CN219217268U - Assembled building inclined roof inclined hoisting support - Google Patents

Abstract

The utility model relates to the technical field of lifting support equipment, in particular to an assembled building inclined roof inclined lifting support. Including supporting the curb plate, the top of supporting the curb plate is connected with oblique hoist and mount support, wire rope's one end is connected with the hoist and mount crossbeam, the lower bottom surface of slip fixture block is connected with the connecting block, the hoist and mount crossbeam is close to the one end that supports the curb plate and is connected with firm fixture block, the one end that hoist and mount crossbeam was kept away from to firm fixture block is connected with the connection side lever. The beneficial effects of the utility model are as follows: when the distance between the first lifting hook and the second lifting hook needs to be adjusted, the linear motion of the connecting blocks is realized through the operation of the first motor and the second motor, and then the adjustment of the distance between the first lifting hook and the second lifting hook can be realized through adjusting the distance between the two connecting blocks, so that the prefabricated members with different sizes can be lifted in a lifting mode, and the gravity center of the prefabricated members is located at the center line position of the lifting support.

Description

Assembled building inclined roof inclined hoisting support

Technical Field

The utility model relates to the technical field of lifting support equipment, in particular to an assembled building inclined roof inclined lifting support.

Background

The assembled building is formed by transferring a large amount of field operation work in the traditional building mode to a factory, processing and manufacturing building components and accessories (such as floors, wallboards, stairs, balconies and the like) in the factory, transporting to a building construction site, and assembling and installing the building on site in a reliable connection mode.

However, the lifting hook position of the conventional lifting device is not easy to adjust when the conventional lifting device is used, and the best balance position cannot be found when the prefabricated members of different types which are wider or narrower are lifted.

The prior application number is: 202220349270.3, an assembled building lifting device comprises a cross beam, wherein a lifting device is fixedly arranged in the middle of the upper end of the cross beam, and an adjusting mechanism is arranged at the lower end of the cross beam and comprises a chute, a sliding block and a screw rod; this document suffers from the following disadvantages: when the position of the lifting hook needs to be adjusted, the screw rod is rotated through the handle, so that the sliding blocks can be driven to reversely move through the screw rod, the distance between the lifting hooks can be close to a wall body with narrow adaptation to lift, meanwhile, the distance between the lifting hooks can be far to adapt to a wall body with far adaptation to lift, but the adjustment in the process is that the two sliding blocks are driven to reversely move through the same screw rod, so that when the movement of the two sliding blocks is synchronously performed, the lifting and lifting of the prefabricated members with different sizes are limited, and when the irregular prefabricated members are lifted and lifted, the gravity center of the irregular prefabricated members cannot be located at the center line position of the lifting support.

Disclosure of Invention

In view of the above problems, an object of the present utility model is to: the utility model provides an assembled building oblique roof slope hoist and mount support, the solution is because drive two sliders through same screw rod and remove to opposite direction, therefore when the removal of two sliders is synchronous, hoist and mount to not unidimensional assembled prefab like this is lifted and is had the limitation, when lifting to irregular assembled prefab, can't make its focus lie in the central line position of hoist and mount support, when needing the distance between first lifting hook and the second lifting hook to adjust, the linear motion of connecting block is realized through the operation of first motor and second motor, and then can realize the adjustment to the distance between first lifting hook and the second lifting hook through adjusting the distance between two connecting blocks, thereby can hoist and mount the prefabricated prefab of equidimension, and make its focus lie in the problem of the central line position of hoist and mount support.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides an assembled building oblique roof slope hoist and mount support, includes the support curb plate, the top of supporting the curb plate is connected with oblique hoist and mount support, the curb plate spout has been seted up to the inboard of supporting the curb plate, the one end of oblique hoist and mount support is connected with main pulley, auxiliary pulley respectively, the inboard of main pulley is provided with wire rope, wire rope's one end is connected with hoist and mount crossbeam, hoist and mount crossbeam's inner wall connection has the separation inner panel, hoist and mount crossbeam's inboard is provided with first motor, second motor, the output of first motor is connected with the shaft coupling, the one end that first motor output was kept away from to the shaft coupling is connected with the connecting axle, the one end that the shaft coupling was kept away from to the connecting axle is connected with the threaded rod, hoist and mount crossbeam's inner wall connection has the location curb plate, the one end that the shaft coupling was kept away from to the location curb plate is connected with the locating lever, the outer lane of locating lever is connected with the slip fixture block, the lower bottom surface connection of slip fixture block has the connecting block, the one end that the lifting hook kept away from the slip fixture block is connected with the steel rope, the one end that the lifting hook kept away from is connected with first lifting hook, second lifting hook, the one end that the lifting hook kept away from respectively, the one end that the side of hoist and mount crossbeam is connected with the side bar, the side bar is kept away from firmly and firmly, the connecting the side bar has the side bar.

