Disclosure of Invention
The invention aims to provide an anti-seismic spherical hinge support hoisting clamp suitable for anti-seismic spherical hinge supports of different specifications and a hoisting method using the clamp.
The purpose of the invention is realized in the following way:
the utility model provides an antidetonation ball-type hinge support lifting clamp, is including being located the fixture that antidetonation ball-type hinge support's front and back both sides and symmetry set up, with the first lead screw of the left and right sides and threaded connection of fixture, the screw thread opposite direction of the front side and the rear side of first lead screw, fixture is including being located the left first clamping body of antidetonation ball-type hinge support, with the second clamping body that first clamping body symmetry set up and be located the support right side, with the second lead screw of first clamping body and second clamping body threaded connection, the screw thread opposite direction of the left and right sides of second lead screw, first lead screw and second lead screw all are located on the horizontal plane and mutually perpendicular.
The first clamping body comprises a first clamping block, a first placing groove, a first fastening mechanism, a first sleeve and a second sleeve, wherein the first placing groove is positioned on the right side of the first clamping block and is opened to the right, the first fastening mechanism is positioned on the front side of the first clamping block and is used for fixing a support in the first placing groove, the first sleeve is positioned on the rear side of the first clamping block, the second sleeve is positioned on the front side of the first clamping block, and the central axis of the first sleeve is perpendicular to the central axis of the second sleeve.
The first clamping block is provided with a first threaded hole communicated with the second sleeve, the rear end of the first screw rod penetrates through the first threaded hole and the second sleeve and is in threaded connection with the first threaded hole and the second sleeve, the left end of the second screw rod penetrates through the first sleeve and is in threaded connection with the first sleeve, and the first clamping block is provided with a first through hole.
The first fastening mechanism comprises a first thread bush fixedly connected with the front side surface of the first clamping block, and a first bolt which is in threaded connection with the first thread bush and is positioned in the vertical direction, and the bottom of the first bolt is in extrusion contact with the upper surface of the support.
The second clamping body comprises a second clamping block, a second placing groove, a second fastening mechanism, a third sleeve and a fourth sleeve, wherein the second placing groove is positioned on the left side of the second clamping block and is provided with a left opening, the second fastening mechanism is positioned on the front side of the second clamping block and is used for fixing a support in the second placing groove, the third sleeve is positioned on the rear side of the second clamping block, the fourth sleeve is positioned on the front side of the second clamping block, and the central axis of the third sleeve is perpendicular to the central axis of the fourth sleeve.
The second clamping block is provided with a second threaded hole communicated with the fourth sleeve, the rear end of the first screw rod penetrates through the second threaded hole and the fourth sleeve and is in threaded connection with the second threaded hole and the fourth sleeve, the right end of the second screw rod penetrates through the third sleeve and is in threaded connection with the third sleeve, and the second clamping block is provided with a second through hole.
The second fastening mechanism comprises a second thread bush fixedly connected with the front side surface of the second clamping block, and a second bolt which is in threaded connection with the second thread bush and is positioned in the vertical direction, and the bottom of the second bolt is in extrusion contact with the upper surface of the anti-seismic spherical hinge support.
A hoisting method using an anti-seismic spherical hinged support hoisting clamp comprises the following steps: step 1, installing an anti-seismic spherical hinged support hoisting clamp: the specific operation is as follows: the method comprises the steps that a first clamping block and a second clamping block are arranged on the left side and the right side of the front side of an anti-seismic spherical hinge support, then the first clamping block and the second clamping block are respectively arranged on the left side and the right side of the rear side of the anti-seismic spherical hinge support, a first screw rod is used for connecting the front clamping block and the rear clamping block which are positioned on the left side of the anti-seismic spherical hinge support, a first screw rod is used for connecting the front clamping block and the rear clamping block which are positioned on the right side of the anti-seismic spherical hinge support, and a second screw rod is used for connecting the first clamping block and the second clamping block; step 2: according to the size adjustment anchor clamps of antidetonation ball-type hinge support, the specific operation is as follows: twisting a first screw rod, supporting a front first clamping block, a rear first clamping block and two second clamping blocks, wherein the front first clamping block and the rear second clamping block are mutually close to adapt to the size of the anti-seismic spherical hinge support in the front-rear direction; step 3: adjusting the distance between the anti-seismic spherical hinge support and the upper surfaces of the first placing groove and the second placing groove: the specific operation is as follows: the anti-seismic spherical hinge support 1 is firmly connected with the first clamping block 7 and the second clamping block 14 by adopting a first fastening mechanism and a second fastening mechanism.
