CN113338443A

CN113338443A - Quickly assembled honeycomb building

Info

Publication number: CN113338443A
Application number: CN202110685108.9A
Authority: CN
Inventors: 华建民; 黄乐鹏; 谢卓霖; 陈增顺; 薛暄译; 罗齐鸣; 李爽; 王能
Original assignee: Chongqing University
Current assignee: Chongqing University
Priority date: 2021-06-21
Filing date: 2021-06-21
Publication date: 2021-09-03
Anticipated expiration: 2041-06-21
Also published as: CN113338443B

Abstract

The invention relates to the field of buildings, and particularly discloses a quickly-assembled honeycomb building which comprises a support and a plate body, wherein the support comprises a main shaft, six auxiliary shafts are distributed on the periphery of the main shaft in an array manner, two ends of the main shaft are in threaded connection with symmetrically-arranged positioning rings, the positioning rings are rotationally connected with coaxial annular blocks, and connecting rods are arranged between the annular blocks and the auxiliary shafts; six isosceles triangle-shaped assembling templates are uniformly distributed on the periphery of two ends of the main shaft, a clamping block is fixed at one end of each assembling template, a plurality of clamping grooves clamped with the clamping blocks are formed in the annular block, clamping grooves clamped with the auxiliary shaft are formed in the other end of each assembling template, the assembling templates on the same horizontal plane form a hexagon, and embedding grooves embedded with the connecting rods are formed in the opposite surfaces of the assembling templates; a support main board is arranged between every two adjacent auxiliary shafts, and two ends of each support main board are respectively abutted against the corresponding assembly templates; the invention has the advantages of light self weight, high construction speed, reusability, modularization, energy conservation, environmental protection, convenient transportation and the like.

Description

Quickly assembled honeycomb building

Technical Field

The invention relates to the technical field of honeycomb buildings, and particularly discloses a quickly-assembled honeycomb building.

Background

The traditional building generally adopts a reinforced concrete cast-in-place structure, has the problems of heavy structure self weight, long construction time, low standardization and modularization degree, serious raw material waste, large pollution on a construction site and the like, and can not meet the requirements of sustainable development and rapid construction of the future building industry. When suffering natural disasters, in order to reconstruct disaster areas and stabilize the emotion of disaster victims, the damage of the disasters is minimized, and residences need to be provided as soon as possible, so that a honeycomb building capable of being assembled quickly is needed, and the honeycomb building has the advantages of light self weight, high building speed, reusability, modularization, energy conservation, environmental friendliness, convenience in transportation and the like.

Disclosure of Invention

The invention aims to provide a quickly-assembled honeycomb building which has the advantages of light self weight, high construction speed, reusability, modularization, energy conservation, environmental protection, convenience in transportation and the like.

In order to achieve the purpose, the basic scheme of the invention is as follows:

a rapidly assembled honeycomb building comprises a support and a plate body, wherein the support comprises a main shaft, six auxiliary shafts are distributed on the periphery of the main shaft in an array mode, the auxiliary shafts are all parallel to the main shaft, two ends of the main shaft are in threaded connection with symmetrically arranged positioning rings, coaxial annular grooves are formed in the periphery of the positioning rings, coaxial annular blocks are rotationally connected in the annular grooves, connecting rods are arranged between the annular blocks and the auxiliary shafts, and two ends of each connecting rod are respectively hinged with the corresponding annular blocks and the corresponding auxiliary shafts; six isosceles triangle-shaped assembling templates are uniformly distributed on the periphery of two ends of the main shaft, a clamping block is fixed at one end of each assembling template, a plurality of clamping grooves clamped with the clamping blocks are formed in the annular block, clamping grooves clamped with the auxiliary shaft are formed in the other end of each assembling template, the assembling templates on the same horizontal plane form a hexagon, and embedding grooves embedded with the connecting rods are formed in the opposite surfaces of the assembling templates; and a support main plate is arranged between every two adjacent auxiliary shafts, and two ends of the support main plate are respectively abutted against the corresponding assembly templates.

