CN222140821U - Top beam plate of assembled building design support - Google Patents

Abstract

The utility model provides an assembled building design support top beam plate which comprises a sleeve column, wherein a lifting assembly is arranged in the sleeve column, a telescopic sleeve is arranged in the sleeve column, a mounting seat is arranged on the bottom wall of the sleeve column, a top plate is connected to the top end of the telescopic sleeve, a moving assembly is arranged on the side of the top plate and comprises two adjusting rods, an adjusting plate is connected between the two adjusting rods, a limiting sleeve is sleeved on the surface of the adjusting rod, two movable assemblies are respectively arranged on the surface of the sleeve column, and a supporting assembly is arranged on one side of the movable assemblies. According to the top beam plate of the prefabricated building design support, the two adjusting rods, the adjusting plates, the limiting sleeve and the movable assembly with the supporting assembly are arranged in the top plate, so that the supporting area of the prefabricated building can be increased when the prefabricated building is used for a high building, and the stability in supporting can be improved.

Description

Top beam plate of assembled building design support

Technical Field

The utility model relates to the field of assembled buildings, in particular to a top beam plate of an assembled building design support.

Background

The assembled building is formed by transferring a large amount of field operation work in a traditional building mode to a factory, processing and manufacturing building components and accessories in the factory, transporting to a building construction site, and assembling and installing on site through a reliable connection mode.

The prior assembled building can use a bracket top beam plate for supporting during installation, but the prior art provides a patent application with the publication number CN215407507U, through arranging an adjusting device, when the top beam plate body needs to be heightened, two inserted bars on the surface of the circular arc plate are firstly taken down, then a pull rod fixedly connected to the lower surface of the circular arc plate is pulled, the pull rod stretches a first spring fixedly connected to a circular ring, thereby driving the circular arc plate to slide along the surface of a sliding bracket, finally the pull rod is clamped into a buckle, thereby achieving the effect of fixing the circular arc plate, then a nut on the circular arc surface of a support is rotated, the nut moves upwards by virtue of threads, at the moment, the nut can slide upwards along the circular arc of the support, the upward movement of the sliding plate can drive the circular ring to move upwards, a clamping block fixedly connected to the inner ring surface of the circular ring can slide along the inner wall of a groove, wherein the grooves of the arc surfaces of the support posts and the clamping blocks on the inner walls of the grooves play a role in preventing the rotation of the circular rings, when the sliding plate moves upwards, the two supporting rods on the surface of the sliding plate drive the fixing plate to move upwards due to the movement of the sliding plate, the fixing plate moves upwards to drive the top beam plate body to move upwards, so that the effect of heightening the top beam plate body is achieved, finally, the pull rods are taken down from the clamping buckles, the tension springs can give the pull rods an elastic force, the two pull rods move towards the direction of approaching each other, the pull rods move to drive the two arc plates to move towards the direction of approaching each other, when the two arc plates are contacted with the support posts, the two inserting rods are inserted into the arc plates, so that the fixing effect is achieved, and the heightening of the top beam plate of the support is facilitated by setting the adjusting device, saving a lot of time, saving time and labor and improving the working efficiency.

However, for some raised buildings, the use area of the top beam plate of the whole bracket needs to be increased, but the current device cannot increase the use area of the top beam plate according to the use requirement.

Therefore, it is necessary to provide a roof beam slab for an assembled building design bracket to solve the above technical problems.

Disclosure of utility model

The utility model provides a support top beam plate for an assembled building design, which solves the problem that the using area of the top beam plate cannot be increased according to the using requirement of the existing device.

In order to solve the technical problems, the utility model provides an assembled building design support top beam plate, which comprises:

the lifting assembly is arranged in the sleeve column, the telescopic sleeve is arranged in the sleeve column and above the lifting assembly, and the mounting seat is arranged on the bottom wall of the sleeve column;

The top plate is connected to the top end of the telescopic sleeve;

The moving assembly is arranged at the side of the top plate and comprises two adjusting rods, an adjusting plate is connected between the two adjusting rods, and a limiting sleeve is sleeved on the surface of each adjusting rod;

the number of the movable components is two, and the two movable components are respectively arranged on the surface of the sleeve column;

the support component is arranged on one side of the movable component.