The beneficial effects of the utility model are as follows: when the distance between first lifting hook and the second lifting hook needs to be adjusted, the linear motion of connecting block is realized through the operation of first motor and second motor, and then can realize the adjustment to the distance between first lifting hook and the second lifting hook through adjusting the distance between two connecting blocks, thereby can hoist and mount the promotion to not unidimensional assembled prefab, and make its focus be located the central line position of hoist and mount support, through the setting of curb plate spout, be used for rolling the gliding passageway of wheel, through the setting of firm fixture block, be used for hoist and mount crossbeam and be connected of wheel, through the setting of wheel, be used for improving the steadiness that hoist and mount crossbeam was hoisted and promoted.

In order to improve the stability of the oblique hoisting support:

as a further improvement of the above technical scheme: the two oblique hoisting brackets are symmetrically arranged, and one end, close to the oblique hoisting brackets, of each oblique hoisting bracket is connected with a stable cross rod.

The beneficial effects of this improvement are: when the device is used, the supporting side plates are connected with the shear wall of the building through the connecting piece, the main pulleys and the auxiliary pulleys are fixed through the setting of the oblique hoisting support, and the stability of the oblique hoisting support is improved through the setting of the stable cross rod.

In order to hoist and mount the crossbeam and be gradually by hoist and mount promotion under wire rope's drive:

as a further improvement of the above technical scheme: the number of the main pulleys and the number of the auxiliary pulleys are two, steel wire ropes are arranged on the inner sides of the main pulleys and the auxiliary pulleys, four steel wire ropes are arranged in total, the four steel wire ropes are connected with the hoisting cross beam through connecting pieces, and one ends, far away from the hoisting cross beam, of the four steel wire ropes are connected with the wire winding roller.

The beneficial effects of this improvement are: when the wire winding roller is started to work, the wire winding roller rotates and winds the steel wire rope, and then the hoisting cross beam is gradually hoisted and lifted under the drive of the steel wire rope.

In order to drive the synchronous rotation of the threaded rod in the rotating process of the connecting shaft:

as a further improvement of the above technical scheme: the first motor and the second motor are electrically connected with the control panel, the output end of the second motor is connected with a coupler, two positioning side plates are arranged in total, the two positioning side plates are symmetrically arranged, and one end of the connecting shaft, far away from the coupler, penetrates through the positioning side plates and extends to be connected with the threaded rod.

The beneficial effects of this improvement are: after the first motor and the second motor are started to operate, the first motor and the second motor work and drive the corresponding connecting shaft to synchronously rotate through the coupler, and then the connecting shaft drives the threaded rod to synchronously rotate in the rotating process.

In order to drive the linear motion of connecting block through the slip fixture block:

as a further improvement of the above technical scheme: the threaded rod and the positioning rod are both provided with two pieces, the positioning rod is connected to the position between the separation inner plate and the positioning side plate, the threaded rod is in threaded rotation connection with the sliding clamping block, the positioning rod is movably connected with the sliding clamping block, and one end of the threaded rod, far away from the connecting shaft, is in rotation connection with the separation inner plate through the connecting piece.