During assembly, the main shaft is vertically fixed on the ground, the positioning rings are rotated and moved towards two ends, the positioning rings move and drive the connecting plates to swing, and the connecting rods prop open the auxiliary shafts to form a support; obliquely inserting the clamping block of the assembling template into the clamping groove, enabling the clamping groove to be opposite to the corresponding auxiliary shaft, pushing the assembling template to a horizontal position, and clamping the embedded groove in the assembling template with the corresponding connecting rod; the assembly templates are stably connected with the bracket by the support between the connecting rod and the assembly templates and the matching of the fixture block and the clamping groove, the support main board is sequentially installed, the assembly templates at the upper end and the lower end are supported by the two ends of the support main board, so that more stable connection is formed, and the assembly templates are prevented from falling off; when the auxiliary shaft needs to be disassembled, the supporting main plate and the assembling template are disassembled in sequence, and then the positioning ring is rotated reversely to fold the auxiliary shaft; the whole installation and disassembly process is convenient and quick, no additional equipment is needed for assistance, and quick construction after a disaster is facilitated; simultaneously, the support in this scheme can draw in, and it is little to occupy the space to can accomodate assembly template and support mainboard respectively, further reduce and occupy the space, be convenient for transport.

Optionally, a vertical groove is formed in one side, back to the main shaft, of the auxiliary shaft, the cross section of the vertical groove is in a fan shape, connecting blocks extending into the vertical groove are fixed to two ends of the supporting main board, and the connecting blocks are attached to the side wall of the vertical groove; the vertical groove is internally provided with an embedded block matched with the vertical groove, two sides of the embedded block are abutted against the connecting block, two ends of the embedded block are fixedly provided with lug plates attached to the supporting main plate, and the lug plates are connected with the supporting main plate through bolts.

Inserting the connecting block into the vertical groove, inserting the embedding block, and fixing the embedding block and the supporting main board through the bolt connection between the lug plate and the supporting main board; the matching between the embedded blocks and the connecting blocks is utilized to form stable connection between the supporting main board and the auxiliary shaft, and meanwhile, when the building deforms, the supporting main board and the auxiliary shaft are extruded, and a certain included angle is formed between the supporting main board and the auxiliary shaft, so that the extrusion of the supporting main board to the auxiliary shaft can be reduced, and the auxiliary shaft is prevented from deforming; in addition, only need demolish the back with the gomphosis piece, can separate support mainboard and countershaft, whole process is simple swift, does benefit to the installation and the dismantlement of building.

Optionally, two ends of the spindle are slidably sleeved with symmetrically arranged fixing rings, the fixing rings are attached to corresponding assembling templates and fixed to the assembling templates through bolts, grooves for accommodating positioning rings are formed in opposite surfaces of the fixing rings, and a plurality of limiting grooves are formed in the periphery of each groove; and a plurality of limiting blocks matched with the limiting grooves are fixed on the periphery of the positioning ring.

After the building assembly, promote solid fixed ring, make solid fixed ring and assembly template offset to it is fixed with solid fixed ring and assembly template through the bolt, through the cooperation between stopper and the spacing groove, utilize the fixed ring to restrict the holding ring, prevent that the holding ring from rotating, cause not hard up of building.

Optionally, a stopper abutting against the connecting rod is fixed to the opposite end of the annular block, and a connecting groove for accommodating the stopper is formed in the end portion of the assembling template.

The swing range of the connecting rod is limited by the stop block, so that the connecting rod is prevented from being inclined due to overlarge swing amplitude, and the stability of a building is influenced.

Optionally, T-shaped grooves are formed in both sides of each assembling template, connecting plates are arranged between the assembling templates, and both ends of each connecting plate are matched with the shapes of the T-shaped grooves.

