SU299648A1 - MULTI-CHAMBER PNEUMATIC SOFTWARE! 1АТ? НТя * Т? Хг: ;; ^^ ЕгкА LIBRARY - Google Patents

Description

The invention relates to the field of mining machines and can be used in submersible and external hammer drills for drilling rocks of different strengths.

Known multi-chamber hammers, including the body, drummer and sleeves.

The described multi-chamber pneumatic hammer is characterized in that it is equipped with partitions installed between the body and the sleeves so that the cross section of the supply cavities decreases and the exhaust cavities increase, and the partitions are made of elastic material.

This embodiment allows to increase the shock power of the hammer.

Pa figs. 1 shows the proposed hammer with a drummer in the lower position; in fig. 2 - the same, with a drummer in the upper position; in fig. 3 is a schematic scan of the supply and exhaust cavities with the location of an elastic sealing partition. In all the drawings, the solid arrows indicate the direction of movement of the fresh energy carrier into the working chambers, and the dotted arrows indicate the direction of movement of the spent energy carrier. Pa figs. / (cross section along B - B) with a wavy line and dots (cross section along A-A) is indicated, respectively, of the line and fracture surface of intermediate split boxes.

An air hammer consists of body 1, in which the top 2 and bottom 3 axles are screwed. A multi-piston drummer 4 is located in the housing, which moves in the bushings and sleeves 5. The ends of the sleeves abut against the landing grooves of the bushings, with intermediate detachable axle boxes G being placed between the sleeves.

The sleeves are kept from turning relative to the sleeves 6 and 2 with their projections or special retainers.

The exact alignment of the installation of the sleeves 5 and the axle boxes 6 is achieved by the fact that they are centered only on the cylindrical surfaces of the strikers 4. In the annular space between the barrel of the sleeves there is an elastic sealing wall 7, which is fixed in detachable bushings 6, in the slots 8 and special samples 9 , made in the upper box 2. In the lower box 3 is installed working tool (anvil) 10.

Hammer works as follows. The energy from the main through the groove 11, the cavities 12, 13 and the window 14 enters the reversing chambers 15 (see section L - A. At the same time, the spent energy from the chambers 16 is forward through the exhaust windows 17, cavities 18, sampling 19 and kay wells). Under the action of pressure in the reverse gear chambers 15, the impactor 4 begins to move upwards. When moving upward, the impactor surfaces the exhaust overlaps the exhaust windows 17 from the side of the chambers 16 for forward travel and opens them from the reversing chambers 15 side, the exhaust from the chamber 16 stops and the exhaust from the chambers 15 begins. In turn, the upper edge of the hammer shaft blocks the groove 11 and its windows 22 are aligned with the groove 23.

The flow of energy into the return chamber 15 is stopped and through channel 24 of the hammer rod, its windows 22, groove 23, cavity 25, 26 and windows 27, the energy carrier starts to flow forward in the chambers 16. Under the action of pressure in the chambers 16 of the forward stroke, the impactor is braked and then begins to move down. Before the end of the forward stroke, the exhaust ports 17 on the side of the reverse gear chambers are perforated by the surfaces of the piston pistons and open on the side of the forward stroke chambers, the exhaust from the chambers 15 will stop and the exhaust from the chambers 16 will begin. The groove 11, due to this, the flow of energy into the chambers 16 of the forward stroke will stop and the flow of energy into the chambers 15 of the reverse stroke will begin, the drummer will strike the tool 10, the cycle will be repeated.

With a large exit of the tool 10 from the axle box 3, the striker moves forward to the unor to the axle box 3, its windows 22 are connected to the first chamber 16 of the forward stroke, from where the energy carrier, through the cavities 26 and window 27, will flow into all the cameras 16 of the forward stroke, unhindered by the action of which the hammer is braked and the reverse motion of the hammer will not occur, i.e. the hammer is blocked.

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Subject invention

Claims (2)

1. Multi-chamber pneumatic impact, including a body, a hammer, and sleeves, characterized in that in order to increase the impact power, it is equipped with partitions installed between the body and sleeves in such a way that the cross section of the supply cavities decreases and the exhaust cavities increase. 2. The multi-chamber pneumatic impact hammer of claim 1, wherein the partitions are made of an elastic material.