SU1116159A1 - Gas-dynamic chuck - Google Patents

Abstract

GAS DYNAMIC CARTRIDGE, which includes a housing with a working and auxiliary chambers, separated by a spring-loaded slide valve with a check valve, an exhaust port, filled into the housing and blocked by a cut-off strip, characterized by a tape mechanism made in the form of a rotating drum installed in the spool with a wound cutting strip and a pneumatic cylinder with a spring loaded A piston with a rod on which a grapple is engaged, which is engaged with the strip, while in the spool there is a channel connecting the piston chamber of the cylinder with the working chamber and the through groove connecting the auxiliary chamber with the exhaust hole and overlapping the cutting strip.

Description

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Co 12 The invention relates to mining, namely to the means of destroying coal and rocks, and can be used in the construction and other industries. Flameless blasting agents are known to destroy coal and rocks LIT. The closest to the proposed technical essence and the achieved result is a gas-dynamic cartridge, including a housing with working and auxiliary chambers, separated by a spring-loaded nickle with a check valve, an exhaust hole made on the housing and blocked by a shearing strip 2 However, this cartridge does not have an automatic sealing working chamber for the production of the subsequent cycle. The purpose of the invention is to increase the productivity of operation of the cartridge by automatically re-discharging the cutting strip. To achieve this goal, the well-known gas-dynamic cartridge, which includes a housing with working and auxiliary chambers, separated by a spring-loaded slide valve with check valve, an exhaust hole made on the housing and covered with a shearing strip, is fitted with a tape-mounted mechanism made in the form of a rotating drum mounted on the spool and wound a cutting strip and a pneumatic cylinder with a spring-loaded piston with a rod, on which the grapple is attached, which is engaged with the strip, while in the spool A channel is connected between the cylinder's overpiston cavity and the working chamber, and a through groove connecting the auxiliary chamber with the exhaust opening and blocked by a cutting strip. In FIG. 1 shows the proposed cartridge, a longitudinal section; FIG. 2 shows section A-A in FIG. 1. The device contains a working chamber 1, an auxiliary chamber 2, a spool 3, pressed to the saddle 4 by a spring 5 and closing the exhaust ports 6. The working chamber 1 is connected to the auxiliary chamber 2 by a canapo 7 with a check valve 8. The auxiliary chamber 2 is connected to the atmosphere through grooves 9 and 10. 592 In the spool is placed a shearing strip in the form of a tape I1 wound on the drum 12. The tape 11 is passed between the cutting seats 13 and preloaded by the spring 14. Thus, the auxiliary and working chambers are pre-sealed. In the spool 3 is also placed a tape mechanism, driven by the working fluid. The tape mechanism includes, apart from the drum, a cylinder 15, a piston 16, a grapple 17 and a spring 18. The cylinder 15 communicates with the working chamber 1 by channel 19. In the working position the grapple 17 is in engagement with the tape 1 moving along the guide 20. Ventil 21 serves to fill the working chamber of the device from the network 22.. The device operates as follows. When the valve 21 is opened, the working fluid enters the working chamber 1 and further into the channel 7. At a given resistance of the check valve 8, the working fluid first of all passes through the channel 19 to the cylinder 15. Under the action of the working fluid, the piston 16 moves with the grapple 17, pulling the tape I1 on a given step. In this case, the previously broken through section of the tape is replaced by its continuous section, thereby sealing the cavity of the auxiliary 2 and working 1 chambers. Thus, the device is prepared for the next trigger cycle. As the pressure in channel 7 increases, valve 8 opens and the working fluid enters the auxiliary chamber. 2 and further through the grooves 9 to the mouth of the grooves 10, covered with tape I1. The thickness, type of material of the strip and the diameter of the hole to be crossed by the strip determine the pressure at which it is cut. In this case, the working fluid from the auxiliary kayer expires through the grooves 9 and 10 and the exhaust ports 6 into the atmosphere. In connection with the created pressure differential between the auxiliary and working chambers, the spool moves, depressing the spring 5, and opens the exhaust opening 6. The working body also flows out of the working chamber and impulses the massif. After the device trips, the valve 21 is closed.

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Spring 5 brings the spool to its original position. The working fluid filling the cylinder 15 flows into the working chamber 1, and the spring 18 returns the piston 16 to its initial position. In this case, the grapple 17 draws the belt and prepares the device for the next actuation cycle.

In this device, solid or liquid chemicals, such as hydroxyl charges or cardox charges, can also be used as a working medium, resulting in their initiation of high-pressure gaseous products. In this case, the substance is placed directly in the working chamber 1, and its

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the initiation is carried out by applying a pulse of electric current through wires passed through the opening for the fitting of the valve 2I.

The cutting of coal and rocks is carried out by wells drilled parallel to the bottom of the chest by moving the device through the said well after each blasting cycle. In this case, the recharge of the device is carried out automatically by switching the valve 21 without removing the cartridge from the well.

Compared with the known cartridges with shearing nonocoii, this device allows several times to improve the performance, breaking.

Claims (1)

GAS-DYNAMIC CARTRIDGE, comprising a housing with a working and auxiliary chambers separated by a spring-loaded spool with a non-return valve, an exhaust hole made in the housing and covered by a cutting strip, characterized in that, in order to increase the performance of the cartridge by automatically recharging the cutting strip, the cartridge equipped with a tape drive mechanism made in the form of a rotating drum installed in the spool with a wound cutting strip and a pneumatic cylinder with a spring-loaded pore a screw with a rod, on which a grab is engaged, which is engaged with the strip, while in the spool there is a channel connecting the over-piston cavity of the cylinder with a working chamber, and a through groove connecting the auxiliary chamber with the exhaust hole and blocked by a cutting strip. FIG. 1