CN112456089B - Hydraulic support top beam assembly overturning platform - Google Patents

Abstract

The invention discloses a hydraulic support top beam assembly overturning platform and relates to the field of hydraulic support top beam assembly overturning. The overturning platform comprises a base, an overturning platform A and an overturning platform B, wherein the base is the basis of the whole overturning process and is divided into three parts, namely a base I at the overturning platform A, a relay base in the middle and a base II at the overturning platform B, which are arranged side by side. The working principle of the turnover platform is that the top beam assembly is placed on the turnover platform A, then the turnover platform B is turned over, then the turnover platform A is turned over, so that the top beam assembly falls on the turnover platform B from the turnover platform A, namely the top beam assembly and the turnover platform B are in relay connection, finally the turnover platform B is turned over and restored to the original position, and the turnover platform A is restored to the original position. The top beam assembly does not need to be fixed with the overturning platform in the overturning process, the overturning is carried out by utilizing the self weight and the self characteristics of the top beam assembly, the overturning platform A and the overturning platform B are mutually protected, and the safety and the reliability of the top beam assembly in the overturning process are ensured.

Description

Hydraulic support top beam assembly overturning platform

Technical Field

The invention relates to the field of hydraulic support top beam assembly overturning, in particular to a hydraulic support top beam assembly overturning platform.

Background

At present, whether a hydraulic support is manufactured or an overhaul factory, the top beam assembly needs to be turned by 180 degrees during final assembly, and two methods are generally adopted: one is to directly turn over by a traveling crane; the other method is to fix the top beam assembly on the platform for turning. In the first method, because the side surface of the top beam assembly of the hydraulic support is not provided with a hoisting hole and the gravity center is not suitable for measurement and calculation, the top beam assembly can only be overturned along the direction of the top beam assembly when the travelling crane is overturned, and the length of the top beam assembly along the long direction is about 7 meters, so that the requirement on the height of a workshop is high, and the change of the gravity center and the hoisting position of the top beam assembly in the overturning process forms larger impact force on the travelling crane, thereby being extremely unfavorable for the use of the travelling crane. After the gravity center of the top beam assembly is adjusted, the hydraulic rubber hose on the top beam needs to be manually finished to prevent the hydraulic rubber hose from being cut off in the lowering process of the top beam, and the process has great potential safety hazards to personnel. The second method is to fix the top beam assembly on the platform, and turn over the top beam assembly by mechanical or hydraulic means by using a symmetrical rotating shaft on the platform, which is on the same axis with the center of gravity of the top beam assembly, and the turning force is reduced by the symmetrical rotating shaft. There is a need for a device that can achieve the turnover of the hydraulic support top beam assembly while improving efficiency, time and labor saving, and safety.

Disclosure of Invention

The invention provides a hydraulic support top beam assembly overturning platform, aiming at solving the problems of low efficiency and insecurity in the overturning of the existing hydraulic support top beam assembly.