The beneficial effects of this improvement are: when the threaded rod rotates under the drive of the connecting shaft, the sliding clamping block moves linearly under the combined action of the threaded rod and the positioning rod, and then the sliding clamping block can drive the connecting block to move linearly.

In order to be able to hoist and lift assembled prefabricated parts of different sizes:

as a further improvement of the above technical scheme: the connecting block is U type structure setting, the crossbeam draw-in groove has been seted up to hoist and mount the lower part wall of crossbeam, the crossbeam draw-in groove is the concave groove of rectangle structure, the crossbeam draw-in groove is provided with two altogether, two the connecting block all runs through the crossbeam draw-in groove and extends to be connected with corresponding slip fixture block, the size of connecting block and the size assorted of crossbeam draw-in groove.

The beneficial effects of this improvement are: when the distance between the first lifting hook and the second lifting hook needs to be adjusted, the linear motion of the connecting blocks is realized through the operation of the first motor and the second motor, and then the adjustment of the distance between the first lifting hook and the second lifting hook can be realized through adjusting the distance between the two connecting blocks, so that the prefabricated members with different sizes can be lifted in a lifting mode, and the gravity center of the prefabricated members is located at the center line position of the lifting support.

In order to improve the stability of lifting the lifting beam by lifting:

as a further improvement of the above technical scheme: the number of the connecting side rods is the same as that of the rolling wheels, and the size of the rolling wheels is matched with that of the side plate sliding grooves.

The beneficial effects of this improvement are: through the setting of curb plate spout for roll the wheel and carry out gliding passageway, through the setting of firm fixture block for hoist and mount crossbeam and roll the connection of wheel, through the setting of roll the wheel, be used for improving the steadiness that hoist and mount crossbeam was hoisted and promoted.

Drawings

Fig. 1 is a schematic side view of the present utility model.

Fig. 2 is an enlarged schematic view of the structure at a in fig. 1.

Fig. 3 is a schematic cross-sectional structure of the lifting beam of the utility model.

Fig. 4 is an enlarged schematic view of the structure at B in fig. 3.

Fig. 5 is a schematic perspective view of a lifting beam according to the present utility model.

Fig. 6 is a schematic perspective view of a support side plate according to the present utility model.

Fig. 7 is a schematic perspective view of a support side plate according to the present utility model.

In the figure: 1. supporting the side plates; 2. obliquely hoisting the bracket; 3. stabilizing the cross bar; 4. a side plate chute; 5. a main pulley; 6. a wire rope; 7. hoisting the cross beam; 8. a partition inner plate; 9. a first motor; 10. a coupling; 11. a connecting shaft; 12. a threaded rod; 13. a positioning rod; 14. positioning a side plate; 15. a beam clamping groove; 16. sliding the clamping block; 17. a connecting block; 18. a hook steel rope; 19. a first hook; 20. a second motor; 21. a second hook; 22. stabilizing the clamping block; 23. connecting side rods; 24. a rolling wheel; 25. and a secondary pulley.

Detailed Description

In order that those skilled in the art may better understand the technical solutions of the present utility model, the following detailed description of the present utility model with reference to the accompanying drawings is provided for exemplary and explanatory purposes only and should not be construed as limiting the scope of the present utility model.

Example 1:

as shown in fig. 1-7, an assembled building pitched roof slope hoist and mount support, including supporting curb plate 1, the top of supporting curb plate 1 is connected with oblique hoist and mount support 2, curb plate spout 4 has been seted up to the inboard of supporting curb plate 1, the one end of oblique hoist and mount support 2 is connected with master pulley 5, auxiliary pulley 25 respectively, the inboard of master pulley 5 is provided with wire rope 6, the one end of wire rope 6 is connected with hoist and mount crossbeam 7, the inner wall of hoist and mount crossbeam 7 is connected with and separates inner panel 8, the inboard of hoist and mount crossbeam 7 is provided with first motor 9, second motor 20, the output of first motor 9 is connected with shaft coupling 10, the one end that shaft coupling 10 kept away from first motor 9 output is connected with connecting axle 11, the one end that shaft coupling 10 was kept away from to connecting axle 11 is connected with threaded rod 12, the inner wall connection of hoist and mount crossbeam 7 has location curb plate 14, the one end that location curb plate 14 kept away from 10 is connected with locating lever 13, the outer lane of locating lever 13 is connected with slide fixture 16, the bottom surface connection of fixture block 16 has a division inner wall connection, 17, the lifting hook 17 that is kept away from 17, one end that hook 17 is kept away from 22 is kept away from to the side bar 22 is kept away from to the side of connecting block 23, the one end that is connected with two steady and is kept away from 7, and is connected with two end connection pieces of connecting block 22, 18, and that is kept away from 21 firmly the connecting block 22.