Has the positive beneficial effects that: the two clamping mechanisms are symmetrically arranged and connected through the first screw rod, so that the distance between the front and rear directions of the two clamping mechanisms can be conveniently adjusted, the two clamping bodies are symmetrically arranged and connected through the second screw rod, and the distance between the left and right directions of the two clamping bodies can be conveniently adjusted, so that the square anti-seismic spherical hinge support is suitable for square anti-seismic spherical hinge supports of different specifications, has a wide application range and a firm structure, is convenient to install and disassemble, and achieves the purpose of safely hoisting the support.
Detailed Description
The invention is further described below with reference to the drawings and examples.
Example 1
As shown in fig. 1 and 2, an anti-vibration spherical hinge support lifting fixture comprises clamping mechanisms 2 which are positioned on the front side and the rear side of an anti-vibration spherical hinge support 1 and symmetrically arranged, a first screw rod 3 which is in threaded connection with the front side and the rear side of the clamping mechanisms 2, wherein the directions of threads on the front side and the rear side of the first screw rod 3 are opposite, the clamping mechanisms 2 comprise a first clamping body 4 which is positioned on the left side of the anti-vibration spherical hinge support 1, a second clamping body 5 which is symmetrically arranged with the first clamping body 4 and is positioned on the right side of the anti-vibration spherical hinge support 1, a second screw rod 6 which is in threaded connection with the first clamping body 4 and the second clamping body 5, the directions of threads on the left side and the right side of the second screw rod 6 are opposite, the two clamping mechanisms 4 are symmetrically arranged and are connected through the first screw rod 3, the two clamping mechanisms are convenient to adjust the distance between the front direction and the rear direction of the two clamping mechanisms 2, the two clamping bodies are convenient to adjust the distance between the left direction and the two clamping bodies, so that the anti-vibration spherical hinge support is suitable for different specifications, the anti-vibration spherical hinge support has a wide application range, the lifting structure is firm, the lifting and the lifting mechanism is convenient to mount and the two clamping mechanisms are not close to each other, and the two clamping mechanisms are not mutually rotate, and are positioned on the front side and the two clamping bodies 2 or are far from the front side and far from each other, and far from the two clamping mechanism 2, and are far from the two clamping mechanism.
The first clamping body 4 comprises a first clamping block 7, a first placing groove 8 which is positioned on the right side of the first clamping block 7 and is opened to the right, a first fastening mechanism which is positioned on the front side of the first clamping block 7 and is used for fixing the anti-seismic spherical hinge support 1 in the first placing groove 8, a first sleeve 9 which is positioned on the rear side of the first clamping block 7, and a second sleeve 12 which is positioned on the front side of the first clamping block 7, wherein the central axis of the first sleeve 9 and the central axis of the second sleeve 12 are mutually perpendicular, and the second fastening mechanism adjusts the distance between the first clamping block and the upper cover plate of the anti-seismic spherical hinge support so as to achieve the purpose of locking the anti-seismic spherical hinge support and avoid the shaking of a heavy structure and a clamp in the hoisting process. The first clamping block 7 is provided with a first threaded hole communicated with the second sleeve 12, the rear end of the first screw rod 3 penetrates through the first threaded hole and the second sleeve 12 and is in threaded connection with the first threaded hole and the second sleeve 12, and the left end of the second screw rod 6 penetrates through the first sleeve 9 and is in threaded connection with the first sleeve 9. The first clamping block 7 is provided with a first through hole 13, the first through hole 13 is used for penetrating through a lifting rope to lift the first clamping body 4, and the first sleeve 9 and the second sleeve 12 are both positioned on a horizontal plane.
The second clamping body 5 comprises a second clamping block 14, a second placing groove 15 which is positioned on the left side of the second clamping block 14 and is opened to the left, a second fastening mechanism which is positioned on the front side of the second clamping block 14 and is used for fixing the anti-seismic spherical hinge support 1 in the second placing groove 15, a third sleeve 16 which is positioned on the rear side of the second clamping block 14, and a fourth sleeve 19 which is positioned on the front side of the second clamping block 14, wherein the central axis of the third sleeve 16 and the central axis of the fourth sleeve 19 are mutually perpendicular, and the second fastening mechanism adjusts the distance between the second clamping block and the upper cover plate of the anti-seismic spherical hinge support so as to achieve the purpose of locking the anti-seismic spherical hinge support and avoid the shaking of a heavy structure and a clamp in the hoisting process. The second clamping block 14 is provided with a second threaded hole communicated with the fourth sleeve 19, the rear end of the first screw rod 3 passes through the second threaded hole and the fourth sleeve 19 and is in threaded connection with the second threaded hole and the fourth sleeve 19, and the right end of the second screw rod 6 passes through the third sleeve 16 and is in threaded connection with the third sleeve 16. The second clamping block 14 is provided with a second through hole 20, and the second through hole 20 is used for penetrating through a lifting rope to lift the anti-seismic spherical hinge support 1 and the second clamping body 5 to a third sleeve 16 and a fourth sleeve 19 which are both positioned on a horizontal plane.
