SU1263833A1 - Pneumohydraulic percussive device - Google Patents

Abstract

I. A PNEUMOGIDRAULIC SHOCK DEVICE, including a housing with a pneumatic chamber with a firing pin with a piston, a channel for communication of the piston and rod, the pneumatic chamber, a check valve and a platoon hydraulic cylinder having a piston rod, a cylinder and a working piston, I can tell the fact that, in order to reduce metal consumption, the firing pin is made with a boring, and the cylinder with channels along its outer surface forming part for the passage of energy carrier, is rigidly connected with the working piston and is placed with the possibility of axial movement Bore in the bore, at the same time, the piston rod. n hydraulic cylinder platoon rigidly St. en with the body. (/)

Description

2, the device according to claim 1, such that the valve is housed in a housing about a thermal chamber to communicate its half with a cannon connecting the piston pneumatic and rod cavities. 1263833

The invention relates to the mining industry, namely to impact devices for breaking rocks and man-made materials. The purpose of the invention is to reduce the metal consumption of the device. FIG. 1 is a schematic diagram of the device; in fig. 2 section A-A in FIG. one . Pneumo-hydraulic shock device includes a housing 1, in the pneumatic chamber 2 of which the firing pin 3 with piston 4 is located, and the platoon hydraulic cylinder 5. The ram 3 is made with a bore, and the platoon hydraulic cylinder 5 is made with channels j5 along its outer surface for the passage of energy carrier, rigidly connected to the working piston 7 and placed with the possibility of axial movement in the bore of the striker 3. The piston 8 of the hydraulic cylinder of the platoon 5 has a piston and is rigidly connected with the housing 1. In the housing 1 there is a non-return valve 9, the orifice 10 is made and 11 and 12. Stem 8 is made with channels 13 and 14 connected to the hydraulic distributor 15. The pneumatic-hydraulic shock device operates as follows. The shock device is only operational when a certain static preload and movement of the bout 3 is in place until the windows P. Bollard 3 are opened and the platoon hydraulic cylinder 5 is in the initial position, as shown in the drawing. The working fluid enters through the valve 15 and the channel 13 into the rod rod, chamber, and the hydraulic cylinder of the platoon 5 with the piston 7 rises upwards. In the gas interlayer between the internal cavity of the striker and the cylinder, the pressure drops with increasing volume. The gas in the pneumatic chamber 2, through the windows 11, enters the rod end, acts on the piston A of the hammer 3 and lifts it. The ascent is carried out until the cylinder stops at housing 1 and does not open windows 12. Thereafter, gas flows into the space between the pistons of the cylinder of the platoon hydraulic cylinder 5 and the striker 3, resulting in the striker 3 making a working stroke. Gas from under the piston 4 expires through the windows II into the chamber 2, Therefore, the piston 4 in the course of the working stroke experiences a slight resistance. In the case when the striker 3 does not encounter an obstacle, it continues the accelerated downward movement until the piston 4 closes its side surface of the window 11 with its side. After this, the damping stroke starts, which is accomplished by compressing the gas under the piston 4 and throttling the gas through throttle openings 10. Dp of lowering the cylinder of the platoon hydraulic cylinder 5, the direction of the working fluid by the distributor 15 is reversed. The fluid enters through the channel 14 into the piston cavity of the hydraulic cylinder of the platoon 5 and its cylinder moves downwards. The gas in the space between the pistons of the hydraulic cylinder of the platoon 5 and the striker 3 in the cavity of the striker 3, when compressed, flows through the channels 6 and through the check valve 9 into the chamber 2. Then, the working splitter is repeated.

Claims (2)

00 00 00 00> chamber for communication of its cavity with a channel connecting the piston and rod cavities. 1. PNEUMAHYDRAULIC SHOCK DEVICE, which includes a housing, in the pneumatic chamber of which there is a striker with a piston, a channel for communicating the piston and rod strips, the pneumatic chamber, a non-return valve and a platoon hydraulic cylinder having a piston rod, a cylinder and a working piston, distinguish further, in order to reduce the metal consumption, the firing pin is made with a bore, and the cylinder has channels along its outer surface forming an energy carrier, is rigidly connected to the working piston and placed with the possibility of axial movement in the point of the striker, thus, the piston rod _{of the} pis- nya cocking cylinder svya- ® rigidly coupled to the housing. l o od 2. The device according to π. 1, the fact that the check valve is placed in the pneumatic casing of the platoon cylinder 5 with the piston 7 rises up. In the gas layer between the internal cavity of the striker and the cylinder, the pressure decreases. The gas located in the pneumatic chamber 2, through the windows 11 enters the rod cavity, acts on the piston 4 of the striker 3 and raises it. The lifting is carried out until the cylinder rests against the housing 1 and opens the windows 12. After that, gas enters the space between the pistons of the cylinder of the platen cylinder 5 and the hammer 3, as a result of which the hammer 3 makes a working stroke. Gas. From under the piston 4 flows out through the windows I 1 into the chamber 2, Therefore, the piston 4 during the stroke has a slight resistance. In the case when the firing pin 3 does not encounter obstacles, it continues accelerated downward movement until the piston 4 overlaps with its lateral surface of the window 11. After this, the depreciation stroke begins, which is carried out by compressing the gas under the piston 4 and throttling the gas through the throttle holes 10. To lower the cylinder of the hydraulic cylinder 30 of the platoon 5, the direction of the working fluid by the distributor 15 changes inverse. Fluid _enters through the channel 14 in the cocking piston chamber of the hydraulic cylinder 5 and cylinder ₃₅ forcibly relocated downward ne. The gas located in the space between the pistons of the platoon hydraulic cylinder 5 and the striker 3 in the cavity of the striker 3, when compressed, flows through channels 6 and through the return valve _; 4Q _; pan 9 into chamber 2. Then the work \ cycle is repeated.