SU1079753A1 - Tamper for compacting pits - Google Patents

Abstract

RAMBER FOR CUTTING STRAINING, containing a hollow body, supported on a motor, rigidly connected to the booty bar, placed into the body cavity, usanized & concentric with a shngan tfflepilkoHHbie mass, connected by flexible connections of the MI, the carriage, the carriage and the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device, the device and the device, the device, the device, the device, the device and the device, the device and the device and the device and the device and the device and the device, the device and the device, the device and the device, the device and the device and the device and the device and the device and the device can get the device. In order to reduce the material consumption, the forward inertial mass is made in the form of a sleeve and rigidly connected to the shell, and the bottom is made in the form of an anvil and rigidly connected to the bottom. l about h | : about KJ: l

Description

11 The image refers to the construction site and can be used in the construction of punching pits in the ground for the foundations of buildings and structures. A well-known tamper for punching pits, mounted on a base machine, includes a guide rod and a single-mass tamper with a vertical through channel, an air outlet, a gripping device, and grooves for directional movement l. The disadvantage of such a tamper is the value of the coefficient of relative penetration, which is the ratio of the tamping immersion value for one stroke to the tamping mass. A tamper for punching is a cat; a catcher, containing a hollow body, freely supported on the bottom, rigidly connected to a hollow shaft, placed in the cavity of the body, inertial masses mounted in a concentric bar, in conjunction with flexible connections, a carriage and a gripper device L2. The disadvantage of such a tamper is the increased consumption of materials. This is due to the fact that the weight of the tamping body makes up 45% of the total tamping mass and consumes half of the MECHANITIES of the lifting machine of the base machine, i.e. for the other two masses, only 55% of the total tamping mass remains. However, in order for a tamper containing several masses in the form of a table ba, to work as a multi-mass, it is necessary to maintain the condition of vazrastani subsequent masses when designing, which led to the second and third mass, and, ultimately, the material intensity of the tamper increases dramatically. The purpose of the invention is to reduce the mater capacity of the rammer. This goal is achieved by the fact that, in a tamper for punching, a coyuvaniv containing a hollow body, freely supported on the bottom, rigidly connected to the bottom of the rod, is placed in the body cavity, mounted concentrically with the rod, inertial masses connected by flexible links, the carriage and the gripping device The central inertial mass is made in the form of a sleeve and is rigidly connected to the housing, and the bottom is made in the form of an anvil and is rigidly connected to the bottom. FIG. 1 shows a tamper before lifting, in FIG. 2 - the same in the lifting process, in FIG. 3 shows section A-A in FIG. 2. The tamper includes a hollow body 1, freely supported on the bottom 2 with a shell 3. In the cavity of the housing 1, a rod 4 is installed along the axis of symmetry to remove air from the die forged, which is rigidly connected to the bottom 2. On the bottom of the bottom hinge movable sleeve 5, which encloses hollow rod 4. In body of bottom 2, anvil 6 is placed, with which sleeve 5 interacts, Case 1 is installed with a gap 7 relative to shell 3, the shell being absorbed by case 1 and entering into its internal cavity 8, Sleeve 5 is connected housing 1 stiffeners 9, in which there are loops 1D. On the rod 4, an inertia mass 11 is mounted with movable bolts 12, which is distributed over the boom 5. The ribs 9 are connected to the inertial mass 11 by means of flexible connections - suspensions 13, which are attached to the loops by 10 movable bolts 12. On an inertial mass 11 the tubular stand 14 is fixed, the female rod 4 and the upper part of the gripping device 15, to which the traction cable 16 is attached, the housing 1 is overlapped with a removable cover 17 with an opening 18 for the passage of the tubular rack 14. On the same cover there are anchor bs you 19 with nuts 20 and a carriage 21 with grooves 22 for fixed tamping motion along the guide truss. In the tree 2, there are loops 23 in which flexible cable rods 24 are attached, and with other ends these rods are attached to the anchor bolts 19. mass 11 also, as ti gi 24 on a brush 17; . The presence of movable bolts 12 and anke GOVERNMENTAL poevol bolt 19 is free to change the length of the flexible suspension 13 and rods 24 gibkik.

Bottom 2 with a hollow rod 4 rigidly attached to it, anvil 6 and shell 3 form a mass t. The housing 1 with the sleeve 5 and the ribs 9 constitute the shock inertial mass Wj i and the inertial mass 11 with the crucible strut 14 and the gripping device 15 represent the mass m.j

The tamper for stamping leathers works in the following way.

By means of a rope 16, attached to the rear of the fixture 15 | by | Ш1Имают tamper. Under the action of the thrust force of the tubular stand 14 moves together with the inertia mass 11 along the booty rod 4 and after the play of the flexible suspensions 13 is selected, lifting of the body 1 with stiffening ribs 9 and the sleeve 5 begins. As the body 1 moves upwards, which slides through the sleeve 5 along the rest of the rod 4, the free play of flexible cable t 24 is selected, which stretch and carry along the bottom 2 with the hollow rod 4,

Raising the rammer to the required height, it is directed to the ground surface. The heights h and I2 are chosen so that initially the bottom 2 strikes the ground, then the housing 1 hits the pin with a certain time interval and then the inertial mass 11 interacts. In the initial period of impact, the weight W penetrates into the soil including the bottom 2 s a shell 3 and an anvil 6, as well as a hollow rod 4. Penetration of the mass n is maintained until its velocity is equal to zero.

At that moment, when the speed of the bottom 2 approaches zero and before the onset of the deflection of the soil, the ground 1 is struck on the anvil 6 by the Ethul 5 and the energy of the mass W 2 / containing the body 1 with stiffening ribs 9 is transferred to the sleeve 5 tVi mass. Due to the energy from the impact of mass -ftlj, the catcher 2 when it moves in a ground environment does not stop, but rapidly accelerates further penetration into the soil.

When the bottom speed starts to approach zero for the second time before the deformation of the elastic after-effect appears, H {a portion of the energy is brought in again by striking an inertial mass 11 through 5, which contributes to the penetration of the bottom 2 into the ground.

Lm setups of the tamper for the optimal operation mode, it is necessary to adjust the lifting height H and h2. Changing the lifting height 1 is achieved by rotating the nuts 20 on the anchor bolts 19, and changing the lifting height of the inertial mass 11 by rotating the nuts 26 on the bolts 12, which lead to a change lengths of flexible tg 24 m flexible suspensions 13. Access to the adjustment of nuts 2 to 6 into the cavity 8 of housing 1 is provided by the opening 18 in the cover of the corgus 17.

The use of such a tamper allows you to reduce its consumption of materials, as well as the productivity of stamping due to the more deep penetration of the rammer into the ground during each impact.

2

F1 / g 2

Claims (1)

Ramming machine for stamping, containing a hollow body, freely supported on the bottom, rigidly connected to a hollow rod, placed in the cavity of the body, inertial masses mounted concentrically to the rod, connected by flexible connections, a carriage and gripping device, characterized by heme, which, in order to reduce material consumption, the central inertial mass is made in the form of a sleeve and is rigidly connected to the body, and the lower one is made in the form of an anvil and is rigidly connected to the bottom. fig 1 SU ... 1079753> 107 9753