CN217461557U - Assembled module bracket component based on BIM - Google Patents

Abstract

The utility model discloses an assembly type module support subassembly based on BIM in assembly type building technical field, including assembly wallboard, location axle, locating hole, bracket component, the bracket component includes base, support arm, mount pad, regulating block, clamping structure, and two regulating blocks are equipped with the side stay board by adjusting its relative movement of structure drive on the support arm, and the side stay board is driven its orientation removal towards the assembly wallboard by drive structure. Support the assembly wallboard through the side fagging, the relative being close to of two regulating blocks of rethread, make the location axle on two assembly wallboards be close to relatively, and then can make two adjacent assembly wallboards be close to relatively, and make the gap that the assembly wallboard supported the end and can reduce, make the precision after the assembly wallboard assembly finishes higher like this, reduce the assembly degree of difficulty, come the centre gripping location axle through clamping structure, make and to carry on spacingly to the assembly wallboard, thereby guarantee that the assembly wallboard is in comparatively firm state in the assembling process.

Description

Assembled module bracket component based on BIM

Technical Field

The utility model relates to an assembly type structure technical field specifically is an assembly type module support subassembly based on BIM.

Background

The BIM is a computer aided design for describing three-dimensional figure, object guide and architecture, and has the core of establishing virtual three-dimensional building engineering model and utilizing digitalization technology to provide complete building engineering information base in the same practical condition as the model, and the information base includes geometric information, professional attribute and state information of building member and state information of non-member object, so that the building engineering information integrating degree is raised greatly and one engineering information exchanging and sharing platform is provided for the relevant interest side of building engineering. Buildings assembled from prefabricated elements at the site are called fabricated buildings. The building block is divided into five types, namely a block building, a plate building, a box building, a framework plate building, a rising-rise building and the like according to the form and the construction method of the prefabricated part.

When the existing assembly type building is installed, when the assembly type building is assembled, the limit connection is mainly carried out by depending on a limit structure between the assembly type building modules, so that two adjacent building modules can be in a limit state, but when the assembly is carried out, the two adjacent building modules cannot be ensured to be in a stable state, and in addition, the gap between the adjacent ends of the two adjacent building modules is possibly too large, so that the assembly of the building modules cannot be carried out together, and the assembly difficulty of the building modules is caused.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art's defect, provide an assembled module bracket component based on BIM, in order to solve above-mentioned technical problem, the utility model provides a following technical scheme:

the utility model provides an assembled module bracket component based on BIM, two assembly wallboards including adjacent installation, the upper and lower both sides of the horizontal tip of assembly wallboard are equipped with location axle, locating hole respectively, the location axle can insert in the locating hole, still including being used for supporting adjacent two the bracket component of assembly wallboard, the bracket component includes a base, be equipped with the support arm on the base, the support arm upper end is equipped with the mount pad, horizontal sliding connection has two regulating blocks, two on the mount pad be equipped with the clamping structure who is used for two assembly wallboard adjacent serving location axles of centre gripping on the regulating block, two the regulating block is by its relative movement of regulation structure drive, be equipped with the side backup pad on the support arm, the side backup pad is by its direction removal towards the assembly wallboard of drive structure drive.

In the assembled module bracket assembly based on the BIM, the two transverse opposite ends of the assembled wallboard are respectively provided with the convex block and the locking groove, and the convex block can be clamped into the locking groove.

In the assembled module bracket assembly based on the BIM, a sliding groove for clamping the adjusting block and capable of horizontally and freely sliding is formed in the mounting seat.

In the assembled module bracket assembly based on BIM, the adjusting structure comprises an adjusting rod which is horizontally connected to the mounting seat in a rotating manner, the two ends of the adjusting rod in the length direction are respectively provided with a first screw rod section and a second screw rod section which are opposite in thread turning direction, and the adjusting blocks are respectively sleeved on the first screw rod section and the second screw rod section in a threaded manner.

In the assembled module bracket assembly based on BIM as described above, the clamping structure includes a chuck and a jacket, the chuck includes a cylindrical section fixedly connected to the bottom of the adjusting block, a conical section is coaxially disposed on the cylindrical section, the outer diameter of the conical section increases in sequence towards the direction away from the adjusting block, a clamping hole for allowing a positioning shaft to pass freely is disposed on the conical section, a strip-shaped notch communicated with the clamping hole is disposed on the outer wall of the conical section, the jacket is screwed onto the cylindrical section, and a tapered groove matched with the outer contour of the conical section is disposed on the jacket.

