SU1102927A1 - Percussion action device - Google Patents

Abstract

SHOCKING DEVICE, including a housing with an accumulating cavity, a bushing piston and a differential valve forming a control cavity with the housing, a pressure and drain lines, in order to reduce the weight and diameter of the device, the differential valve is made with a rod, spring-loaded relative to the housing and . placed therein with the possibility of interaction of the rod with the accumulating cavity and the piston brisk, with the control cavities of the differential piston being permanently connected to the pressure line.

Description

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The invention relates to the mining industry, namely to impact devices. A percussion device is known that includes a housing with an accumulating cavity, a bushing piston and a valve 1. The disadvantage of this mechanism is a decrease in efficiency due to the energy expended in moving the valve. The closest to the invention is a percussion device, comprising a housing with an accumulating cavity, a piston brisk and a differential valve forming a control cavity with the housing, a pressure and drain lines 2. However, the concentric arrangement of the pressure plate and the differential valve increases the diameter of the device, which limits the area its application. The purpose of the proposal is to reduce the weight and diameter of the device. The goal is achieved by the fact that in the percussion device, which includes a housing with an accumulating cavity, a piston brisk and forming a differential valve with a control cavity, a pressure and drain lines, the differential valve is made with a stem, is spring-loaded relative to the housing and accommodated in it. with the accumulating cavity and the bristle piston, the control cavities of the differential pressure are constantly connected with the pressure line. The drawing shows the proposed device, the cut. The percussion device consists of a housing 1 with an accumulating cavity 2, a piston brisk 3 and a differential valve 4. Differential valve 4 forms control cavities 5 and 6 with housing 1, which are interconnected through an orifice 7. The differential valve is made with a brush 8 , spring-loaded against the housing 1 by a spring 9 and p-placed therein with the possibility of interaction of the rod with the accumulating cavity 2 and the piston-striker 3, the control cavity 5 is permanently connected to the pressure line 10. The cavity 11 is permanently connected with a drain line 12. The device operates as follows. The working fluid from the pressure line is fed into the piston cavity of the striker and the control cavity 5. Differentiation, valve 4 is pressed to the saddle by spring 9 and the pressure force generated due to the difference in valve areas from the cavity 5 and 6. Piston-head 3 moves, compressing gas in accumulating cavity 2. At the beginning of movement, the force-force 3 acts on the valve through the brush 8 from the side of accumulating cavity 2 less than the force of spring 9. In the process of moving pores n-block 2, the pressure in the pneumatic accumulator increases, and the force acting on the brush 8 becomes greater than the force of the springs 9. However, the valve does not open because the valve area on the side of cavity 6 is greater than from the cavity 5, therefore the valve is held by force fluid pressure. At the end of the stroke of the piston-hammer 3, acts on the rod 8 of the valve 4 and opens it slightly. In this case, the pressure line 10 through cavities 5 and 11 is connected to the drain line 12. Thereafter, the pressure in cavities 5 and 6 drops, the hydraulic forces do not act on the valve and it opens under the action of the accumulating cavity 2. The pressure of the fluid in the piston rod rod The striker 3 is lowered and the piston head 3 is accelerated to the right under the action of the pressure forces of the compressed gas in the accumulating cavity 2. When the piston-blockage accelerates, the volume of the accumulating chamber increases, and the gas pressure decreases and the force holding the valve in the open position decreases to less than the force of the spring 9, therefore it is pressed to the seat by the action of the spring 9, the discharge line 10 from the drain 12 The cycle of operation is then repeated. The proposed design solution allows to reduce the diameter of the device, which expands its scope.

Claims (1)

SHOCK ACTION DEVICE, including a housing with an accumulating cavity, a piston-striker and forming a differential valve with a control cavity, a pressure and drain line, characterized in that, in order to reduce the weight and diameter of the device, the differential valve is made with a stem, is spring loaded relative to the housing and placed in it with the possibility of interaction of the rod with the accumulating cavity and the piston-striker, and the control cavity of the differential piston is constantly in communication with the pressure line. ft