a working tool that forms a pressure cavity with the body, an overflow cavity and a drain cavity and is made with a radial pressure channel, overflow channel, drain channel and control channel, is achieved by the fact that the overflow channel is facing up and is connected with the overflow cavity, and on the outer surface of the piston of the striker is a longitudinal groove connected to the drain channel.

By changing the location of the overflow channel (slope of the overflow channel up) and making a longitudinal groove on the outer surface of the striker piston, the resistance decreases when the fluid flows from the pressure cavity into the overflow during the striker working stroke (i.e., the striker movement resistance decreases) fluid and leakage of fluid from the overflow cavity to the drain when working striker.

The head has an axial blind hole, made with grooves and in which there is a spool, made with a transverse through hole and having a lower stem, an upper stem and a piston with a groove, with the diameter of the lower stem of the spool being smaller than the diameter of the upper stem of the spool; an axial through hole and a drain channel on its outer surface.

The body is made with a groove in the place of the drain hole, and the striker contains the lower rod, the upper rod and the piston, and the diameter of the lower rod of the striker is larger than the diameter of the upper rod of the striker.

The pressure cavity through the pressure opening of the housing is connected to the pressure line, and the drain cavity through the drain hole of the housing is connected to the drain line.

The essence of the utility model is illustrated in the drawing, which shows a sectional view of the declared hydraulic hammer with a cavity with a lubricant.

Accepted notation:

1 - Case

2 - Punch

3 - Spool

4 - Working tool

5 - Pressure port

6 - Drain hole

7 - Groove

8 - Lower striker pin

9 - Upper Stem

10 - Peen piston

11 - Axial blind hole

12, 13, 14 - Grooves in the axial blind hole of the striker

15 - Pressure channel

16 - Overflow channel

17 - Drain channel

18 - Control Channel

19 - Longitudinal groove

20 - Lower piston rod

21 - Top stem of the spool

22 - Spool piston

23 - Groove piston spool

24 - Transverse through-hole spool

25 - Axial through (longitudinal) hole spool

26 - Drain channel spool

27 - Pressure cavity

28 - overflow cavity

29 - cavity energy battery

30 - Cork

31 - Drain cavity

32 - Cavity control

33 - Discharge line

34 - Drain line

The hammer includes a housing 1, a striker 2, a spool 3, and a working tool 4. In the housing 1, a discharge opening 5, a drain opening 6 and a groove 7 are made.

The head 2 contains a lower rod 8, an upper rod 9 and a piston 10. Moreover, the diameter of the lower rod 8 is larger than the diameter of the upper rod 9. In the upper part of the striker 2, an axial bore 11 is made with grooves 12, 13 and 14. In addition, the head 2 has the pressure channel 15, the overflow channel 16, the drain channel 17 and the control channel 18. On the outer surface of the piston 10 there is a longitudinal groove 19 connected to the drain channel 17.

The spool 3 has a lower rod 20, an upper rod 21 and a piston 22 with a groove 23. Moreover, the diameter of the lower rod 20 is smaller than the diameter of the upper rod 21. In addition, the valve 3 has transverse bores 24 and a longitudinal hole 25. On the outer surface of the spool 3 drain channel 26.

The head 2 is installed in the housing 1 with the possibility of reciprocating motion and forms with it a pressure chamber 27, an overflow cavity 28 and an energy accumulator cavity 29.

The spool 3 is installed in the axial hole 11, in the upper part of which there is a stopper 30. The spool 3 forms with the striker 2 a drain cavity 31 and a control cavity 32.

The discharge hole 5 of the housing 1 is connected to the pressure line 33, and the drain hole 6 - with the drain line 34.

At the bottom of the hammer installed working tool 4. The cavity of the battery energy 29 is filled with compressed gas.

Hydraulic hammer works as follows.

In the initial position, the firing pin 2 under the action of the battery energy 29 is pressed to the working tool 4. The control cavity 32 through the control channel 18 is connected to the pressure cavity 27.

The liquid from the pressure line 33 through the pressure hole 5, the pressure cavity 27 and the control channel 18 under pressure enters the control cavity 32 and, acting on the piston 22, moves the spool 3 up to the stop in the plug 30. At the same time, the liquid from the drain cavity 31 through the channel 26, groove 14, channels 17 and 19, groove 7 and drain hole 6 are forced into drain line 34. As a result, overflow cavity 28 through overflow channel 16, grooves 13, 23 and 14, channels 17 and 19, groove 7 and drain hole 6 is connected to the drain line 34. The liquid from the The main line 33 entering under pressure through the pressure opening 5 into the pressure cavity 27 acts on the piston 10 and moves the firing pin 2 upward, compressing the gas in the cavity of the energy accumulator 29. The striker 2 is recharged. The liquid from the overflow cavity 28 is forced out into the drain line 34

At the end of the platoon, the control channel 18 goes into the groove 7, connecting the control cavity 32 to the drain line 34. The spool 3 under the pressure of the fluid coming from the pressure cavity 27 through the pressure channel 15 and the holes 11 and 25, due to the difference in diameters of the upper rod 21 and the lower stem 20 moves down until it stops in the face 2. As a result, the overflow cavity 28 is separated from the drain line 34 and through the overflow channel 16, grooves 13, 23 and 12, holes 24. 25, 11 and the pressure channel 15 is connected to the pressure cavity 27 . Fluid pressure in cavities 27 and 28 yravnivaetsya and the striker 2, under the action of the energy accumulator 29 is stopped, and then dispersed down to strike against the working tool 4, performing stroke. In the course of the stroke, the fluid in the pressure cavity 27 and the fluid flowing from the pressure line 33 is displaced into the overflow cavity 28. At the same time, due to the difference in diameters of the upper stem 9 and lower stem 8, the pressure of the fluid entering the overflow cavity 28, affects the firing pin 2, increasing the impact energy.

At the end of the stroke, the control channel 18 enters the pressure chamber 27, connecting the control cavity 32 to the pressure line 33.

Then the cycle repeats.

In the claimed utility model, an increase in the operating efficiency of the hydraulic hammer is achieved.

Claims (3)

1. Hydrohammer, comprising a housing with a pressure and drain holes and installed in it with the possibility of reciprocating movement of the striker to transfer momentum of power to the working tool, forming a pressure cavity with the housing, overflow cavity and drain cavity and made with a radial pressure channel, overflow channel , a drain channel and a control channel, characterized in that the overflow channel faces upwards and is associated with the overflow cavity, and on the outer surface of the striker piston there is a longitudinal groove connected to about the drain channel. 2. Hydraulic hammer according to Claim. 1, characterized in that the body is made with a groove in the place of the drain hole. 3. Hydraulic hammer according to Claim. 1, characterized in that the striker contains a lower rod, an upper rod and a piston, and the diameter of the lower rod of the striker is larger than the diameter of the upper rod of the striker.

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