The invention is realized by the following technical scheme: a hydraulic support top beam assembly overturning platform comprises a base, an overturning platform A and an overturning platform B, wherein the base is divided into three parts, namely a base I at the overturning platform A, a relay base in the middle and a base II at the overturning platform B, and the base I, the relay base and the base II are arranged side by side; the base I is in a rectangular frame shape, and the interior of the frame is hollow; the relay base is rectangular and is internally provided with a transverse supporting beam, and the base II is also rectangular and is internally provided with a plurality of transverse and longitudinal crossed supporting beams. The overturning platform A comprises a horizontal base I, a side supporting block, a pushing jack I and a U-shaped traction seat; the horizontal base I is positioned inside the base I, is rectangular and is level to the upper plane of the base I in height, a plurality of transverse and longitudinal crossed supporting beams are fixedly arranged in the horizontal base I, and the strength of the supporting beams is increased through reinforcing ribs; the pushing jack I is provided with two pushing jacks and is respectively positioned on two width edges of the base I, the fixed end of each pushing jack I is installed on the fixed seat I through a jack pin shaft, a cotter pin and a flat washer, the fixed seat I is fixed at the outer end part of the width edge of the base I, the telescopic rod of each pushing jack I points to the relay base, the end part of the telescopic rod is installed on the U-shaped traction seat of the turnover platform A through the jack pin shaft, and the U-shaped traction seat is fixed at the end part of the horizontal base I close to the length edge of the relay base; the side supporting blocks are provided with a plurality of side supporting blocks and are vertically fixed in the middle of the length side of the horizontal base I close to the relay base; the two ends of the horizontal base I, close to the length edge of the relay base, are provided with connecting lugs and are connected to the relay base through a middle pin shaft. The turnover platform B comprises a horizontal base II, a side supporting frame, a supporting tool, a pushing jack II and a traction body, wherein the horizontal base II is positioned at the upper part of the base II and is rectangular, a plurality of supporting beams which are crossed transversely and longitudinally are fixedly arranged in the horizontal base II, and the strength of the supporting beams is increased through reinforcing ribs; the side supporting frames are perpendicular to the horizontal base II and are fixed on the long edge of the horizontal base II close to the relay base, a supporting tool is detachably mounted on the horizontal base II and is used for supporting the top beam side protecting plate, two traction bodies are arranged, one of the two traction bodies is obliquely fixed between the front edge and the front width edge of the side supporting frame, and the other one of the two traction bodies is obliquely fixed between the rear edge and the rear width edge of the side supporting frame; the traction body is fixedly provided with a traction body, and the end part of a telescopic rod of the traction body II is arranged on the telescopic rod fixing seat through a jack pin shaft; the connecting part of the horizontal base II and the side support frame is connected to a rotary fixing seat through a middle pin shaft, and the rotary fixing seat is fixed on the inner edges of two width edges of the base II; a space for placing the side support block when the side support frame is in a horizontal position is reserved on the side support frame so as to prevent interference; and a space required by the turnover of the horizontal base II and the side supporting frame is reserved between the relay base and the base II.

The invention discloses a hydraulic support top beam assembly overturning platform which is characterized in that a top beam assembly is arranged on an overturning platform A, the overturning platform B is overturned firstly, then the overturning platform A is overturned to enable the top beam assembly to fall on the overturning platform B, then the overturning platform B is overturned to restore the original position, and the overturning platform A is restored to the original position. The overturning platform comprises a base, an overturning platform A and an overturning platform B, wherein the base is the basis of the whole overturning process and is divided into three parts, namely a base I at the overturning platform A, a relay base in the middle and a base II at the overturning platform B, which are arranged side by side; the base I is in a rectangular frame shape, is hollow in the frame and is used for installing a horizontal base I of the overturning platform A; the relay base is rectangular and internally provided with a transverse supporting beam for supporting the overturning platform A and the overturning platform B to turn to a middle side supporting part and simultaneously supporting the whole hydraulic support jacking beam assembly, and the base II is also rectangular and internally provided with a plurality of transverse and longitudinal crossed supporting beams for supporting a horizontal base II and a side supporting frame of the whole overturning platform B.

The turnover platform A is an initial part for turnover, and firstly, a top beam assembly is placed on the turnover platform A, so that the turnover platform A mainly comprises a horizontal base I, side supporting blocks, a pushing jack I and a U-shaped traction seat, wherein the horizontal base I is positioned in the base I and is rectangular, the height of the horizontal base I is equal to the upper plane of the base I, a plurality of transverse and longitudinal crossed supporting beams are fixedly arranged in the horizontal base I, the strength of the supporting beams is increased through reinforcing ribs, and the whole top beam assembly is heavy, so that the supporting beams are required to support the whole top beam assembly; the pushing jack I is used for overturning the horizontal base I and the side supporting blocks, a liquid inlet and a telescopic rod are fixed on the pushing jack I, in order to realize overturning, the pushing jack I is provided with two pushing jacks, one pushing jack is respectively arranged on two width sides of the base I, when the telescopic rod extends out, the horizontal base I can be overturned to a vertical position, the side supporting blocks are overturned to a horizontal position, and when the telescopic rod retracts, the horizontal base I and the side supporting blocks can be restored to the original state; the fixed end of a pushing jack I is arranged on a fixed seat I, the fixed seat I is fixed at the outer end part of the width edge of a base I, so that the fixed end of the pushing jack I is fixedly arranged on the base I, a telescopic rod of the pushing jack I points to a middle relay base, the end part of the pushing jack I is arranged on a U-shaped traction seat, and the U-shaped traction seat is fixed at the end part of the length edge of a horizontal base I; the two ends of the horizontal base I, close to the length edge of the relay base, are provided with connecting lugs and are connected to the relay base through a middle pin shaft.

