SU1411378A1 - Hydraulic pile hammer - Google Patents

Abstract

The invention relates to the construction, in particular to hydraulic hammers, and makes it possible to increase the reliability of work. The pile hammer includes a housing 1 with a gas-hydroaccumulator 2 and a hydraulic cylinder. The battery 2 has a hollow separating piston 3 with a valve formed by a membrane with a rigid center 8 installed in the cavity of the piston 3, the seat under which is formed in the ledge formed in the lower part of the piston 3. The membrane and the upper walls of the piston cavity 3

Description

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the nadmembrane cavity is in communication with the gas chamber of the battery. Case 1 is made with a saddle | Under the protrusion of the piston 3, which is seated in the saddle with the formation between them of the cavity 9, constantly connected with the discharge line 10 and

periodically with gi.hchost yu hydrocylmndra. The OTFfomcHHe area of the rigid center 8 of the membrane on the side of the gas cavity to its area on the side of the liquid cavity is less than the ratio of the area of the piston 3 to the area of its protrusion. 1 il.

one

The invention relates to the construction and can be used to compact and immerse in the ground various structural elements, mainly piles.

The purpose of the invention is to increase the reliability of work.

The drawing shows the hydraulic hammer in the initial position, a general view.

The pile hammer includes a shock case 1, inside which is placed a gas-hydraulics-accumulator 2 with a separating piston 3, a hydraulic cylinder with a piston-hammer 4. Inside the hydraulic cylinder, the spool 5 is mounted in the form of a sleeve that covers a piston-drummer with windows 6 and 7. In The cavity of the separating piston 3 has a membrane with a rigid center 8, and the separating piston 3 is made with a protrusion in its lower part, in which a saddle is formed under the rigid center of the membrane. The housing 1 is made with a saddle under the lug of the piston 3, which is seated in the saddle of the housing 1 with the formation of a cavity 9 between them, communicated permanently with the discharge line 10, and periodically with the hydraulic cylinder cavity and with the submembrane cavity of the separation piston 3, where its supermembrane cavity communicates with the gas chamber of the gas hydroaccumulator 2. The cylindrical cavity 11 of the hydraulic cylinder, in which the valve 5 is located, is connected via channel 12 and channel 13 with a check valve 14 to the cavity 15 of the hydraulic cylinder 5 which in turn is channel 15 ne iodicheski can communicate with the cavity 9. In this area ratio "of the membrane 8 with the center of a tight, gas side

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the cavity to its area on the liquid side is smaller than the ratio of the area of the piston 3 to the area of its protrusion.

Hydraulic hammer works as follows.

In the gas chamber of the gas-hydroaccumulator 2, gas is pre-pumped to a certain pressure.

The working fluid from the pump is supplied through the discharge line Yu to the cavity 9 formed by the projection of the piston 3 and the saddle under the projection, in which the pressure rises until the force on the center 8 of the diaphragm from the bottom exceeds the force on it from above. Then the working fluid fills the submembrane cavity of the piston 3. Due to the fact that the ratio of the area of the rigid center 8 of the membrane from the gas cavity to its area from the liquid cavity is less than the ratio of the area of the piston to the area of its protrusion, the membrane starts to move up before the piston 3. When the pressure is reached the working fluid in the cavity 9, sufficient to lift the piston 3, the latter rises. When this occurs, a vacuum occurs in the hydraulic cylinder and in the channel 12, which is transmitted to the cavity 11 of the hydraulic cylinder, which ensures that the spool 5 is retracted and lowered if it takes the upper position in the previous work cycles (the lower position of the spool is shown).

When the protrusion of the piston 3 leaves the seat of the housing 1, the working fluid through the channel 16, the cavity 15, the valve 14 and the channel 13 enters the cavity 17 of the hydraulic cylinder. In this case, the stock is 514

The bridge 11 through the window 7 is connected to the drain. The supply of working fluid in the sub-membrane cavity and its pressure ensure the full stroke of the impact piston A, which makes it possible to accelerate the impact part and make the first jump. As a result of the contact of the piston-impactor 4 with the pile (or other surface), the pressure in the cavity 15 dramatically increases. When the shock body 1 is moved relative to the impact piston 4, the latter closes the drain window 7 in the spool 5 at the end of the stroke. The drain from the rod cavity 11 will overlap and the impact piston 4 moves in place with the housing 1 upwards. The overlap by the piston-hammer 4 of the drain port 7 in the cavity 11 causes a sharp increase in pressure in it and the valve 5 is thrown into the upper position and connects the cavity 11 through the channel 12 to the cavity 9, and the cavity 17 to the drain. The piston-hammer 4 moves upwards relative to the body 1 of the striking part until it closes the drain port 6 in the spool 5. The drain from the cavity 17 stops and the piston-hammer 4 stops.

Moving the piston of the impact hammer 4 up occurs during the flight of the body 1 of the striking part, therefore, when the latter strikes the fixed workpiece. there is a sharp increase in pressure in the cavity 17, reversing the spool 5 to the lower position and repeating the described cycle.

113784

Such a hydraulically operated hydraulic hammer increases its reliability, facilitates start-up, and eliminates short-circuit design short-circuit designs — to move SOJIOTHMK to the lower position.

Formula and 3 optin

Hydrohammer pile hammer, sssgrzhatsky case, inside of which are placed the gas-hydraulic accumulator tor with pasdelitalyy. a piston fitted with a valve, a hydraulic cylinder with a piston-hammer, sshut- iik in the form of a groove.-holding piston-a drummer sleeve installed with the possibility of moving, the discharge and drain line, to increase the reliability of operation, the separating piston is complete with a protrusion in the bottom the parts, and the body, with a saddle to accommodate the protrusion of the piston with the formation of a cavity between them, communicated continuously with the supercharger and from the main line and periodically with the cavity of the hydraulic cylinder, and the separator valve

his piston is formed by mouth ;; the ovine in its cavity: a membrane with a hystere center, a saddle under which is formed in the protrusion of the protrusion, with the ratio of the area of the rigid center of the membrane on the side of the gas cavity to its area on the side of the liquid cholost less than the ratio of rod, di; .. in to the area of his protrusion

Claims (1)

Pile hydrohammer, containing a housing, inside of which there is a gas-accumulator with a separation. . a piston equipped with a valve, a hydraulic cylinder with a piston-drummer, a spool in the form of a sleeve that covers the piston and a sleeve installed with the possibility of movement, a discharge and drain line, which consists in that, in order to increase the reliability of operation, the separation piston is made with a protrusion in the lower part, and the body with a saddle - to accommodate the piston protrusion with- - by spreading a cavity between them, which is constantly in communication with the discharge line and periodically with the hydraulic cylinder cavity, and the separator piston valve θ is formed by a membrane with a rigid center installed in its cavity, a seat under which is formed in the piston protrusion, while the ratio of the area of the rigid center of the membrane from the side of the gas cavity to its' 5th area from the side of the liquid cavity, the ratio is plock, u <b. • shnya to the area of its protrusion--