Preferably, the lifting assembly comprises a threaded rod, a threaded sleeve is connected to the surface of the threaded rod in a threaded mode, the threaded sleeve is connected with the bottom end of the telescopic sleeve, and a rotating wheel is arranged on the surface of the threaded rod.

Preferably, a limiting component is arranged between the threaded sleeve and the sleeve column, the limiting component comprises a limiting block, and a limiting groove matched with the limiting block is formed in the surface of the sleeve column.

Preferably, the movable assembly comprises a fixed rod, a movable sleeve is sleeved on the surface of the fixed rod, a fixed bolt is arranged in the movable sleeve, and positioning blocks are connected to two ends of the fixed rod.

Preferably, the support assembly comprises a support rod, two ends of the support rod are connected with rotating seats, and the rotating seats are respectively connected with the surface of the movable sleeve and the bottom of the adjusting plate.

Preferably, the adjusting plate and the top plate respectively with rotate the seat with be provided with first dismantlement subassembly and second respectively between the telescopic tube, first dismantlement subassembly is including dismantling the groove, dismantle the inside in groove and be provided with the dismantlement piece, dismantle the piece with be provided with first bolt between the adjusting plate.

Preferably, the second dismounting assembly comprises a dismounting plate, and a second bolt is arranged between the dismounting plate and the top plate.

Compared with the related art, the roof beam plate of the support for the assembled building design has the following beneficial effects:

The utility model provides a top beam plate of an assembled building design support, which is characterized in that two adjusting rods, adjusting plates, limiting sleeves and movable assemblies with supporting assemblies are arranged in a top plate for use, so that the supporting area of the assembled building can be increased when the assembled building is used for a high building, and the stability in supporting can be improved.

Drawings

FIG. 1 is a schematic view of a first embodiment of a roof beam panel of an assembled building design support according to the present utility model;

FIG. 2 is a schematic perspective view of the entire apparatus shown in FIG. 1;

FIG. 3 is an enlarged schematic view of portion A shown in FIG. 2;

FIG. 4 is an enlarged schematic view of portion B shown in FIG. 2;

FIG. 5 is an enlarged schematic view of portion C shown in FIG. 2;

FIG. 6 is a schematic diagram of a second embodiment of a roof beam panel of an assembled building design support according to the present utility model;

fig. 7 is an enlarged schematic view of the portion D shown in fig. 6.

In the figure, the reference numerals are 1, sleeve column, 2 and telescopic sleeve,

3. Lifting component 31, threaded rod 32, threaded sleeve 33 and rotating wheel,

4. The mounting seat is provided with a plurality of mounting holes,

5. The limiting component, 51, limiting blocks, 52 and limiting grooves,

6. A top plate, a bottom plate and a top plate,

7. A moving component 71, an adjusting rod 72, an adjusting plate 73 and a limiting sleeve,

8. A movable component 81, a fixed rod 82, a movable sleeve 83, a fixed bolt 84 and a positioning block,

9. A supporting component 91, a supporting rod 92 and a rotating seat,

10. A first dismounting assembly 101, a dismounting groove 102, a dismounting block 103, a first bolt,

11. A second dismounting assembly 111, a dismounting plate 112, a second bolt.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

Examples

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5 in combination, fig. 1 is a schematic structural diagram of a first embodiment of a roof beam slab of an assembled building design support, fig. 2 is a schematic structural diagram of the whole device shown in fig. 1, fig. 3 is an enlarged schematic view of a portion a shown in fig. 2, fig. 4 is an enlarged schematic view of a portion B shown in fig. 2, and fig. 5 is an enlarged schematic view of a portion C shown in fig. 2. An assembled architectural design bracket roof beam slab comprising:

The telescopic lifting device comprises a sleeve column 1, wherein a lifting assembly 3 is arranged in the sleeve column 1, a telescopic sleeve 2 is arranged in the sleeve column 1 and above the lifting assembly 3, and a mounting seat 4 is arranged on the bottom wall of the sleeve column 1;

A top plate 6, wherein the top plate 6 is connected to the top end of the telescopic sleeve 2;

The moving assembly 7 is arranged at the side of the top plate 6, the moving assembly 7 comprises two adjusting rods 71, an adjusting plate 72 is connected between the two adjusting rods 71, and a limiting sleeve 73 is sleeved on the surface of the adjusting rod 71;

The number of the movable assemblies 8 is two, and the two movable assemblies 8 are respectively arranged on the surface of the sleeve column 1;

A support assembly 9, wherein the support assembly 9 is arranged at one side of the movable assembly 8.