The overturning platform B is a device which is firstly overturned to receive a top beam assembly and mainly comprises a horizontal base II, side supporting frames, a supporting tool, a pushing jack II and a traction body, wherein the horizontal base II is positioned at the upper part of the base II and is rectangular, a plurality of supporting beams which are transversely and longitudinally crossed are fixedly arranged in the horizontal base II, the strength of the supporting beams is increased through reinforcing ribs, and after overturning, the top beam assembly is positioned at the upper part of the horizontal base II, so that the supporting beams are required to provide a certain supporting force; the side support frame is perpendicular to the horizontal base II and is fixed on the long edge of the horizontal base II close to the relay base, the side support frame is used for receiving the top beam assembly on the overturning platform B, and the supporting tool is further arranged on the horizontal base II and is used for supporting the top beam side protection plate and can be replaced according to different top beam assemblies, so that the side support frame can be detached. The traction body is connected with a pushing jack II and drives the side support frame to turn over and restore; pass jack II have two, and be located two width limits departments of base II respectively, the tip of its telescopic link is used for being connected with the traction body, and the connected mode is: a telescopic rod fixing seat is fixedly arranged on the outer side of the traction body, so that the end part of the telescopic rod is arranged on the telescopic rod fixing seat through a jack pin shaft; and the fixed end of the pushing jack II is arranged on the fixed seat II through a jack pin shaft, a cotter pin and a flat gasket, and the fixed seat II is fixed on the outer edge of the width edge of the base II, so that the telescopic rod of the pushing jack II points to the relay base. Horizontal base II and the position of being connected of collateral branch strut are through well round pin hub connection in rotatory fixing base, and rotatory fixing base is fixed in on the inward flange on two width limits of base II, and this rotatory fixing base's effect prevents that upset platform B from deviating from and making the two fixed on base II when the upset. A space for placing the side support block when the side support frame is in a horizontal position is reserved on the side support frame to prevent interference, and the top beam assembly is not only arranged above the side support block but also arranged above the side support frame after being turned over; and a space required by the turnover of the horizontal base II and the side support frame is reserved between the relay base and the base II, so that the turnover platform B can be turned over freely and cannot be clamped.

The invention has the following specific operations: firstly, a hydraulic support top beam assembly is hung on a turnover platform A by a travelling crane, and after the turnover platform is opened, the turnover platform B is firstly turned into a position shown in figure 3, and the method specifically comprises the following steps: firstly, assembling a support tool matched with a current reversed top beam assembly at a position corresponding to a horizontal base II, then extending telescopic rods of two pushing jacks II to push side support frames to reverse by taking a rotary fixed seat as an axis, simultaneously reversing the horizontal base II together, enabling the side support frames to be in a horizontal state, and enabling the horizontal base II to be in a vertical state; then the overturning platform A starts to overturn, telescopic rods of two pushing jacks I extend out, the U-shaped traction seat overturns, then the horizontal base I, the side supporting blocks and the top beam assembly are driven to overturn together, the horizontal base I is in a vertical state, the side supporting blocks are in a horizontal state, the side supporting blocks extend into gaps reserved on the side supporting frames, as shown in figure 4, the top beam assembly falls on the side supporting frames, the overturning platform B takes over the top beam assembly, and meanwhile, a supporting tool protects a side protection plate of the top beam assembly; then the turning platform B starts to turn over and return, the telescopic rods of the two pushing jacks ii are retracted and are retracted slowly, the retracting speed is controlled, the horizontal base ii is made to return to the horizontal position, the side supporting frames are made to return to the vertical position, then the top beam assembly is turned over by 180 degrees, and after the turning is completed, the turning platform a is also turned over and restored to the original state under the condition that the telescopic rods of the pushing jacks i are retracted, as shown in fig. 5.

