CN220580533U - Top beam supporting device with anti-tilting structure - Google Patents

Abstract

The utility model relates to the technical field of top beam support and discloses a top beam support device with an anti-tilting structure, which comprises a chassis, wherein grooves are formed in four corners of the chassis, protective columns are welded above the chassis, the protective columns are provided with the grooves, and the top beam support device with the anti-tilting structure keeps the gravity center of the device on the same horizontal plane through the positioning structure, so that the device is prevented from tilting and falling down due to uneven pavement in the moving process, the labor cost in the carrying process of the device is reduced, the safety of workers in the transporting process is ensured, the labor cost is reduced, and potential safety hazards are eliminated. According to the top beam supporting device with the anti-tilting structure, by arranging the additional auxiliary device, when the device cannot be removed and is required to be fixed semi-permanently, the device is fixed permanently at a place where the auxiliary device is arranged, so that the safety of workers is ensured, and the loss is reduced.

Description

Top beam supporting device with anti-tilting structure

Technical Field

The utility model relates to the technical field of top beam support, in particular to a top beam support device with an anti-tilting structure.

Background

In the building construction process, the top beam of the building needs to be built, the steel bars are usually fixed, then the frame is built around the outer sides of the steel bars, the width and the height of the frame need to be measured in advance according to design drawings, the outer sides and the bottom ends of the frame are supported by supporting devices, then concrete is poured into the frame, a large number of supporting devices are needed in the building construction process, but in the process of transporting the supporting devices from a construction site warehouse to a construction site, the ground is uneven because the ground is temporarily built, a large amount of manpower is needed because the devices can be tilted in the transportation process, the interlocking tilting caused by the tilting of the devices can occur when the devices arrive at the site, economic loss or personnel injury can be caused, and the top beam stability can be improved because the devices need to be semi-permanently fixed in the supporting process.

Disclosure of Invention

The utility model aims to provide a top beam supporting device with an anti-tilting structure, so as to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a back timber strutting arrangement with prevent slope structure, includes the chassis, the chassis four corners is provided with the recess, chassis top welding has the guard post, the guard post is provided with the recess, the guard post is provided with the cavity, the inside bottom welding of guard post recess has the hydraulic press, the contact of hydraulic press top has the support column, the support column is provided with the recess, the support column top is provided with clamping structure, the inside location structure that is provided with of guard post, location structure includes: the adjusting ball rolls on the surface of the chassis, the adjusting ball rolls in the middle of the groove at the bottom of the chassis and the groove at the bottom of the protective column, one end of a first contact rod is welded on the adjusting plate, the first contact rod is far away from the inner wall of the groove at the bottom of the protective column and is abutted against the rotating column, the rotating column is hinged on the protective column, a first spring is welded on the adjusting plate, the first spring is welded on the inner wall of the groove at the bottom of the protective column, a second contact rod is abutted against the second contact rod, the second contact rod penetrates through the inner wall of the cavity of the protective column, an impact plate is welded on the second contact rod, a second spring is welded on the impact plate, a gravity hammer is welded on the inner wall of the cavity of the protective column, the gravity hammer is arranged on the bottom of the cavity of the protective column in a clamping mode, the gravity hammer and the adjusting ball are respectively arranged around the rotating column, and the gravity hammer drives the device to push the adjusting ball to move, and the gravity hammer is adjusted.

Preferably, the chassis groove inner wall is provided with an L-shaped chute, the chute on the chassis groove inner wall is slidably connected with a connecting column, the connecting column is provided with a groove, and the connecting column groove inner wall is connected with a tire in a switching manner, so that the device can move conveniently.

Preferably, the chassis is provided with bolt holes for permanent fixing of the device.

Preferably, the clamping structure comprises: the supporting plate, the supporting plate welding is on the support column, the supporting plate is provided with the recess, supporting plate recess bottom is provided with the spout, articulated on the supporting plate recess inner wall have the connecting rod, the welding has the spring three on the supporting plate recess bottom spout inner wall, supporting plate recess bottom spout sliding connection has clamping lever one, clamping lever one welds there is clamping lever two, clamping lever two is provided with the spout, connecting rod sliding connection is in clamping lever two's spout, clamping lever one articulates there is the conflict dish, clamping lever one welds there is the spring three, supporting plate recess bottom welding has the spring four, the welding has the auxiliary disc on the clamping lever two, conveniently supports the back timber.