Through the cooperation between connecting plate and the both sides T groove, form stable connection between with adjacent assembly template, improve assembly template's bearing capacity.

Optionally, the main shaft is flush with the bottom of the auxiliary shaft, and the main shaft and the bottom of the auxiliary shaft are flush with the ground on average and form a fixed connection with the ground.

The main shaft and the auxiliary shaft are fixed with the ground to play a role in stabilizing the building.

Optionally, a door and a window may be opened on the supporting main board.

The lighting inside the building is improved by arranging the doors and windows.

Optionally, the surfaces of the assembling template and the supporting main board are both provided with a heat insulation layer.

The heat insulation capability of the building is improved through the heat insulation layer.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the means of the instrumentalities and combinations particularly pointed out hereinafter.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is an enlarged schematic view at B of FIG. 1;

FIG. 4 is a schematic structural view of a stent according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view at C of FIG. 4;

FIG. 6 is a schematic structural diagram of an assembly template in an embodiment of the present invention;

FIG. 7 is an enlarged schematic view at D of FIG. 6;

FIG. 8 is a schematic structural view of a fitting block according to an embodiment of the present invention;

FIG. 9 is a schematic structural diagram of a supporting motherboard according to an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the assembling device comprises a main shaft 1, an auxiliary shaft 2, a positioning ring 3, an annular block 4, a connecting rod 5, an assembling template 6, a clamping block 7, a clamping groove 8, a clamping groove 9, an embedding groove 10, a supporting main plate 11, a vertical groove 12, a connecting plate 13, an embedding block 14, a connecting section 15, a fixing ring 16, a stop block 17, a connecting plate 18, a connecting groove 19, a bolt 20, a limiting block 21 and a T-shaped groove 22.

Examples

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9:

a honeycomb building capable of being assembled quickly comprises a support and a plate body, wherein the support comprises a main shaft 1, six auxiliary shafts 2 are distributed on the periphery of the main shaft 1 in an array mode, the auxiliary shafts 2 are all parallel to the main shaft 1, positioning rings 3 which are symmetrically arranged are connected to two ends of the main shaft 1 in a threaded mode, coaxial annular T-shaped grooves 22 are formed in the periphery of the positioning rings 3, coaxial annular blocks 4 are rotationally connected in the annular T-shaped grooves 22, connecting rods 5 are arranged between the annular blocks 4 and the auxiliary shafts 2, and two ends of each connecting rod 5 are hinged to the corresponding annular block 4 and the corresponding auxiliary shaft 2 respectively; six isosceles triangle-shaped assembling templates 6 are uniformly distributed on the peripheral sides of the two ends of the main shaft 1, a clamping block 7 is fixed at one end of each assembling template 6, a plurality of clamping grooves 8 clamped with the clamping blocks 7 are formed in the annular block 4, a clamping groove 9 clamped with the auxiliary shaft 2 is formed in the other end of each assembling template 6, the assembling templates 6 on the same horizontal plane form a hexagon, and the opposite surfaces of the assembling templates 6 are provided with embedding grooves 10 embedded with the connecting rods 5; and a supporting main plate 11 is arranged between every two adjacent auxiliary shafts 2, and two ends of the supporting main plate 11 are respectively abutted against the corresponding assembling templates 6.