Compared with the prior art, the invention has the following beneficial effects: according to the hydraulic support top beam assembly overturning platform provided by the invention, the hydraulic support top beam assembly does not need to be fixed with the overturning platform in overturning, the overturning is carried out by utilizing the self weight and the characteristics of the hydraulic support top beam assembly, the overturning platform A and the overturning platform B are mutually protected in the overturning process, and the safety and the reliability of the top beam assembly in the overturning process are ensured. In terms of efficiency: compared with a method for overturning the hydraulic support top beam assembly by directly using a travelling crane, the overturning efficiency is doubled; compared with the method for fixing the top beam assembly on the platform to turn over the hydraulic support top beam assembly, the turning efficiency is improved by three times, and the method has wide popularization and application prospects.

Drawings

Fig. 1 is a front view of the structure of the present invention, and is a schematic view of the structure in position.

Fig. 2 is a top view of the structure of the present invention.

Fig. 3 is a schematic structural diagram of the second position of the present invention.

Fig. 4 is a schematic structural diagram of position three of the present invention.

FIG. 5 is a schematic diagram of a structure at position four of the present invention.

The figures are labeled as follows: the hydraulic support frame comprises a base 1, a base 101, a base I, a relay base 102, a base II 103, a horizontal base I, a horizontal base II, a side supporting block 4, a side supporting frame 5, a supporting tool 6, a pushing jack I, a U-shaped traction base 8, a pushing jack II, a traction body 10, a fixing base I11, a fixing base II 12, a connecting lug 13, a rotating fixing base 14, a reinforcing fixture block 15 and a hydraulic support frame top beam assembly 16.

Detailed Description

The present invention is further illustrated by the following specific examples.

A hydraulic support top beam assembly overturning platform is shown in figures 1-2: the base 1 is divided into three parts, namely a base I101 at the turning platform A, a relay base 102 in the middle and a base II 103 at the turning platform B, wherein the base I101, the relay base 102 and the base II 103 are arranged side by side; the base I101 is in a rectangular frame shape, and the interior of the frame is hollow; the relay base 102 is rectangular and is internally provided with a transverse supporting beam, and the base II 103 is also rectangular and is internally provided with a plurality of transverse and longitudinal crossed supporting beams; the overturning platform A comprises a horizontal base I2, a side supporting block 4, a pushing jack I7 and a U-shaped traction seat 8; the horizontal base I2 is positioned inside the base I101, the horizontal base I2 is rectangular and is level to the upper plane of the base I101 in height, a plurality of supporting beams which are crossed transversely and longitudinally are fixedly arranged in the horizontal base I2, and the strength of the supporting beams is increased through reinforcing ribs; the device comprises a base I101, a pushing jack I7, a fixing seat I11, a jack pin shaft, a split pin and a flat washer, wherein the pushing jack I7 is provided with two pushing jacks which are respectively positioned on two width edges of the base I101, the fixing end of the pushing jack I7 is installed on the fixing seat I11 through the jack pin shaft, the fixing seat I11 is fixed at the outer end part of the width edge of the base I101, a telescopic rod of the pushing jack I7 points to a relay base 102, the end part of the telescopic rod is installed on a U-shaped traction seat 8 of an overturning platform A through the jack pin shaft, and the U-shaped traction seat 8 is fixed at the end part of a horizontal base I2 close to the length edge of the relay base 102; the side supporting blocks 4 are provided with a plurality of blocks and are vertically fixed in the middle of the length side of the horizontal base I2 close to the relay base 102; the two ends of the horizontal base I2 close to the length side of the relay base 102 are provided with connecting lugs 13 and are connected to the relay base 102 through a middle pin shaft; the overturning platform B comprises a horizontal base II 3, a side supporting frame 5, a supporting tool 6, a pushing jack II 9 and a traction body 10, wherein the horizontal base II 3 is positioned at the upper part of a base II 103 and is rectangular, a plurality of transverse and longitudinal crossed supporting beams are fixedly arranged in the horizontal base II 3, and the strength of the supporting beams is increased through reinforcing ribs; the side supporting frames 5 are perpendicular to the horizontal base II 3 and are fixed on the long edge of the horizontal base II 3 close to the relay base 102, the supporting tool 6 is detachably mounted on the horizontal base II 3, the supporting tool 6 is used for supporting the top beam side guard plate, two traction bodies 10 are arranged, one of the two traction bodies is obliquely fixed between the front edge and the front width edge of the side supporting frame 5, and the other traction body is obliquely fixed between the rear edge and the rear width edge of the side supporting frame 5; the two pushing jacks II 9 are respectively positioned at two width edges of the base II 103, the fixed end of each pushing jack II 9 is installed on the fixed base II 12 through a jack pin shaft, a cotter pin and a flat washer, the fixed base II 12 is fixed on the outer edge of the width edge of the base II 103, the telescopic rod of each pushing jack II 9 points to the relay base 102, the outer side of the traction body 10 is fixedly provided with a telescopic rod fixed base, and the end part of the telescopic rod of each pushing jack II 9 is installed on the telescopic rod fixed base through a jack pin shaft; the connecting part of the horizontal base II 3 and the side support frame 5 is connected to a rotary fixed seat 14 through a middle pin shaft, and the rotary fixed seat 14 is fixed on the inner edges of two width edges of the base II 103; a space for placing the side support block 4 when the side support frame 5 is in a horizontal position is reserved on the side support frame to prevent interference; and a space required by the overturning of the horizontal base II 3 and the side support frame 5 is reserved between the relay base 102 and the base II 103.