Example 2:

as shown in fig. 1, fig. 3 and fig. 6, as a further optimization of the above embodiment, an assembled building pitched roof oblique hoisting bracket comprises a supporting side plate 1, the top of the supporting side plate 1 is connected with a pitched hoisting bracket 2, the inner side of the supporting side plate 1 is provided with a side plate chute 4, one end of the pitched hoisting bracket 2 is respectively connected with a main pulley 5 and a secondary pulley 25, the inner side of the main pulley 5 is provided with a steel wire rope 6, one end of the steel wire rope 6 is connected with a hoisting cross beam 7, the inner wall of the hoisting cross beam 7 is connected with a separation inner plate 8, the inner side of the hoisting cross beam 7 is provided with a first motor 9 and a second motor 20, the output end of the first motor 9 is connected with a coupling 10, one end of the coupling 10 far from the output end of the first motor 9 is connected with a connecting shaft 11, one end of the coupling 11 far from the coupling 10 is connected with a threaded rod 12, the inner wall of the hoisting cross beam 7 is connected with a positioning side plate 14, one end of the positioning side plate 14 far from the coupling 10 is connected with a positioning rod 13, one end of the positioning rod 13 is connected with a lifting hook 16, one end of the lifting hook 16 is connected with a sliding block 16, one end of the lifting hook 17 far from the second side rod 17 is connected with a side rod 22, one end of the side block is far from the second end of the coupling block is connected with a stable pulley 17, and the side block is connected with a side block 17, one end is far from the side block is far from the second end is connected with a side rod 17, and the side block is far from the side rod is connected with a stable connecting block is far from the connecting block 17; the two oblique hoisting brackets 2 are arranged in a symmetrical manner, and the two oblique hoisting brackets 2 are connected with a stable cross rod 3 at one end, close to each other, of each oblique hoisting bracket 2.

Example 3:

as shown in fig. 1 and 2, as a further optimization of the above embodiment, an assembled building oblique roof oblique hoisting bracket comprises a supporting side plate 1, wherein the top of the supporting side plate 1 is connected with an oblique hoisting bracket 2, the inner side of the supporting side plate 1 is provided with a side plate chute 4, one end of the oblique hoisting bracket 2 is respectively connected with a main pulley 5 and a secondary pulley 25, the inner side of the main pulley 5 is provided with a steel wire rope 6, one end of the steel wire rope 6 is connected with a hoisting beam 7, the inner wall of the hoisting beam 7 is connected with a separation inner plate 8, the inner side of the hoisting beam 7 is provided with a first motor 9 and a second motor 20, the output end of the first motor 9 is connected with a coupling 10, one end of the coupling 10 far away from the output end of the first motor 9 is connected with a connecting shaft 11, the connecting shaft 11 is connected with a threaded rod 12 at one end far away from the coupler 10, the inner wall of the lifting beam 7 is connected with a positioning side plate 14, one end of the positioning side plate 14 far away from the coupler 10 is connected with a positioning rod 13, the outer ring of the positioning rod 13 is connected with a sliding clamping block 16, the lower bottom surface of the sliding clamping block 16 is connected with a connecting block 17, one end of the connecting block 17 far away from the sliding clamping block 16 is connected with a lifting hook steel rope 18, one end of the lifting hook steel rope 18 far away from the connecting block 17 is respectively connected with a first lifting hook 19 and a second lifting hook 21, one end of the lifting beam 7 near the supporting side plate 1 is connected with a stable clamping block 22, one end of the stable clamping block 22 far away from the lifting beam 7 is connected with a connecting side rod 23, and one end of the connecting side rod 23 far away from the stable clamping block 22 is connected with a rolling wheel 24; the number of the main pulleys 5 and the auxiliary pulleys 25 is two, steel wire ropes 6 are arranged on the inner sides of the main pulleys 5 and the auxiliary pulleys 25, four steel wire ropes 6 are arranged in total, the four steel wire ropes 6 are connected with the hoisting cross beam 7 through connecting pieces, and one ends, far away from the hoisting cross beam 7, of the four steel wire ropes 6 are connected with a wire collecting roller.