In the assembled module bracket assembly based on the BIM, the driving structure includes a driving screw rod with a horizontal thread penetrating through the support arm, and one end of the driving screw rod penetrating through the support arm is rotatably connected to the side support plate.

Compared with the prior art, the beneficial effects of the utility model are that: support the assembly wallboard through the side backup pad, the relative close to of two regulating blocks of rethread, make the location axle on two assembly wallboards be close to relatively, and then can make two adjacent assembly wallboards be close to relatively, and make the assembly wallboard support the gap of end and can reduce, make the precision after the assembly wallboard assembly finishes higher like this, reduce the assembly degree of difficulty, come the centre gripping location axle through clamping structure, make and to carry on spacingly to the assembly wallboard, thereby guarantee that the assembly wallboard is in comparatively firm state in assembling process.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of an assembly structure of the present invention;

FIG. 2 is a schematic bottom view of the structure of FIG. 1;

FIG. 3 is an exploded schematic view of the structure of FIG. 1;

FIG. 4 is a schematic structural view of the middle clamping head of the present invention;

fig. 5 is a schematic sectional view of the structure of the middle clamping sleeve of the present invention.

In the figure: 1-base, 2-supporting arm, 3-driving screw, 4-side supporting plate, 5-lug, 6-positioning shaft, 7-assembling wall plate, 8-mounting seat, 9-sliding groove, 10-adjusting block, 11-locking groove, 12-first screw rod section, 13-second screw rod section, 14-jacket, 15-positioning hole, 16-cylindrical section, 17-conical section, 18-clamping hole, 19-strip notch and 20-conical groove.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only to illustrate and explain the present invention, and not to limit the present invention.

Examples

As shown in fig. 1 to 5, the present embodiment provides a technical solution: an assembled module support component based on BIM comprises two assembled wallboards 7 which are adjacently installed and a support component used for supporting the two adjacent assembled wallboards 7, wherein the upper side and the lower side of the transverse end part of each assembled wallboard 7 are respectively provided with a positioning shaft 6 and a positioning hole 15, the positioning shafts 6 can be inserted into the positioning holes 15, when the assembled wallboards need to be assembled in an upper-lower overlapping mode, the positioning hole at the bottom of one assembled wallboard is inserted and combined with the positioning shaft on the other assembled wallboard, so that the two assembled wallboards can be assembled up and down, the support component comprises a base 1 which is connected on a placing surface in a bolt or screw mode, a support arm 2 is arranged on the base 1, a mounting seat 8 is arranged at the upper end of the support arm 2, two adjusting blocks 10 are horizontally and slidably connected on the mounting seat 8, and a clamping structure used for clamping the positioning shafts 6 on the adjacent ends of the two assembled wallboards 7 is arranged on the two adjusting blocks 10, through clamping structure and regulating block connection, two regulating blocks 10 are by its relative movement of regulation structure drive, make two regulating blocks be close to relatively, and then make and to produce the effort to two location axles, be close to relatively with two location axles of drive, make two assembly wallboards when assembling side by side, the gap of the looks remote site between them can reduce, reduce the follow-up assembly degree of difficulty, be equipped with side fagging 4 on the support arm 2, side fagging 4 is by its direction removal towards assembly wallboard 7 of drive structure drive, make the side fagging support the assembly wallboard like this, improve the firm degree of assembly wallboard when assembly construction.

The horizontal relative both ends of assembly wallboard 7 in this embodiment are equipped with lug 5, locking groove 11 respectively, and lug 5 can block into locking groove 11 in, through the locking inslot of block card income another assembly wallboard with one of which on the assembly wallboard, and then make two assembly wallboards install side by side.

In the embodiment, a sliding groove 9 for clamping the adjusting block 10 and capable of horizontally and freely sliding is formed in the mounting seat 8, so that the adjusting block is horizontally and slidably connected to the mounting seat.

The regulation structure in this embodiment includes that the level rotates the regulation pole of connection on mount pad 8, the length direction both ends of regulation pole are equipped with the screw respectively and revolve to opposite first lead screw section 12, second lead screw section 13, two regulating block 10 threaded sleeve respectively are in first lead screw section 12, on the second lead screw section 13, rotate the regulation pole through outside instrument, when adjusting the pole rotatory, make two regulating blocks respectively with first lead screw section, second lead screw section screw thread closes soon, because first lead screw section 12, the screw of second lead screw section 13 revolves to opposite, and then make the moving direction of two regulating blocks opposite, be close to relatively through two regulating blocks of drive like this, with produce the effort to two assembly wallboards, make the assembly wallboard can be close to relatively.