Preferably, the support column groove is slidably connected with an auxiliary plate welded to the protective column to provide permanent fixing of the device.

Preferably, the abutting plate is cylindrical, the auxiliary plate is cuboid, and the shape is convenient to use.

Compared with the prior art, the utility model provides the top beam supporting device with the anti-tilting structure, which has the following beneficial effects:

1. this roof beam strutting arrangement with prevent slope structure has through setting up location structure, keeps the focus of device on the same horizontal plane to guaranteed that the device can not lead to the device slope to fall to the ground because of the unevenness on road surface in the removal in-process, in this in-process, reduced because the human cost that the device handling in-process used, guaranteed workman's safety in the transportation, thereby reduced the human cost, got rid of the potential safety hazard.

2. According to the top beam supporting device with the anti-tilting structure, by arranging the additional auxiliary device, when the device cannot be removed and is required to be fixed semi-permanently, the device is fixed permanently at a place where the auxiliary device is arranged, so that the safety of workers is ensured, and the loss is reduced.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of a positioning structure according to the present utility model;

FIG. 3 is a schematic view of the inner wall structure of the protective column according to the present utility model;

FIG. 4 is a schematic view of a clamping structure according to the present utility model;

FIG. 5 is a schematic view of the structure of the auxiliary plate of the present utility model.

In the figure: 1. a chassis; 2. a connecting column; 3. a tire; 4. bolt holes; 5. a support column; 6. a support plate; 7. an auxiliary disc; 8. a protective column; 9. a positioning structure; 901. adjusting the ball; 902. an adjustment plate; 903. a first spring; 904. a first contact lever; 905. a spin column; 906. a second contact rod; 907. a second spring; 908. a center of gravity hammer; 909. an impingement plate; 10. a clamping structure; 1001. a connecting rod; 1002. a third spring; 1003. a clamping rod II; 1004. a collision plate; 1005. a spring IV; 1006. a clamping rod I; 11. a hydraulic device; 12. and an auxiliary plate.

Detailed Description

As shown in fig. 1-5, the present utility model provides a technical solution: the utility model provides a back timber strutting arrangement with prevent slope structure, including chassis 1, be provided with bolt hole 4 on chassis 1, chassis 1 four corners is provided with the recess, be provided with L type spout on the chassis 1 recess inner wall, spout sliding connection on the chassis 1 recess inner wall has spliced pole 2, be provided with the recess on the spliced pole 2 recess inner wall, the switching has tire 3 on the chassis 1 top welding has guard post 8, guard post 8 is provided with the recess, guard post 8 is provided with the cavity, the inside bottom welding of guard post 8 recess has hydraulic press 11, hydraulic press 11 top contact has support column 5, support column 5 recess sliding connection has auxiliary plate 12, auxiliary plate 12 welds on guard post 8, support column 5 is provided with the recess, support column 5 top is provided with clamping structure 10, clamping structure 10 includes: the supporting plate 6, the welding of supporting plate 6 is on the support column 5, the supporting plate 6 is provided with the recess, supporting plate 6 recess bottom is provided with the spout, articulated on the supporting plate 6 recess inner wall have connecting rod 1001, the welding has spring three 1002 on the supporting plate 6 recess bottom spout inner wall, supporting plate 6 recess bottom spout sliding connection has clamping lever one 1006, clamping lever one 1006 welds there is clamping lever two 1003, clamping lever two 1003 is provided with the spout, connecting rod 1001 sliding connection is in the spout of clamping lever two 1003, clamping lever one 1006 articulates there is conflict dish 1004, clamping lever one 1006 welds there is spring three 1002, supporting plate 6 recess bottom welding has spring four 1005, welding has auxiliary disc 7 on the clamping lever two 1003, conflict dish 1004 is cylindrically, auxiliary disc 7 is the cuboid, the inside location structure 9 that is provided with of protection post 8, location structure 9 includes: the adjusting ball 901 rolls on the surface of the chassis 1, the adjusting ball 901 contacts with the middle of the bottom groove of the protection column 8 and slides with the adjusting plate 902, one end of the first contact rod 904 is welded on the adjusting plate 902, the first contact rod 904 penetrates through the inner wall of the bottom groove of the protection column 8, the other end of the first contact rod 904, which is far away from the adjusting plate 902, abuts against the rotating column 905, the rotating column 905 is hinged on the protection column 8, the first spring 903 is welded on the adjusting plate 902, the rotating column 905 abuts against the second contact rod 906, the second contact rod 906 penetrates through the inner wall of the cavity of the protection column 8, the second contact rod 906 is welded with the impact plate 909, the impact plate 909 contacts with the bottom of the cavity of the protection column 8 and slides at the bottom of the cavity, the second spring 907 is welded on the impact plate 909, the second spring 907 is welded on the inner wall of the cavity of the protection column 8, and the bottom of the cavity of the protection column 8 is clamped with the gravity center hammer 908.