During assembly, the main shaft 1 is vertically fixed on the ground, the positioning rings 3 are rotationally moved towards two ends, the positioning rings 3 move and drive the connecting plates 13 to swing, and the connecting rods 5 prop open the auxiliary shafts 2 to form a support; obliquely inserting a clamping block 7 of the assembling template 6 into the clamping groove 8, enabling the clamping groove 9 to be opposite to the corresponding auxiliary shaft 2, then pushing the assembling template 6 to a horizontal position, and clamping a jogged groove 10 on the assembling template 6 with the corresponding connecting rod 5; the assembly templates 6 are stably connected with the bracket by the support between the connecting rod 5 and the assembly templates 6 and the matching of the fixture block 7 and the clamping groove 8, the support main board 11 is sequentially installed, the assembly templates 6 at the upper end and the lower end are supported by the two ends of the support main board 11, so that more stable connection is formed, and the assembly templates 6 are prevented from falling off; when the auxiliary shaft 2 needs to be disassembled, the main supporting plate 11 and the assembling template 6 are disassembled in sequence, and then the positioning ring 3 is rotated reversely to furl the auxiliary shaft 2; the whole installation and disassembly process is convenient and quick, no additional equipment is needed for assistance, and quick construction after a disaster is facilitated; simultaneously, the support in this scheme can draw in, and it is little to occupy the space to can accomodate assembly template 6 and support mainboard 11 respectively, further reduce and occupy the space, be convenient for transport.

Optionally, a vertical groove 12 is formed in one side of the auxiliary shaft 2 back to the main shaft 1, the cross section of the vertical groove 12 is fan-shaped, connecting blocks extending into the vertical groove 12 are fixed at two ends of the supporting main plate 11, and the connecting blocks are attached to the side wall of the vertical groove 12; the vertical groove 12 is internally provided with an embedded block 14 matched with the vertical groove 12, two sides of the embedded block 14 are abutted against the connecting block, two ends of the embedded block 14 are fixed with lug plates attached to the supporting main plate 11, and the lug plates are connected with the supporting main plate 11 through bolts 20.

After the connecting block is inserted into the vertical groove 12, the embedding block 14 is inserted, and the embedding block 14 and the supporting main plate 11 are fixed through the connection of the lug plate and the supporting main plate 11 through the bolt 20; the matching between the embedded block 14 and the connecting block is utilized to form stable connection between the supporting main board 11 and the auxiliary shaft 2, and meanwhile, when the building deforms, the supporting main board 11 and the auxiliary shaft 2 are extruded, and a certain included angle is formed between the supporting main board 11 and the auxiliary shaft 2, so that the extrusion of the supporting main board 11 to the auxiliary shaft 2 can be reduced, and the auxiliary shaft 2 is prevented from deforming; in addition, only need demolish the back with gomphosis piece 14, can separate support mainboard 11 and countershaft 2, whole process is simple swift, does benefit to the installation and the dismantlement of building.

Optionally, two ends of the main shaft 1 are slidably sleeved with symmetrically arranged fixing rings 16, the fixing rings 16 are attached to corresponding assembling templates 6, the fixing rings 16 and the assembling templates 6 are fixed through bolts 20, grooves for accommodating the positioning rings 3 are formed in opposite surfaces of the fixing rings 16, and a plurality of limiting grooves are formed in the peripheral sides of the grooves; a plurality of limiting blocks 21 matched with the limiting grooves are fixed on the peripheral side of the positioning ring 3.

After the building assembly, promote solid fixed ring 16, make solid fixed ring 16 offset with assembly template 6 to it is fixed with solid fixed ring 16 and assembly template 6 through bolt 20, through the cooperation between stopper 21 and the spacing groove, utilize solid fixed ring 16 to restrict holding ring 3, prevent that holding ring 3 from rotating, cause not hard up of building.

Optionally, a stopper 17 abutting against the connecting rod 5 is fixed on the opposite end of the annular block 4, and a connecting groove 19 for accommodating the stopper 17 is opened on the end of the assembling template 6.

The swing range of the connecting rod 5 is limited by the stop block 17, so that the connecting rod 5 is prevented from being too large in swing amplitude, the connecting rod 5 is prevented from being inclined, and the stability of a building is influenced.

Optionally, T-shaped grooves 22 are formed in both sides of each assembling template 6, connecting plates 13 are arranged between the assembling templates 6, and both ends of each connecting plate 13 are matched with the T-shaped grooves 22 in shape.