The clamping structure in the embodiment comprises a clamping head and a clamping sleeve 14, wherein the clamping head comprises a cylindrical section 16 fixedly connected to the bottom of an adjusting block 10, a conical section 17 is coaxially arranged on the cylindrical section 16, the outer diameter of the conical section 17 is sequentially increased towards the direction far away from the adjusting block 10, a clamping hole 18 for a positioning shaft 6 to freely pass through is arranged on the conical section 17, a strip-shaped notch 19 communicated with the clamping hole 18 is arranged on the outer wall of the conical section 17, the clamping sleeve 14 is sleeved on the cylindrical section 16 in a threaded manner, a conical groove 20 matched with the outer profile of the conical section 17 is arranged on the clamping sleeve 14, the clamping sleeve is rotated (manually or by using an external tool) to be screwed on the cylindrical section in a threaded manner and enable the conical section to be clamped with the conical groove, in the clamping process, the inner wall of the conical groove generates radial inner-side extrusion force on the conical section, the conical section is provided with the strip-shaped notch, further the conical section generates radial inner-side elastic contraction, and the clamping hole can clamp the positioning shaft, simple operation, and can guarantee the spacing effect to the assembly wallboard.

Drive structure in this embodiment includes that horizontal screw thread wears to locate drive screw 3 on support arm 2, and drive screw 3 wears out the one end rotation of support arm 2 and connects on side fagging 4, closes soon through drive screw thread on the support arm, and then can drive the side fagging and remove to ensure that the side fagging supports two tight assembly wallboards.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an assembled module bracket component based on BIM, includes two assembly wallboard (7) of adjacent installation, the upper and lower both sides of the horizontal tip of assembly wallboard (7) are equipped with location axle (6), locating hole (15) respectively, location axle (6) can insert in locating hole (15), its characterized in that still includes the bracket component that is used for supporting adjacent two assembly wallboard (7), the bracket component includes a base (1), be equipped with support arm (2) on base (1), support arm (2) upper end is equipped with mount pad (8), horizontal sliding connection has two regulating blocks (10) on mount pad (8), be equipped with the clamping structure who is used for two assembly wallboard (7) adjacent end location axle (6) of centre gripping on two regulating blocks (10), two regulating blocks (10) are by its relative movement of regulating structure drive, be equipped with side fagging (4) on support arm (2), its direction towards assembly wallboard (7) of drive structure drive is removed in side fagging (4).

2. A BIM-based fabricated module support assembly according to claim 1, wherein the assembling wall plate (7) is provided with a protrusion (5) and a locking groove (11) at two opposite ends in the transverse direction, and the protrusion (5) can be snapped into the locking groove (11).

3. The BIM-based fabricated module support assembly of claim 1, wherein the mounting seat (8) is provided with a sliding groove (9) for the engagement of the adjusting block (10) and the sliding groove can slide horizontally and freely.

4. The BIM-based fabricated module support assembly of claim 1, wherein the adjusting structure comprises an adjusting rod horizontally and rotatably connected to the mounting base (8), the two ends of the adjusting rod in the length direction are respectively provided with a first screw rod section (12) and a second screw rod section (13) with opposite screw thread directions, and the two adjusting blocks (10) are respectively screwed on the first screw rod section (12) and the second screw rod section (13).

5. The BIM-based assembled module support assembly according to claim 1, wherein the clamping structure comprises a clamping head and a clamping sleeve (14), the clamping head comprises a cylindrical section (16) fixedly connected to the bottom of the adjusting block (10), a conical section (17) is coaxially arranged on the cylindrical section (16), the outer diameter of the conical section (17) increases gradually in sequence towards the direction away from the adjusting block (10), a clamping hole (18) for the positioning shaft (6) to freely pass through is formed in the conical section (17), a strip-shaped notch (19) communicated with the clamping hole (18) is formed in the outer wall of the conical section (17), the clamping sleeve (14) is sleeved on the cylindrical section (16) in a threaded manner, and a conical groove (20) matched with the outer contour of the conical section (17) is formed in the clamping sleeve (14).

6. The BIM-based fabricated module support assembly of claim 1, wherein the driving structure comprises a driving screw (3) horizontally threaded on the support arm (2), and one end of the driving screw (3) penetrating through the support arm (2) is rotatably connected to the side support plate (4).

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