Example 4:

as shown in fig. 1, fig. 3 and fig. 4, as a further optimization of the above embodiment, an assembled building pitched roof oblique hoisting bracket comprises a supporting side plate 1, the top of the supporting side plate 1 is connected with a pitched hoisting bracket 2, the inner side of the supporting side plate 1 is provided with a side plate chute 4, one end of the pitched hoisting bracket 2 is respectively connected with a main pulley 5 and a secondary pulley 25, the inner side of the main pulley 5 is provided with a steel wire rope 6, one end of the steel wire rope 6 is connected with a hoisting cross beam 7, the inner wall of the hoisting cross beam 7 is connected with a separation inner plate 8, the inner side of the hoisting cross beam 7 is provided with a first motor 9 and a second motor 20, the output end of the first motor 9 is connected with a coupling 10, one end of the coupling 10 far from the output end of the first motor 9 is connected with a connecting shaft 11, one end of the coupling 11 far from the coupling 10 is connected with a threaded rod 12, the inner wall of the hoisting cross beam 7 is connected with a positioning side plate 14, one end of the positioning side plate 14 far from the coupling 10 is connected with a positioning rod 13, one end of the positioning rod 13 is connected with a lifting hook 16, one end of the lifting hook 16 is connected with a sliding block 16, one end of the lifting hook 17 far from the second side rod 17 is connected with a side rod 22, one end of the side block is far from the second end of the coupling block is connected with a stable pulley 17, and the side block is connected with a side block 17, one end is far from the side block is far from the second end is connected with a side rod 17, and the side block is far from the side rod is connected with a stable connecting block is connected with a connecting block 18; the first motor 9 and the second motor 20 are electrically connected with the control panel, the output end of the second motor 20 is connected with the coupler 10, two positioning side plates 14 are arranged, the two positioning side plates 14 are symmetrically arranged, and one end of the connecting shaft 11, far away from the coupler 10, penetrates through the positioning side plates 14 and extends to be connected with the threaded rod 12.

Example 5:

as shown in fig. 3 and 4, as a further optimization of the above embodiment, an assembled building oblique roof oblique hoisting bracket comprises a supporting side plate 1, wherein the top of the supporting side plate 1 is connected with an oblique hoisting bracket 2, the inner side of the supporting side plate 1 is provided with a side plate chute 4, one end of the oblique hoisting bracket 2 is respectively connected with a main pulley 5 and a secondary pulley 25, the inner side of the main pulley 5 is provided with a steel wire rope 6, one end of the steel wire rope 6 is connected with a hoisting beam 7, the inner wall of the hoisting beam 7 is connected with a separation inner plate 8, the inner side of the hoisting beam 7 is provided with a first motor 9 and a second motor 20, the output end of the first motor 9 is connected with a coupling 10, one end of the coupling 10 far away from the output end of the first motor 9 is connected with a connecting shaft 11, the connecting shaft 11 is connected with a threaded rod 12 at one end far away from the coupler 10, the inner wall of the lifting beam 7 is connected with a positioning side plate 14, one end of the positioning side plate 14 far away from the coupler 10 is connected with a positioning rod 13, the outer ring of the positioning rod 13 is connected with a sliding clamping block 16, the lower bottom surface of the sliding clamping block 16 is connected with a connecting block 17, one end of the connecting block 17 far away from the sliding clamping block 16 is connected with a lifting hook steel rope 18, one end of the lifting hook steel rope 18 far away from the connecting block 17 is respectively connected with a first lifting hook 19 and a second lifting hook 21, one end of the lifting beam 7 near the supporting side plate 1 is connected with a stable clamping block 22, one end of the stable clamping block 22 far away from the lifting beam 7 is connected with a connecting side rod 23, and one end of the connecting side rod 23 far away from the stable clamping block 22 is connected with a rolling wheel 24; the threaded rod 12 and the positioning rod 13 are both provided with two pieces, the positioning rod 13 is connected at a position between the separation inner plate 8 and the positioning side plate 14, the threaded rod 12 is in threaded rotation connection with the sliding clamping block 16, the positioning rod 13 is movably connected with the sliding clamping block 16, and one end of the threaded rod 12 far away from the connecting shaft 11 is in rotation connection with the separation inner plate 8 through a connecting piece.