Example 2
As shown in fig. 1 and 2, an anti-vibration spherical hinge support lifting fixture comprises clamping mechanisms 2 which are positioned on the front side and the rear side of an anti-vibration spherical hinge support 1 and symmetrically arranged, a first screw rod 3 which is in threaded connection with the front side and the rear side of the clamping mechanisms 2, wherein the directions of threads on the front side and the rear side of the first screw rod 3 are opposite, the clamping mechanisms 2 comprise a first clamping body 4 which is positioned on the left side of the anti-vibration spherical hinge support 1, a second clamping body 5 which is symmetrically arranged with the first clamping body 4 and is positioned on the right side of the anti-vibration spherical hinge support 1, a second screw rod 6 which is in threaded connection with the first clamping body 4 and the second clamping body 5, the directions of threads on the left side and the right side of the second screw rod 6 are opposite, the two clamping mechanisms 4 are symmetrically arranged and are connected through the first screw rod 3, the two clamping mechanisms are convenient to adjust the distance between the front direction and the rear direction of the two clamping mechanisms 2, the two clamping bodies are convenient to adjust the distance between the left direction and the two clamping bodies, so that the anti-vibration spherical hinge support is suitable for different specifications, the anti-vibration spherical hinge support has a wide application range, the lifting structure is firm, the lifting and the lifting mechanism is convenient to mount and the two clamping mechanisms are not close to each other, and the two clamping mechanisms are not mutually rotate, and are positioned on the front side and the two clamping bodies 2 or are far from the front side and far from each other, and far from the two clamping mechanism 2, and are far from the two clamping mechanism.
The first clamping body 4 comprises a first clamping block 7, a first placing groove 8 which is positioned on the right side of the first clamping block 7 and is opened to the right, a first fastening mechanism which is positioned on the front side of the first clamping block 7 and is used for fixing the anti-seismic spherical hinge support 1 in the first placing groove 8, a first sleeve 9 which is positioned on the rear side of the first clamping block 7, and a second sleeve 12 which is positioned on the front side of the first clamping block 7, wherein the central axis of the first sleeve 9 and the central axis of the second sleeve 12 are mutually perpendicular, and the second fastening mechanism adjusts the distance between the first clamping block and the upper cover plate of the anti-seismic spherical hinge support so as to achieve the purpose of locking the anti-seismic spherical hinge support and avoid the shaking of a heavy structure and a clamp in the hoisting process. The first clamping block 7 is provided with a first threaded hole communicated with the second sleeve 12, the rear end of the first screw rod 3 penetrates through the first threaded hole and the second sleeve 12 and is in threaded connection with the first threaded hole and the second sleeve 12, and the left end of the second screw rod 6 penetrates through the first sleeve 9 and is in threaded connection with the first sleeve 9. The first clamping block 7 is provided with a first through hole 13, the first through hole 13 is used for penetrating through a lifting rope to lift the first clamping body 4, and the first sleeve 9 and the second sleeve 12 are both positioned on a horizontal plane.
The first fastening mechanism comprises a first thread bush 10 fixedly connected with the front side surface of the first clamping block 7 through welding, and a first bolt 11 which is in threaded connection with the first thread bush 10 and is positioned in the vertical direction, wherein the bottom of the first bolt 11 is in extrusion contact with the upper surface of the anti-seismic spherical hinge support 1 and is used for fixing the anti-seismic spherical hinge support 1 with the first placing groove 8, after the left side of the anti-seismic spherical hinge support 1 is placed in the first placing groove 8, the first bolt 10 is screwed, so that the bottom of the first bolt 10 is in extrusion contact with the upper surface of the anti-seismic spherical hinge support 1, and the left side of the anti-seismic spherical hinge support 1 is fixed with the first placing groove 8.
The second clamping body 5 comprises a second clamping block 14, a second placing groove 15 which is positioned on the left side of the second clamping block 14 and is opened to the left, a second fastening mechanism which is positioned on the front side of the second clamping block 14 and is used for fixing the anti-seismic spherical hinge support 1 in the second placing groove 15, a third sleeve 16 which is positioned on the rear side of the second clamping block 14, and a fourth sleeve 19 which is positioned on the front side of the second clamping block 14, wherein the central axis of the third sleeve 16 and the central axis of the fourth sleeve 19 are mutually perpendicular, and the second fastening mechanism adjusts the distance between the second clamping block and the upper cover plate of the anti-seismic spherical hinge support so as to achieve the purpose of locking the anti-seismic spherical hinge support and avoid the shaking of a heavy structure and a clamp in the hoisting process. The second clamping block 14 is provided with a second threaded hole communicated with the fourth sleeve 19, the rear end of the first screw rod 3 passes through the second threaded hole and the fourth sleeve 19 and is in threaded connection with the second threaded hole and the fourth sleeve 19, and the right end of the second screw rod 6 passes through the third sleeve 16 and is in threaded connection with the third sleeve 16. The second clamping block 14 is provided with a second through hole 20, and the second through hole 20 is used for penetrating through a lifting rope to lift the anti-seismic spherical hinge support 1 and the second clamping body 5 to a third sleeve 16 and a fourth sleeve 19 which are both positioned on a horizontal plane.
