RU2293169C1 - Pneumatic hammer - Google Patents

Abstract

FIELD: fluid operated hammers, particularly used for well drilling in construction and mining industries.

SUBSTANCE: pneumatic hammer comprises piston, which defines working and idle stroke chambers. Air-distribution system member cooperating with channels, which connect working stroke chamber with working fluid source and with atmosphere, is made as valve with separate shutoff tools. The air-distribution system member is arranged in piston pipe located from working stroke chamber side. Channel, which connects working stroke chamber with working fluid source, is made in body. Channel, which communicates above chamber with atmosphere, is made in piston. Valve, which connects idle stroke chamber with working fluid chamber, is arranged in piston pipe and in piston.

EFFECT: improved technological efficiency of air-distribution system arrangement due to decreased number of mating side surfaces of device components.

2 cl, 1 dwg

Description

The inventive device relates to pneumatic percussion machines, which can be used for drilling wells and rock destruction by percussion in the mining and construction industries.

Known hammer, containing a housing in which a cylinder is placed with a gap, the cavity of which is divided by a piston into the working and idle chambers, an axle box for the tool shank, an air distribution system consisting of channels connecting the working and idle chambers to the working medium source, and openings for communication between the working and idle chambers with the atmosphere on the side walls of the cylinder, an element in the form of a flap valve installed in the housing from the side of the working chamber with the possibility of opening a channel a connecting the working chamber to the source of the working medium, and blocking the channel connecting the idling chamber to the working medium when the piston is working, and vice versa when the piston is idling due to the corresponding alternate piston overlapping of the openings for the working and idling chambers to communicate with the atmosphere ("Handbook of an engineer for drilling exploration wells." Under the general editorship of EA Kozlovsky, vol. 1, pp. 408-410, M .: Nedra, 1984).

The disadvantage of this hammer can be considered relatively complex design due to the presence of the cylinder.

The closest to the claimed one can be considered a hammer containing a housing located in the last piston, which divides the body cavity into working and idle chambers, an axle box under the tool shank, an air distribution system configured to connect the working chamber to the source of the working medium and the idle chamber stroke with the atmosphere in the initial part of the piston stroke, and the connection of the stroke chamber with the atmosphere and the idle chamber with the source of the working medium in the final part of the working yes the piston, and vice versa, when the piston idle, consisting of channels for the corresponding connection of the working and idle chambers with the source of the working medium and the atmosphere, an element interacting with the channel connecting the idle chamber with the atmosphere, and an element interacting with the channels, connecting the working chamber with the working medium source and the atmosphere, as well as the idling chamber with the working medium source, made in the form of a gas distribution tube with a rod and windows on the side surface, one end on the housing and the other end located in the piston cavity, while the channels connecting the working and idle chambers to the source of the working medium are in the gas distribution pipe and in the piston, and the channel connecting the working chamber to the atmosphere is located in the piston (Auth. testimonial. USSR No. 1798465, Е 21 В 4/14, Е 21 С 3/24, publ. 02/28/93. Bull. No. 8).

The disadvantages of this device include increased requirements for the accuracy of manufacture and installation of the gas distribution pipe due to the presence of several mating side surfaces in the housing and in the piston.

The technical solution is based on the task of creating a simple pneumatic hammer with a technologically advanced air distribution system.

The problem is solved in the inventive hammer, which, as well as known, contains a housing located in the last piston, which divides the body cavity into the working and idle chambers, an axle box under the tool shank, an air distribution system configured to connect the working chamber to the source the working medium and the idle chamber with the atmosphere in the initial part of the piston stroke, and the connection of the working chamber with the atmosphere and the idle chamber with the source of the working medium in the horse of the working part of the piston stroke, and vice versa, when the piston idle, consisting of channels for the corresponding connection of the working and idle chambers with the source of the working medium and the atmosphere, an element interacting with the channel connecting the idle chamber to the atmosphere and an element interacting with channels connecting the working chamber to the source of the working medium and the atmosphere, as well as the idling chamber to the working medium source. In contrast to the element known in the inventive hammer, the element interacting with the channels connecting the working chamber to the source of the working medium and the atmosphere, as well as the idling chamber with the working medium source, is made in the form of a valve with separate locking elements and is placed on the piston nozzle, which is located on the side of the working chamber, the channel connecting the working chamber to the source of the working medium is made in the housing, the channel connecting this chamber to the atmosphere is located in the piston, and the channel s idling chamber with a source of working fluid is in the pipe and the piston in the piston. When performing a hammer in a particular case, holes can be made on the lateral surface of the piston nozzle that connect the working chamber to the source of the working medium with the tool shank extended.