Example 6:

as shown in fig. 5, as a further optimization of the above embodiment, an assembled building oblique roof oblique hoisting bracket comprises a supporting side plate 1, wherein the top of the supporting side plate 1 is connected with an oblique hoisting bracket 2, the inner side of the supporting side plate 1 is provided with a side plate chute 4, one end of the oblique hoisting bracket 2 is respectively connected with a main pulley 5 and a secondary pulley 25, the inner side of the main pulley 5 is provided with a steel wire rope 6, one end of the steel wire rope 6 is connected with a hoisting beam 7, the inner wall of the hoisting beam 7 is connected with a separation inner plate 8, the inner side of the hoisting beam 7 is provided with a first motor 9 and a second motor 20, the output end of the first motor 9 is connected with a coupling 10, one end of the coupling 10 far away from the output end of the first motor 9 is connected with a connecting shaft 11, the connecting shaft 11 is connected with a threaded rod 12 at one end far away from the coupler 10, the inner wall of the lifting beam 7 is connected with a positioning side plate 14, one end of the positioning side plate 14 far away from the coupler 10 is connected with a positioning rod 13, the outer ring of the positioning rod 13 is connected with a sliding clamping block 16, the lower bottom surface of the sliding clamping block 16 is connected with a connecting block 17, one end of the connecting block 17 far away from the sliding clamping block 16 is connected with a lifting hook steel rope 18, one end of the lifting hook steel rope 18 far away from the connecting block 17 is respectively connected with a first lifting hook 19 and a second lifting hook 21, one end of the lifting beam 7 near the supporting side plate 1 is connected with a stable clamping block 22, one end of the stable clamping block 22 far away from the lifting beam 7 is connected with a connecting side rod 23, and one end of the connecting side rod 23 far away from the stable clamping block 22 is connected with a rolling wheel 24; the connecting blocks 17 are arranged in a U-shaped structure, the lower wall body of the lifting beam 7 is provided with beam clamping grooves 15, the beam clamping grooves 15 are concave grooves of rectangular structures, the number of the beam clamping grooves 15 is two, the two connecting blocks 17 penetrate through the beam clamping grooves 15 and extend to be connected with corresponding sliding clamping blocks 16, and the size of the connecting blocks 17 is matched with that of the beam clamping grooves 15.

Example 7:

as shown in fig. 7, as a further optimization of the above embodiment, an assembled building pitched roof tilting bracket comprises a supporting side plate 1, the top of the supporting side plate 1 is connected with a pitched lifting bracket 2, the inner side of the supporting side plate 1 is provided with a side plate chute 4, one end of the pitched lifting bracket 2 is respectively connected with a main pulley 5 and a secondary pulley 25, the inner side of the main pulley 5 is provided with a steel wire rope 6, one end of the steel wire rope 6 is connected with a lifting cross beam 7, the inner wall of the lifting cross beam 7 is connected with a separation inner plate 8, the inner side of the lifting cross beam 7 is provided with a first motor 9 and a second motor 20, the output end of the first motor 9 is connected with a coupling 10, one end of the coupling 10 far from the output end of the first motor 9 is connected with a connecting shaft 11, one end of the connecting shaft 11 far from the coupling 10 is connected with a threaded rod 12, the inner wall of the lifting cross beam 7 is connected with a positioning side plate 14, one end of the positioning side plate 14 far from the coupling 10 is connected with a positioning rod 13, one end of the positioning rod 13 is connected with a sliding clamping block 16, the bottom surface 16 of the steel wire rope is connected with a lifting hook 16, one end of the lifting hook 17 far from the side rod 17 is connected with a side rod 22 far from the connecting block 22, one end of the side rod is far from the connecting block 18 is connected with a side rod 22, one end of the side rod is far from the connecting block 18, and the side rod is far from the connecting block is far from the connecting rod 18 is far from the connecting rod 18; the number of the connecting side rods 23 is the same as the number of the rolling wheels 24, and the size of the rolling wheels 24 is matched with the size of the side plate sliding grooves 4.

The working principle of the utility model is as follows: when the device is used, the supporting side plate 1 is connected with a shear wall of a building through a connecting piece, the supporting side plate 1 is used for fixing the main pulley 5 and the auxiliary pulley 25 through the arrangement of the oblique hoisting support 2, the stability of the oblique hoisting support 2 is improved through the arrangement of the stable cross rod 3, when the distance between the first lifting hook 19 and the second lifting hook 21 needs to be adjusted, after the operation of the first motor 9 and the second motor 20 is started, the first motor 9 and the second motor 20 work and drive the corresponding connecting shaft 11 to synchronously rotate through the coupler 10, then the connecting shaft 11 drives the threaded rod 12 to synchronously rotate in the rotating process, when the threaded rod 12 rotates under the drive of the connecting shaft 11, the sliding clamping block 16 moves linearly under the combined action of the threaded rod 12 and the positioning rod 13, and further the linear motion of the connecting block 17 can be driven through the sliding clamping block 16, the linear motion of the connecting block 17 is realized through the operation of the first motor 9 and the second motor 20, and further, the adjustment of the distance between the two connecting blocks 17 can be realized through the adjustment of the distance between the two connecting blocks 17, thereby, the assembled prefabricated members with different sizes can be lifted by lifting, the gravity center of the assembled prefabricated members is positioned at the central line position of the lifting bracket, when the wire receiving roller is opened to work, the wire receiving roller rotates and receives the wire rope 6, then the lifting beam 7 is lifted by lifting gradually under the driving of the wire rope 6, the channel for sliding the rolling wheel 24 is arranged through the arrangement of the side plate sliding groove 4, the connection between the lifting beam 7 and the rolling wheel 24 is realized through the arrangement of the stabilizing clamping block 22, the stability of the lifting beam 7 by lifting is improved through the arrangement of the rolling wheel 24, the purpose of lifting the lifting beam 7 by lifting is achieved through the wire receiving roller and the wire rope 6, the related principles of the wire winding roller and the lifting beam 7 related to the structure are the prior art disclosed, the components are all universal standard components or components known to the skilled person, and the structure and the principles are all known to the skilled person through technical manuals or through routine experimental methods.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. The foregoing is merely illustrative of the preferred embodiments of the utility model, and it is noted that there is virtually no limit to the specific structure which may be imposed by those skilled in the art without departing from the spirit of the utility model, and that modifications, adaptations, or variations of the foregoing features may be combined in a suitable manner; such modifications, variations and combinations, or the direct application of the inventive concepts and aspects to other applications without modification, are contemplated as falling within the scope of the present utility model.

