SU1578276A1 - Impactor - Google Patents

Abstract

The invention relates to construction equipment and is intended for punching wells in the ground. The goal is to increase the productivity of work by increasing the impact energy during the return stroke of the machine and ensuring that the impact energy can be regulated during both forward and reverse travel. In the hollow body 1 of the machine there is a drummer 2, which divides the body cavity into the front and rear working chambers (RK) 3 and 4, which are interconnected by channel 5 of a small flow section. From the back of the RK 4 of the striker 2, the pneumo line (PL) 7 is connected to the RK 8 of the pulsator 9, with which the PL 12 is connected to the pneumoaccumulator (PA) 16. At the same time, the PL 12 has a means of controlling the flow of compressed air from the RK 8 of the pulsator 9 to the PA 16, made in the form of a three-position spool 13. In one of the positions of the spool 13 a check valve 14 is installed, the inlet of which is connected to PL 12 from RK 8 pulsator 9. The working cavity 15 PA 16 is connected to the atmosphere by means of successively installed check valves located between PL 18 and the spool 13 19 and controlled pneumatic valve at 20. The control chamber of the latter is in communication with the working cavity 15 PA 16. The check valve 14 creates the necessary vacuum in RC 8 and 4, which causes the required impact energy of the striker of the impactor 2. The impact energy is adjusted by changing the volume 17 of the PA 15 by means of the mechanism 17 and adjustment by the mechanism 21 of the pneumatic valve 20. When the spool 13 is in the neutral position, the maximum impact energy is ensured. 1 hp f-ly, 1 ill.

Description

The invention relates to impact machines, namely raspberries, intended for use in construction when punching holes in the ground.

The purpose of the invention is to increase the productivity of work by increasing the impact energy during the return stroke of the machine and ensuring that the impact energy can be controlled both during forward and reverse travel.

The drawing shows a percussion machine.

The machine contains a hollow body 1 and a drummer located in it. 2, dividing the body cavity into the front 3 and rear 4 working chambers, which are communicated with each other by a channel 5 of a small bore through the throttle 6. The rear working chamber 4 is connected by a pneumatic line 7 to the working cavity 8 of the pulsator 9. The pulsator 9 includes a body with compensation hole 10 and a movable piston connected by means of a crank mechanism 11 with the engine. The working cavity of the pulsator 9 is communicated by pneumatic line 12 with the removal of means for controlling the inflow of compressed air, made in the form of a three-position spool 13 having a built-in non-return valve 14. The second branch of the spool 13 is connected to the working cavity 15 of the pneumatic accumulator 16, having a mechanism 17 for volume control working cavity. Mentioned working cavity 15 is communicated by pneumatic line 18 with the environment (atmosphere) through a series-connected non-return valve 19 and controlled pneumatic valve 20, having a spring elastic control mechanism 21.

The percussion machine works as follows.

When the engine of the pulsator 9 is turned on, its piston reciprocates in the housing. If the pulsator piston moves to the left and displaces the air from the cavity 8 to the rear working chamber 4, since the rear 4 and front 3 working chambers are connected by a channel 5 with a small flow area, the pressure in chamber 4 is greater than in chamber 3, therefore the drummer moves to the left and strikes the front end of the hull, ensuring its penetration into the ground by a certain amount. When the piston 9 of the pulsator 9 moves to the right in the cavity 8 and in the working chambers 3 and 4, a vacuum is created, the value of which in chamber 4 is greater than in chamber 3 due to channel 5, therefore drummer 2 moves to the right to its original position. Continuing to move to the right, the piston of the pulsator 9 opens the compensation hole 10, which communicates the cavity 8 with the environment. The spool 13 occupies a neutral position shown in the drawing, which provides the implementation

maximum impact energy. I

If, according to the operational conditions, it is necessary to change the impact energy downward, the spool 13 is moved to the right of the neutral position, providing a message to the pneumatic line 7 with the cavity 15 of the pneumatic accumulator 16. Adding additional volume to the system (cavity 15) causes a decrease in pressure in cavity 8 and in chambers 3 and 4, which reduces the impact energy. The magnitude of the impact energy is controlled by changing the pressure in the circuit in question, which, in turn, depends on the volume of the cavity 15 and the setting of the valve 20. The mechanism of the cavity 15 of the pneumatic accumulator 16 is changed by

mechanism 17, and the opening pressure of the pneumatic valve 20 is controlled by changing the elasticity of the spring 21.

If it is necessary to remove the machine from the well, turn back by moving the spool of the pneumatic distributor 13 to the left of the neutral position, connecting the pneumatic line 7 to the cavity 15 of the pneumatic accumulator 16 through the built-in non-return valve 14. In this case, when air is displaced from the cavity 8, part of it through the check valve 14 enters the cavity 15 through the check valve 19 and the pneumatic valve 20 - into the environment. The pressure in the contour formed by the cavity 8, chambers 4 and 3, decreases, which leads to a decrease in the impact energy of the striker against the front wall, i.e. the impact stroke energy decreases. When the piston 9 moves in the opposite direction, i.e. to the right, a vacuum is created in cavity 8. The presence of a check valve 14 provides the creation of the necessary vacuum in the cavity 8 and the chamber 4, and this causes the required energies of the impact of the impactor 2 on the back wall, i.e. the necessary energy to strike backward. The magnitude of the impact energy is controlled by varying the volume of the cavity .15 and adjusting the pneumatic valve 20.

Thus, the use of the proposed percussion machine provides increased operational capabilities as a result of an increase in the impact energy during the return stroke of the machine, as well as due to the possibility of adjusting the magnitude of the impact energy in both forward and reverse travel in accordance with the operating conditions.

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Claims (2)

1. A percussion machine comprising a hollow body, a drummer housed in the body, dividing the body cavity to the front and rear working chambers, which are interconnected by a channel with a small flow section, a pulsator, the working cavity of which is connected to the rear working chamber of the hammer, pneumoaccumulus torus connected by pnevmoline with the pulsator's working chamber, and the means installed in said pneumatic line to control the flow of compressed air from the pulsator's working chamber to the pneumatic accumulator, which is, in order to increase the productivity of the work by increasing the impact energy during the return stroke of the machine and ensuring control of the impact energy in both forward and reverse moves, the pneumatic accumulator is made with a mechanism for regulating the volume of its working cavity, which is connected to the atmosphere by means of for pneumo line and control means for sequentially installed check valve and controllable pneumatic valve, the control chamber of which is connected to the working cavity of the pneumatic accumulator, while the means for controlling the flow of compressed air into the pneumatic accumulator is made in the form of a three-position spool, in one of which positions the return valve is installed a valve whose inlet is connected by a pneumatic line with a pulsator working chamber. 2. The machine according to claim 1, wherein the rear part of the machine body is made in the shape of a truncated cone.