SU1602981A1 - Percussive machine - Google Patents

Abstract

The invention relates to the mining and construction industries and is intended to destroy rock, coal, concrete, and others. The goal is to increase work efficiency by adjusting the impact power depending on the pressing force of the rock-destructive tool (PRI) to the material to be destroyed. A drummer 13 and an air distribution mechanism (BPM) are placed in the barrel 12 of the percussion mechanism, spring-loaded relative to the housing 1, to provide reciprocating movement of the striker 13. In the supply channel 10 of the CPM, the pusher 28 is placed with the trigger mechanism 3 in the form of a valve with the ability to interact with the end 24 of the stem 25 at 23. placed at 23 coaxially with respect to the barrel 12 and spring loaded with spring 26 relative to housing 1. After supplying compressed air through nozzle 2, press housing 1 in direction PM. At the same time, PRI 23 contacts the PM, the spring 26 contracts, and the pusher 28 moves up and acts on the BPM and the trigger 3. The drummer 13, having oscillating movements, strikes the end face 24, and PRI 23 influences the PM. By increasing or decreasing the force on the PRI 23-PM contact, the deformation of the spring 26 is regulated, which causes an increase or decrease in the energy and frequency of shocks on PRI 23. As a result, the magnitude of the voltage pulses reflected from the pulse stabilizes at a constant, predetermined level. 1 il.

Description

distribution mechanism (BPM) to provide reciprocating movement of the striker 13. In the supply channel 10 of the CPM is placed a pusher 28 with a trigger 3. In the form of a valve with the ability to interact with the end 24 of the shank 25 PR 23, Placed AT 23 coaxially relative to the barrel 12 and spring-loaded spring 26 relative to the housing 1. After supplying the compressed air through the nozzle 2, press the housing 1 in the direction of the PM. At the same time, PRI 23 is in contact with

The PM, the spring 26 is compressed, and the pusher 28 moves up and acts on the BPM and the trigger 3. The drummer 13, having made oscillatory movements, strikes the end face 24, and PRI 23 affects the PM. Increasing or decreasing the force on the PRI 23-PM contact regulates the deformation of the spring 26, which causes an increase or decrease in the energy and frequency of impacts on PRI 23. As a result, the magnitude of the voltage pulses reflected from the pulse stabilizes at a constant, predetermined level. 1 il.

The invention relates to the mining and construction industries, namely, impact machines used to destroy rock, coal, concrete, etc.

The purpose of the invention is to increase work efficiency by adjusting the impact power, depending on the force of pressing the tool against the material to be destroyed. .

The drawing shows a percussion machine.

The machine consists of a housing 1, a pipe 2 for supplying compressed air and a controlled normally-closed trigger mechanism 3, made, for example, in the form of a valve including a seat 4, a plate 5, a rod 6, a distribution plunger 7 and a plunger cavity 8 with a drainage hole 9 The normally closed trigger mechanism (valve) is connected to the supply channel 10 of the air distribution mechanism, which, in turn, is connected to the nozzle 11 of the housing.

In addition, the percussion machine contains a percussion mechanism that includes a barrel 12, a hammer located in the barrel 13, and an air distribution mechanism for providing a reciprocating movement of the hammer. The air diffusion mechanism turns on the valve assembly 14, and the drummer divides the barrel cavity into chambers of working stroke 15 and idling 16.

The barrel 12 has a cylindrical bore 17, into which the nozzle 11 enters with the possibility of axial movement. In the barrel 12, besides, there are channels 18 and 19 supplying compressed air from the valve assembly 14 to the chambers 15 and 16, respectively, as well as the exhaust opening 20 , which is adjacent to the hole 21 on the body 1 of the machine. Between the car body 1 and the barrel 12

placed elastic element 22, made, for example, in the form of a spring.

The machine is equipped with a tool 23 placed coaxially relative to

trunk 12, having an end 24 and a shank 25. The latter enters trunk 12 so that the drummer 13 can strike it, the barrel 12 itself can interact with the tool 23, Between the end 24 and

housing 1 is placed an elastic element 26, made in the form of a spring. Moreover, between the end face 24 and the body 1 there is a gap on the side of the elastic element 26, and on the other side the end face 24 abuts against the tide 27,

fastened to the housing 1 using, for example, bolts. As a result, when the machine is running, the tool 23 has a free course for compressing the elastic element 26, in addition, it does not fall out of the housing,

In the opening of the housing 1, the pusher 28 is placed with the possibility of axial movement, which with one end rests against the separating plunger 7, and with the other rests on the end 24 of the tool

23. Moreover, the pusher 28 is mounted so that when moving the end 24 of the tool 23 (under the action of a pressing force) from the tide 27 to the stop with the body 1, the controlled normally-closed trigger mechanism 3

fully open.

The percussion machine works as follows.

Initially, compressed air is supplied, then pressure is applied to the body 1 in the direction of

destructible environment. As a result, the tool 23 comes into contact with the material of the medium being destroyed. Then the spring 26 begins to compress, and the pusher 28 moves upward, pressing the separating plunger 7. From this, the valve plate 5 begins to move above the seat 4, and air from the pneumatic network flows through the supply channel 10, the nipple 11 and the hole 17 to the valve assembly 14. As a result, the valve assembly 14 alternately passes air through first through channel 18 into the working stroke chamber 15, then through channel 19 into the idling chamber 16. This leads to the oscillatory movement of the striker 13, during which it inflicts periodic blows on the end face 24, and the tool 23 from this begins to destroy the material of the medium. At the same time, during the movement of the striker 13, the barrel 12 experiences the reaction force of compressed air, which is directed upwards and compresses the spring 22.

At the same time, an increase in the force at the tool's contact — the medium to be destroyed (by increasing the strength of the material being destroyed or by pressing on the machine body) causes a large compression of the spring 26 (the second elastic element), after which the mechanical rod experiences an effort from the tool end. thus, the regulating effect on the trigger mechanism, as a result of which it opens more, feeding a large amount of energy to the impact mechanism. This leads to the fact that the instrument strikes large energy and frequency. Conversely, a decrease in the force at the tool – destructible environment causes a decrease in the deformation of the second elastic element (spring 26), the reverse displacement of the pusher and the cover of the valve plate 5 of the trigger mechanism. This causes a decrease in the supply of energy to the impact mechanism, a decrease in energy and frequency of strikes on the tool.

As a result, the magnitude of the voltage pulses reflected from the wake is automatically stabilized at a constant and predetermined level, which contributes to an increase in efficiency, which is caused by an increase in the productivity and reliability of the machine as a whole. In addition, in this construction, idle strikes of the striker on the tool are eliminated when the latter is not pressed with their blades to the material to be destroyed, which also increases the reliability of the machine.

Claims (1)

Invention Formula A percussion machine, comprising a housing, a barrel springed in relation to the barrel, a hammer placed in the barrel and an air distribution mechanism to provide reciprocating movement of the hammer, a compressed air supply nozzle and a trigger mechanism including a valve with a valve that is located in the feed channel of the air distribution mechanism, Shaving tool, different with that. what. In order to increase efficiency by adjusting the shock power depending on the force of pressing the tool against the material being destroyed, the trigger valve of the trigger mechanism is installed with the ability to interact with the end face of the shank of the rock-breaking tool, while the latter is spring-loaded relative to the body and placed coaxially relative to the barrel.