The lifting assembly 3 comprises a threaded rod 31, a threaded sleeve 32 is connected to the surface of the threaded rod 31 in a threaded mode, the threaded sleeve 32 is connected with the bottom end of the telescopic sleeve 2, and a rotating wheel 33 is arranged on the surface of the threaded rod 31.

The bottom of threaded rod 31 is rotated through the central point on rotation axis and mount pad 4 surface and is connected, threaded rod 31 and thread bush 32's use can drive telescopic tube 2 and reciprocate and adjust, the use of rotor 33 can drive threaded rod 31 and rotate, stopper 51 connects in one side of thread bush 32, stopper 51 and spacing groove 52's use can play spacing effect when threaded rod 31 drives thread bush 32 and reciprocate, during the use, when adjusting telescopic tube 2's upper and lower position, drive threaded rod 31 through rotor 33 and rotate, drive the thread bush 32 on surface and reciprocate when threaded rod 31 rotates, drive the stopper 51 of one side and reciprocate in the inside of spacing groove 52 when thread bush 32 reciprocates, drive roof 6 when telescopic tube 2 reciprocates, stop the rotation of rotor 33 after telescopic tube 2 drives roof 6 and moves to contact with the assembled building support.

A limiting component 5 is arranged between the threaded sleeve 32 and the sleeve column 1, the limiting component 5 comprises a limiting block 51, and a limiting groove 52 matched with the limiting block 51 is formed in the surface of the sleeve column 1.

The movable assembly 8 comprises a fixed rod 81, a movable sleeve 82 is sleeved on the surface of the fixed rod 81, a fixed bolt 83 is arranged in the movable sleeve 82, and positioning blocks 84 are connected to two ends of the fixed rod 81.

The use of the fixed rod 81 and the movable sleeve 82 can drive the support rod 91 to move.

The supporting component 9 comprises a supporting rod 91, two ends of the supporting rod 91 are connected with rotating seats 92, and the rotating seats 92 are respectively connected with the surface of the movable sleeve 82 and the bottom of the adjusting plate 72.

The working principle of the top beam plate of the fabricated building design bracket provided by the utility model is as follows:

When the adjusting device is used, when the using area of the top plate 6 is increased, firstly, the surface of the adjusting rod 71 is adjusted to a proper position through the rotating limiting sleeve 73, after the limiting sleeve 73 is adjusted to the proper position, the adjusting plate 72 is pulled to move to one side, when the adjusting plate 72 moves, the adjusting rod 71 is driven to move in the top plate 6, meanwhile, when the adjusting plate 72 moves, one rotating seat 92 drives the supporting rod 91 to move to one side, when the supporting rod 91 moves to one side, the other rotating seat 92 drives the movable sleeve 82 to move on the surface of the fixed rod 81, and when the adjusting plate 72 is pulled to the proper position, the fixing bolt 83 is used for penetrating through the movable sleeve 82 and connecting with the fixed rod 81.

Compared with the related art, the roof beam plate of the support for the assembled building design has the following beneficial effects:

the utility model provides a top beam plate of an assembled building design support, which is characterized in that two adjusting rods 71, an adjusting plate 72, a limiting sleeve 73 and a movable assembly 8 with a supporting assembly 9 are arranged in a top plate 6 for use, so that the supporting area of the assembled building can be increased when the assembled building is used for a high building, and the stability in supporting can be improved.