The second fastening mechanism comprises a second thread bush 17 fixedly connected with the front side surface of the second clamping block 14, and a second bolt 18 which is in threaded connection with the second thread bush 17 and is positioned in the vertical direction, wherein the bottom of the second bolt 18 is in extrusion contact with the upper surface of the anti-seismic spherical hinge support 1 and is used for fixing the anti-seismic spherical hinge support 1 with the second placing groove 15, and after the anti-seismic spherical hinge support 1 is placed into the second placing groove 15, the second bolt 18 is screwed to enable the bottom of the second bolt 18 to be in extrusion contact with the upper surface of the anti-seismic spherical hinge support 1, so that the right end of the anti-seismic spherical hinge support 1 is fixed with the second placing groove 15.
Example 3
A hoisting method using an anti-seismic spherical hinged support hoisting clamp comprises the following steps: step 1, installing an anti-seismic spherical hinged support hoisting clamp: the specific operation is as follows: firstly, placing a first clamping block 7 and a second clamping block 14 on the left side and the right side of the front side of an anti-seismic spherical hinge support 1, then respectively placing the first clamping block 7 and the second clamping block 14 on the left side and the right side of the rear side of the anti-seismic spherical hinge support 1, connecting the front clamping block 7 and the rear clamping block 7 which are positioned on the left side of the anti-seismic spherical hinge support 1 by using a first screw rod 3, connecting the front clamping block 14 and the rear clamping block 14 which are positioned on the right side of the anti-seismic spherical hinge support 1 by using the first screw rod 3, connecting the first clamping block 7 and the second clamping block 14 by using a second screw rod 6, and according to the size of the anti-seismic spherical hinge support 1; step 2: according to the size adjustment anchor clamps of antidetonation ball-type hinge support, the specific operation is as follows: screwing the first screw rod 3, supporting the front and rear two first clamping blocks 7 and the two second clamping blocks 14 without rotating, enabling the front and rear two first clamping blocks 7 to be close to each other to adapt to the size of the anti-seismic spherical hinge support 1 in the front and rear direction, simultaneously enabling the front and rear two second clamping blocks 14 to be close to each other to adapt to the size of the anti-seismic spherical hinge support 1 in the front and rear direction, then rotating the second screw rod 6, enabling the first clamping blocks 7 and the second clamping blocks 14 located in the left and right directions of the anti-seismic spherical hinge support 1 to be close to each other and extruding the left and right sides of the anti-seismic spherical hinge support 1 and clamping the anti-seismic spherical hinge support 1, and step 3: adjusting the distance between the anti-seismic spherical hinge support and the upper surfaces of the first placing groove and the second placing groove: the specific operation is as follows: the first fastening mechanism and the second fastening mechanism are added with the anti-seismic spherical hinge support 1 to be connected with the first clamping block 7 and the second clamping block 14, after the left side of the anti-seismic spherical hinge support 1 is placed into the first placing groove 8, the first bolt 10 is screwed to enable the bottom of the first bolt 10 to be in extrusion contact with the upper surface of the anti-seismic spherical hinge support 1, and then the left side of the anti-seismic spherical hinge support 1 is fixed with the first placing groove 8; when the anti-seismic spherical hinge support 1 is placed in the second placing groove 15, the second bolt 18 is screwed, so that the bottom of the second bolt 18 is in extrusion contact with the upper surface of the anti-seismic spherical hinge support 1, the right end of the anti-seismic spherical hinge support 1 is fixed with the second placing groove 15, and after the hanging ring passes through the first through hole and the second through hole, the hanging clamp and the anti-seismic spherical hinge support 1 are hung through the hanging mechanism.
The two clamping mechanisms are symmetrically arranged and connected through the first screw rod, so that the distance between the front and rear directions of the two clamping mechanisms can be conveniently adjusted, the two clamping bodies are symmetrically arranged and connected through the second screw rod, and the distance between the left and right directions of the two clamping bodies can be conveniently adjusted, so that the anti-seismic spherical hinge support is suitable for square anti-seismic spherical hinge supports of different specifications, has a wide application range and a firm structure, is convenient to install and disassemble, and achieves the aim of safely hoisting the anti-seismic spherical hinge supports.