In this embodiment: the inner edge of the width edge of the horizontal base I2 of the turnover platform A is provided with a reinforcing clamping block 15, and the reinforcing clamping block 15 can play a role in clamping the top beam assembly and can also play a role in reinforcing the strength of the whole device.

The embodiment specifically operates as follows: at first hang the hydraulic support roof beam subassembly with the driving on upset platform A, open the upset platform after, make earlier upset platform B turn into as shown in figure 3 position two, specifically do: firstly, assembling a supporting tool 6 matched with a current reversed top beam assembly at a position corresponding to a horizontal base II 3, then extending telescopic rods of two pushing jacks II 9 to push a side supporting frame 5 to reverse by taking a rotary fixed seat 14 as an axis, simultaneously reversing the horizontal base II 3 together, enabling the side supporting frame 5 to be in a horizontal state, and enabling the horizontal base II 3 to be in a vertical state; then the overturning platform A starts to overturn, telescopic rods of two pushing jacks I7 extend out, the U-shaped traction seat 8 overturns, then the horizontal base I2, the side supporting blocks 4 and the hydraulic support top beam assembly 16 are driven to overturn together, the horizontal base I2 is in a vertical state, the side supporting blocks 4 are in a horizontal state, the side supporting blocks 4 extend into gaps reserved in the side supporting frames 5, as shown in the position III in fig. 4, the hydraulic support top beam assembly 16 falls on the side supporting frames 5, the overturning platform B takes over the top beam assembly, and meanwhile the supporting tool 6 protects side protection plates of the top beam assembly; then the overturning platform B starts to overturn and return, the telescopic rods of the two pushing jacks ii 9 are retracted and are retracted slowly, the retracting speed is controlled, the horizontal base ii 3 is restored to the horizontal position, the side supporting frame 5 is restored to the vertical position, the hydraulic support top beam assembly 16 completes 180-degree overturning, and after the overturning is completed, the overturning platform a is also overturned and restored under the condition that the telescopic rods of the pushing jacks i 7 are retracted, as shown in a fourth position in fig. 5.

The scope of the invention is not limited to the above embodiments, and various modifications and changes may be made by those skilled in the art, and any modifications, improvements and equivalents within the spirit and principle of the invention should be included in the scope of the invention.