Examples

Referring to fig. 6 and 7 in combination, another top beam plate of an assembled building design support according to a first embodiment of the present application is provided. The second embodiment is merely a preferred manner of the first embodiment, and implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the second embodiment of the present application provides an assembled building design support top beam plate, which is different in that, in the assembled building design support top beam plate, a first disassembling component 10 and a second disassembling component 11 are respectively disposed between the adjusting plate 72 and the top plate 6 and between the rotating seat 92 and the telescopic sleeve 2, the first disassembling component 10 includes a disassembling groove 101, a disassembling block 102 is disposed in the disassembling groove 101, and a first bolt 103 is disposed between the disassembling block 102 and the adjusting plate 72.

A dismounting groove 101 is provided in the bottom of the adjustment plate 72, and a dismounting block 102 is connected to one of the swivel seats 92.

The second dismounting assembly 11 comprises a dismounting plate 111, and a second bolt 112 is arranged between the dismounting plate 111 and the top plate 6.

One end of the dismounting plate 111 is connected to the telescopic sleeve 2, and a second bolt 112 threadedly connects the dismounting plate 111 to the top plate 6.

The working principle of the top beam plate of the fabricated building design bracket provided by the utility model is as follows:

When the adjusting plate 72 is disassembled, the first bolt 103 between the adjusting plate 72 and the disassembling block 102 is taken out, and after the first bolt 103 is taken out, one of the rotating seats 92 is pulled to drive the disassembling block 102 to be separated from the disassembling groove 101.

When the top plate 6 is detached, the top plate 6 and the detaching plate 111 can be separated by taking out the second bolts 112 between the detaching plate 111 at the top end of the telescopic sleeve 2 and the top plate 5.

Compared with the related art, the roof beam plate of the support for the assembled building design has the following beneficial effects:

The utility model provides an assembled building design support top beam plate, which is characterized in that a first dismounting assembly 10 and a second dismounting assembly 11 are respectively arranged between an adjusting plate 72 and a top plate 6 and between a rotating seat 92 and a telescopic sleeve 2, so that the whole device can be conveniently and independently dismounted and placed when being carried.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. An assembled architectural design support roof beam slab, characterized in that includes:

the lifting assembly is arranged in the sleeve column, the telescopic sleeve is arranged in the sleeve column and above the lifting assembly, and the mounting seat is arranged on the bottom wall of the sleeve column;

The top plate is connected to the top end of the telescopic sleeve;

The moving assembly is arranged at the side of the top plate and comprises two adjusting rods, an adjusting plate is connected between the two adjusting rods, and a limiting sleeve is sleeved on the surface of each adjusting rod;

the number of the movable components is two, and the two movable components are respectively arranged on the surface of the sleeve column;

the support component is arranged on one side of the movable component.

2. The fabricated building design bracket roof beam panel of claim 1, wherein the lifting assembly comprises a threaded rod, a threaded sleeve is in threaded connection with the surface of the threaded rod, the threaded sleeve is connected with the bottom end of the telescopic sleeve, and a rotating wheel is arranged on the surface of the threaded rod.

3. The roof beam board of the assembled building design support according to claim 2, wherein a limiting component is arranged between the threaded sleeve and the sleeve column, the limiting component comprises a limiting block, and a limiting groove matched with the limiting block is formed in the surface of the sleeve column.

4. The roof beam board of assembled building design support according to claim 1, wherein the movable assembly comprises a fixed rod, the surface of the fixed rod is sleeved with a movable sleeve, a fixed bolt is arranged in the movable sleeve, and two ends of the fixed rod are connected with positioning blocks.

5. The roof beam board of assembled building design support according to claim 4, wherein the supporting component comprises a supporting rod, both ends of the supporting rod are connected with rotating seats, and the rotating seats are respectively connected with the surface of the movable sleeve and the bottom of the adjusting plate.

6. The fabricated building design bracket roof beam panel according to claim 5, wherein a first disassembly component and a second disassembly component are respectively arranged between the adjusting plate and the top plate and the rotating seat and the telescopic sleeve, the first disassembly component comprises a disassembly groove, a disassembly block is arranged in the disassembly groove, and a first bolt is arranged between the disassembly block and the adjusting plate.

7. The fabricated building design bracket roof rail panel of claim 6, wherein the second disassembly assembly comprises a disassembly plate, a second bolt being disposed between the disassembly plate and the roof plate.