In the utility model, when the device is used, the pushing device moves, if the device is inclined during the period, the gravity center hammer 908 moves towards the inclined direction and impacts the impact plate 909, so that the impact plate 909 moves backwards, the contact rod two 906 is pushed during the moving process, the contact rod two 906 pushes the rotating column 905 to rotate, the rotating column 905 drives the contact rod one 904 to move, the contact rod one 904 drives the adjusting plate 902 to move, the adjusting plate 902 drives the adjusting ball 901 to roll towards the opposite direction of the inclination of the device, and the gravity center of the adjusting device is always kept at one place, so that the device is prevented from falling down.

The foregoing utility model has been generally described in great detail, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, it is intended to cover modifications or improvements within the spirit of the inventive concepts.

Claims (6)

1. The utility model provides a back timber strutting arrangement with prevent slope structure, includes chassis (1), its characterized in that: chassis (1) four corners are provided with the recess, chassis (1) top welding has guard post (8), guard post (8) are provided with the recess, guard post (8) are provided with the cavity, the inside bottom welding of guard post (8) recess has hydraulic press (11), hydraulic press (11) top contact has support column (5), support column (5) are provided with the recess, support column (5) top is provided with clamping structure (10), guard post (8) inside is provided with location structure (9), location structure (9) include:

the adjusting ball (901), the adjusting ball (901) rolls on chassis (1) surface, contact and slip have adjusting plate (902) in the middle of chassis (1) surface and protection post (8) bottom recess, the welding has one end of contact rod (904) on adjusting plate (902), contact rod (904) runs through the inner wall of protection post (8) bottom recess, the other end that contact rod (904) kept away from adjusting plate (902) is contradicted on column (905), column (905) articulates on column (8), the welding has spring (903) on adjusting plate (902), spring (903) welding is on the inner wall of protection post (8) bottom recess, column (903) conflict has contact rod (906), contact rod (906) runs through the inner wall of protection post (8) cavity, contact rod (906) welding has striking plate (909), striking plate (909) contact is in the bottom of protection post (8) cavity and on cavity bottom slip board, spring (903) welding has center of gravity (907) on protection post (8) cavity (907) welding.

2. A roof rail support assembly having an anti-tilt structure according to claim 1, wherein: the novel tire is characterized in that an L-shaped chute is formed in the inner wall of the groove of the chassis (1), the chute on the inner wall of the groove of the chassis (1) is connected with a connecting column (2) in a sliding mode, a groove is formed in the connecting column (2), and a tire (3) is connected to the inner wall of the groove of the connecting column (2) in a switching mode.

3. A roof rail support assembly having an anti-tilt structure according to claim 1, wherein: the chassis (1) is provided with bolt holes (4).

4. A roof rail support assembly having an anti-tilt structure according to claim 1, wherein: the clamping structure (10) comprises:

the supporting plate (6), supporting plate (6) welding is on support column (5), supporting plate (6) are provided with the recess, supporting plate (6) recess bottom is provided with the spout, articulated on supporting plate (6) recess inner wall have connecting rod (1001), welding has spring three (1002) on supporting plate (6) recess bottom spout inner wall, supporting plate (6) recess bottom spout sliding connection has clamping lever one (1006), clamping lever one (1006) welding has clamping lever two (1003), clamping lever two (1003) are provided with the spout, connecting rod (1001) sliding connection is in the spout of clamping lever two (1003), clamping lever one (1006) articulates there is conflict dish (1004), clamping lever one (1006) welding has spring three (1002), supporting plate (6) recess bottom welding has spring four (1005), welding has auxiliary disc (7) on clamping lever two (1003).

5. A roof rail support assembly having an anti-tilt structure according to claim 1, wherein: the support column (5) is connected with an auxiliary plate (12) in a sliding mode, and the auxiliary plate (12) is welded on the protection column (8).

6. A roof rail support assembly having an anti-tilt mechanism as defined in claim 4, wherein: the abutting plate (1004) is cylindrical, and the auxiliary plate (7) is cuboid.