Claims (2)

1. The utility model provides a hydraulic support roof beam subassembly upset platform which characterized in that: the overturning device comprises a base (1), an overturning platform A and an overturning platform B, wherein the base (1) is divided into three parts, namely a base I (101) at the overturning platform A, a relay base (102) in the middle and a base II (103) at the overturning platform B, and the base I (101), the relay base (102) and the base II (103) are arranged side by side; the base I (101) is in a rectangular frame shape, and the interior of the frame is hollow; the relay base (102) is rectangular and is internally provided with a transverse supporting beam, and the base II (103) is also rectangular and is internally provided with a plurality of transverse and longitudinal crossed supporting beams;

the overturning platform A comprises a horizontal base I (2), a side supporting block (4), a pushing jack I (7) and a U-shaped traction seat (8); the horizontal base I (2) is positioned inside the base I (101), the horizontal base I (2) is rectangular and is level to the upper plane of the base I (101), a plurality of transverse and longitudinal crossed supporting beams are fixedly arranged in the horizontal base I (2), and the strength of the supporting beams is increased through reinforcing ribs; the pushing jack I (7) is provided with two pushing jacks I (7) which are respectively positioned on two width edges of the base I (101), the fixed end of each pushing jack I (7) is installed on the fixed seat I (11) through a jack pin shaft, a cotter pin and a flat washer, the fixed seat I (11) is fixed at the outer end part of the width edge of the base I (101), the telescopic rod of each pushing jack I (7) points to the relay base (102), the end part of the telescopic rod is installed on the U-shaped traction seat (8) of the overturning platform A through a jack pin shaft, and the U-shaped traction seat (8) is fixed at the end part, close to the length edge of the relay base (102), of the horizontal base I (2); the side supporting blocks (4) are provided with a plurality of side supporting blocks and are vertically fixed in the middle of the length side of the horizontal base I (2) close to the relay base (102); two ends of the horizontal base I (2) close to the length edge of the relay base (102) are provided with connecting lugs (13) and connected to the relay base (102) through a middle pin shaft;

the overturning platform B comprises a horizontal base II (3), a side supporting frame (5), a supporting tool (6), a pushing jack II (9) and a traction body (10), wherein the horizontal base II (3) is positioned at the upper part of the base II (103) and is rectangular, a plurality of transverse and longitudinal crossed supporting beams are fixedly arranged in the horizontal base II (3), and the strength of the supporting beams is increased through reinforcing ribs; the side supporting frames (5) are perpendicular to the horizontal base II (3) and fixed on the long edge of the horizontal base II (3) close to the relay base (102), the supporting tool (6) is detachably mounted on the horizontal base II (3), the supporting tool (6) is used for supporting the top beam side protecting plate, two traction bodies (10) are arranged, one of the two traction bodies is obliquely fixed between the front edge and the front width edge of the side supporting frame (5), and the other traction body is obliquely fixed between the rear edge and the rear width edge of the side supporting frame (5); the traction device is characterized in that the pushing jack II (9) is provided with two pushing jacks which are respectively positioned at two width edges of the base II (103), the fixed end of each pushing jack II (9) is installed on the fixed base II (12) through a jack pin shaft, a cotter pin and a flat washer, the fixed base II (12) is fixed on the outer edge of the width edge of the base II (103), the telescopic rod of each pushing jack II (9) points to the relay base (102), a telescopic rod fixed base is fixedly arranged on the outer side of the traction body (10), and the end part of the telescopic rod of each pushing jack II (9) is installed on the telescopic rod fixed base through the jack pin shaft; the connecting part of the horizontal base II (3) and the side support frame (5) is connected to a rotary fixed seat (14) through a middle pin shaft, and the rotary fixed seat (14) is fixed on the inner edges of two width edges of the base II (103);

a space for placing the side supporting block (4) when the side supporting frame (5) is in a horizontal position is reserved so as to prevent interference; and a space required by the overturning of the horizontal base II (3) and the side support frame (5) is reserved between the relay base (102) and the base II (103).

2. The hydraulic support top beam assembly overturning platform of claim 1, wherein: the width edge of the horizontal base I (2) of the turnover platform A is provided with a reinforcing clamping block (15).

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