Through the cooperation between connecting plate 13 and both sides TT-shaped groove 22, will form stable connection between the adjacent assembly template 6, improve the bearing capacity of assembly template 6.

Optionally, the main shaft 1 is flush with the bottom of the secondary shaft 2, and the bottom of the main shaft 1 and the bottom of the secondary shaft 2 are flush with the ground and form a fixed connection with the ground.

The main shaft 1 and the auxiliary shaft 2 play a role in stabilizing the building after being fixed with the ground.

Optionally, a door and a window may be opened on the supporting main board 11.

Optionally, the surfaces of the assembling template 6 and the supporting main board 11 are both provided with a heat insulation layer.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the present invention.

Claims

1. A quick-assembly honeycomb building characterized in that: the support comprises a main shaft, six auxiliary shafts are distributed on the periphery of the main shaft in an array mode, the auxiliary shafts are all parallel to the main shaft, positioning rings are symmetrically arranged at two ends of the main shaft in a threaded mode, coaxial ring grooves are formed in the periphery of the positioning rings, coaxial ring blocks are connected in the ring grooves in a rotating mode, connecting rods are arranged between the ring blocks and the auxiliary shafts, and two ends of each connecting rod are hinged to the corresponding ring block and the corresponding auxiliary shaft respectively; six isosceles triangle-shaped assembling templates are uniformly distributed on the periphery of two ends of the main shaft, a clamping block is fixed at one end of each assembling template, a plurality of clamping grooves clamped with the clamping blocks are formed in the annular block, clamping grooves clamped with the auxiliary shaft are formed in the other end of each assembling template, the assembling templates on the same horizontal plane form a hexagon, and embedding grooves embedded with the connecting rods are formed in the opposite surfaces of the assembling templates; and a support main plate is arranged between every two adjacent auxiliary shafts, and two ends of the support main plate are respectively abutted against the corresponding assembly templates.

2. A quick-fit honeycomb building according to claim 1 wherein: one side of the auxiliary shaft, which is back to the main shaft, is provided with a vertical groove, the cross section of the vertical groove is in a fan shape, connecting blocks extending into the vertical groove are fixed at two ends of the supporting main board, and the connecting blocks are attached to the side wall of the vertical groove; the vertical groove is internally provided with an embedded block matched with the vertical groove, two sides of the embedded block are abutted against the connecting block, two ends of the embedded block are fixedly provided with lug plates attached to the supporting main plate, and the lug plates are connected with the supporting main plate through bolts.

3. A quick-fit honeycomb building according to claim 2 wherein: the two ends of the main shaft are slidably sleeved with symmetrically arranged fixing rings, the fixing rings are attached to corresponding assembling templates and fixed with the assembling templates through bolts, grooves for accommodating positioning rings are formed in opposite surfaces of the fixing rings, and a plurality of limiting grooves are formed in the peripheral sides of the grooves; and a plurality of limiting blocks matched with the limiting grooves are fixed on the periphery of the positioning ring.

4. A quick-fit honeycomb building according to claim 3 wherein: the opposite ends of the annular blocks are fixedly provided with stop blocks which are abutted against the connecting rods, and the end parts of the assembling templates are provided with connecting grooves for accommodating the stop blocks.

5. A quick-fit honeycomb building according to claim 4 wherein: t-shaped grooves are formed in two sides of each assembling template, connecting plates are arranged between the assembling templates, and two ends of each connecting plate are matched with the shapes of the T-shaped grooves.

6. A quick-fit honeycomb building according to claim 5 wherein: the main shaft is flush with the bottom of the auxiliary shaft, and the bottom of the main shaft and the bottom of the auxiliary shaft are flush with the ground and fixedly connected with the ground.

7. A quick-fit honeycomb building according to claim 6 wherein: and a door and a window can be opened on the supporting main board.

8. A quick-fit honeycomb building according to claim 7 wherein: and heat insulation layers are arranged on the surfaces of the assembling template and the supporting main board.