Claims (7)

1. The utility model provides an assembled building oblique roof slope hoist and mount support, includes support curb plate (1), its characterized in that: the top of supporting curb plate (1) is connected with oblique hoist and mount support (2), curb plate spout (4) have been seted up to the inboard of supporting curb plate (1), the one end of oblique hoist and mount support (2) is connected with main pulley (5), vice pulley (25) respectively, the inboard of main pulley (5) is provided with wire rope (6), the one end of wire rope (6) is connected with hoist and mount crossbeam (7), the inner wall connection of hoist and mount crossbeam (7) has separate inner panel (8), the inboard of hoist and mount crossbeam (7) is provided with first motor (9), second motor (20), the output of first motor (9) is connected with shaft coupling (10), the one end that first motor (9) output was kept away from to shaft coupling (10) is connected with connecting axle (11), the one end that shaft coupling (10) was kept away from to connecting axle (11) is connected with threaded rod (12), the inner wall connection of hoist and mount crossbeam (7) has location curb plate (14), the one end that shaft coupling (10) was kept away from to location curb plate (14) is connected with locating lever (13), the bottom surface (16) is connected with low-slip joint block (16), one end that slide fixture block (16) was kept away from to connecting block (17) is connected with lifting hook wire rope (18), one end that connecting block (17) was kept away from to lifting hook wire rope (18) is connected with first lifting hook (19), second lifting hook (21) respectively, the one end that lifting cross beam (7) are close to support curb plate (1) is connected with firm fixture block (22), the one end that lifting cross beam (7) was kept away from to firm fixture block (22) is connected with and connects side lever (23), the one end that connecting side lever (23) kept away from firm fixture block (22) is connected with roll wheel (24).

2. The fabricated building pitched roof tilt hoist bracket of claim 1, wherein: the two oblique hoisting supports (2) are symmetrically arranged, and one ends, close to the oblique hoisting supports (2), of the two oblique hoisting supports (2) are connected with a stable cross rod (3).

3. The fabricated building pitched roof tilt hoist bracket of claim 1, wherein: the number of the main pulleys (5) and the number of the auxiliary pulleys (25) are two, steel wire ropes (6) are arranged on the inner sides of the main pulleys (5) and the auxiliary pulleys (25), the steel wire ropes (6) are four in number, the steel wire ropes (6) are connected with the hoisting cross beam (7) through connecting pieces, and one ends, far away from the hoisting cross beam (7), of the steel wire ropes (6) are connected with a wire collecting roller.

4. The fabricated building pitched roof tilt hoist bracket of claim 1, wherein: the utility model discloses a motor, including motor, control panel, location curb plate (14), first motor (9) and second motor (20) all with control panel electric connection, the output of second motor (20) is connected with shaft coupling (10), location curb plate (14) are provided with two altogether, two location curb plate (14) symmetry sets up, one end that shaft coupling (10) were kept away from to connecting axle (11) runs through location curb plate (14) and extends to be connected with threaded rod (12).

5. The fabricated building pitched roof tilt hoist bracket of claim 1, wherein: the utility model discloses a novel structure of a vehicle, including inner panel (8) and location curb plate (14), threaded rod (12) and locating lever (13) all are provided with two, location lever (13) are connected in the position between separating inner panel (8) and location curb plate (14), threaded rod (12) and slip fixture block (16) screw thread rotation are connected, location lever (13) and slip fixture block (16) swing joint, one end that connecting axle (11) was kept away from to threaded rod (12) is connected with separating inner panel (8) rotation through the connecting piece.

6. The fabricated building pitched roof tilt hoist bracket of claim 1, wherein: the connecting block (17) is U-shaped structure setting, crossbeam draw-in groove (15) have been seted up to the lower part wall body of hoist and mount crossbeam (7), crossbeam draw-in groove (15) are the concave groove of rectangle structure, crossbeam draw-in groove (15) are provided with two altogether, and two connecting block (17) all run through crossbeam draw-in groove (15) and extend to be connected with corresponding slip fixture block (16), the size of connecting block (17) and the size assorted of crossbeam draw-in groove (15).

7. The fabricated building pitched roof tilt hoist bracket of claim 1, wherein: the four connecting side rods (23) are arranged in total, every two connecting side rods (23) are in a group, the number of the connecting side rods (23) is the same as that of the rolling wheels (24), and the size of the rolling wheels (24) is matched with that of the side plate sliding grooves (4).

Images