The drawing schematically depicts the inventive hammer. The pneumatic hammer comprises a housing 1 with a piston 2 located therein, which divides the cavity of the housing 1 into a working chamber 3 and an idle chamber 4, an axle box 5 under the shank of the working tool 6. From the side of the working chamber 3, a piston nozzle 7 is located on the piston 2. Element in the form of a valve 8 with separate locking elements 9, 10 and 11 is placed on the nozzle of the piston 7. The valve 8 has openings 12 for connecting the idling chamber 4 to the source of the working medium when the locking element 9 opens the channel 13, which is located in the nozzle of the piston 7 and in the piston 2. The locking element 10 interacts with the channel 14 connecting the working chamber 3 to the source of the working medium and is made in the housing 1, and the locking body 11 interacts with the channel 15, which connects the working chamber 3 with the atmosphere and is located in the piston 2 On the lateral surface of the piston nozzle 7 there are openings 16 that connect the working chamber 3 to the source of the working medium when the tool shank 6 is extended. Another element of the air distribution system is the piston 2, which interacts with approx. Mr. 17 channel 18, through which the idling chamber 4 is connected with the atmosphere.

The hammer works as follows.

In the "purge" mode, when the shank of the working tool 6 is extended, the piston 2 is in the extreme position. The chamber of the working stroke 3 has a maximum volume, and the idle chamber 4 is the minimum, while the window 17 and the channel 14 are closed by the piston 2 and the locking element 10, respectively. Channels 13, 15 and openings 16 are open. The working medium from the source enters through openings 12, channel 13 into the open circuit chamber 4 and through openings 16 into the working chamber 3, then through channel 15 into the atmosphere. The piston 2 retains its position. To enter the operating mode, the shank of the working tool 6 is shifted together with the piston 2 towards the valve 8, which maintains its position due to the dynamic pressure of the working medium. The holes 16 are closed by the valve 8. When the working chamber 3 is connected to the atmosphere through the channel 15, the working medium through the channel 13 creates pressure in the idle chamber 4, which acts on the end face of the piston 2 and moves it towards the working chamber 3 until the channel 13 interacts simultaneously with a locking member 9, channel 15 with a locking member 11 and opening the channel 14 with a locking member 10, and a window 17 with a piston 2. The working medium 3 enters the working chamber under pressure through channel 14, the idling chamber 4 is connected to the atmosphere through channel 18. There is a force acting on the end face of the piston 2 from the side of the stroke chamber 3. First, due to the inertia force, the piston 2 continues to move, then stops and moves in the opposite direction. In this case, first the valve 8, and then the piston 2 takes its initial position, striking the shank of the working tool 6. Next, the cycle repeats.

Thus it can be seen that the inventive hammer, having a similar operating principle with the known one, contains a more technologically advanced air distribution system with a fairly simple design.

Claims (2)

1. An air hammer comprising a housing located in the last piston that divides the housing cavity into working and idling chambers, an axle box under the tool shank, an air distribution system configured to connect the working chamber to the source of the working medium and the idling chamber to the atmosphere in the initial part of the piston stroke and the connection of the stroke chamber with the atmosphere and the idle chamber with the source of the working medium in the final part of the piston stroke and vice versa with the piston idle I, consisting of channels for the corresponding connection of the working and idling chambers with the source of the working medium and the atmosphere, an element interacting with the channel connecting the idle chamber with the atmosphere, and an element interacting with the channels connecting the working chamber with the source of the working medium and with the atmosphere, as well as an idle chamber with a working medium source, characterized in that the element interacting with the channels connecting the working chamber with the working medium source and the atmosphere, and amer of idling with a source of the working medium, made in the form of a valve with separate locking elements and placed on the piston nozzle, which is located on the side of the working chamber, while the channel connecting the working chamber to the working medium source is made in the housing, the channel connecting this chamber with the atmosphere is located in the piston, and the channel connecting the idle chamber to the source of the working medium is located in the piston nozzle and in the piston. 2. The hammer according to claim 1, characterized in that on the side surface of the piston nozzle there are holes that connect the working stroke chamber to the working medium source with the working tool shaft extended.