CN219586951U - Frameless jointed board combination - Google Patents

Frameless jointed board combination Download PDF

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Publication number
CN219586951U
CN219586951U CN202223219863.7U CN202223219863U CN219586951U CN 219586951 U CN219586951 U CN 219586951U CN 202223219863 U CN202223219863 U CN 202223219863U CN 219586951 U CN219586951 U CN 219586951U
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China
Prior art keywords
positioning
outer frame
frame
frameless
connecting outer
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CN202223219863.7U
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Chinese (zh)
Inventor
徐建刚
姚俊杰
汪波
陈建新
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Zhejiang Zedford Environment Equipment Co ltd
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Zhejiang Zedford Environment Equipment Co ltd
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Abstract

The utility model provides a frameless jointed board combination, and belongs to the technical field of board jointing. The combined type heat-insulating board comprises a combined type heat-insulating board, wherein the combined type heat-insulating board is connected through a splicing structure, the splicing structure comprises a left connecting outer frame and a right connecting outer frame which are arranged on two sides of the combined type heat-insulating board, and the left connecting outer frame and the right connecting outer frame of two adjacent combined type heat-insulating boards are connected through a limiting fixing assembly. The heat insulation performance of the combined heat insulation board is good, and the heat energy loss can be effectively reduced; the assembly precision between the combined heat-insulating boards is high, only the splicing is needed without adjustment, the connection is firm, and the spliced seam is attractive; the combined heat-insulating board has high rigidity, and does not need a cage framework so that the interior of the room is sufficiently concise.

Description

Frameless jointed board combination
Technical Field
The utility model belongs to the technical field of plate splicing, and relates to a frameless spliced plate combination.
Background
The common movable plank house in daily life generally adopts composite board, foam board, but this kind of panel assembly precision is not high at the in-process of installation, and this is the defect of congenital design decision, and the installation error is big, and the connection is not firm between the panel after the installation is not hard up easily, more because need use electric welding etc. the possibility that the building site arouses open flame is very big to this kind of panel thermal insulation performance is not good, rigidity is not enough need to build the frame cage bone.
For example, chinese patent discloses a composite board splicing structure [ application number: 201410095903.2 the utility model discloses a concrete composite plate, including first composite sheet and second composite sheet, first composite sheet passes through tongue-and-groove structure butt joint with the second composite sheet, still includes rubber gasket, purlin, first self-tapping screw and second self-tapping screw, and rubber gasket lays the junction at first composite sheet and second composite sheet, and the purlin is laid in the outside of rubber gasket, and first self-tapping screw links together first composite sheet, rubber gasket and purlin, and second self-tapping screw links together second composite sheet, rubber gasket and purlin. The self-tapping screw has the advantages that two composite boards can be nailed together by the self-tapping screw, but the composite boards are easy to damage in the nailing process, the later reassembling is inconvenient, the nailing operation is complicated, and the composite boards are not enough in rigidity, so that frame cage bones need to be built when being installed in a large area, and the heat insulation performance is poor.
Disclosure of Invention
The present utility model aims to solve the above problems, and provides a frameless panel combination.
In order to achieve the above purpose, the present utility model adopts the following technical scheme:
the utility model provides a frameless makeup combination, includes the combination formula heated board, the combination formula heated board between be connected through mosaic structure, mosaic structure including setting up the left side of combination formula heated board both sides and connect the frame with the right side, the left side of adjacent two combination formula heated boards connect the frame and connect the frame with the right side between and be connected through spacing fixed subassembly.
The combined heat-insulating board can effectively reduce the loss of heat energy, has high installation precision, is not required to be adjusted, only needs to be spliced, has attractive joint and very firm splicing, adopts metal material to have high rigidity, does not need to build a frame in advance, is simpler indoors and omits frame materials.
In the above-mentioned frameless jigsaw combination, the spacing fixing component includes a positioning convex portion arranged on the side edge of the left connecting outer frame and a positioning groove arranged on the side edge of the right connecting outer frame and adapted to the positioning convex portion.
When two combined heat-insulating boards are spliced, the positioning convex parts of the combined heat-insulating boards are spliced into the positioning grooves of the adjacent combined heat-insulating boards, so that the installation accuracy is high, and the splicing and the installation are simple and convenient.
In the above frameless jointed board combination, a first positioning step is formed between the positioning convex part and the upper connecting surface of the left connecting outer frame, a second positioning step is formed between the positioning convex part and the lower connecting surface of the left connecting outer frame, and a first lug and a second lug which are matched with the first positioning step and the second positioning step are formed between the positioning groove and the upper connecting surface and the lower connecting surface of the right connecting outer frame respectively.
The first positioning step and the second positioning step play a limiting role on the first lug and the second lug respectively, the installation accuracy is high, and the splicing installation is simple and convenient.
In the above-mentioned frameless jointed board combination, the spacing fixed component also includes the fixed component that sets up between location convex part and positioning groove, fixed component include rivet nut and fastener, the rivet nut set up on positioning groove lower groove face, the fastener run through positioning convex part and positioning groove and be connected with the rivet nut.
The combined heat-insulating plates are fixed through the fasteners and the rivet nuts, so that the installation is stable and difficult to loosen.
In the frameless jointed board combination, the lower groove surface of the positioning groove on the right connecting outer frame is provided with a mounting step for mounting the rivet nut, and the upper end surface of the rivet nut is flush with the lower groove surface of the positioning groove.
The rivet nut is arranged in the installation step, so that the installation accuracy between the combined type heat insulation boards is not affected, and the joint is attractive.
In the frameless jointed board combination, the upper end face and the lower end face of the positioning convex part and the upper groove face and the lower groove face of the positioning groove are centrally provided with the positioning concave part, and the center of the positioning concave part is provided with a concave point.
During splicing, the concave positions are aligned, so that the appearance is improved, and the construction, punching and positioning are facilitated.
In the above-mentioned frameless jointed board combination, the combined heat-insulating board comprises thin plates arranged at two sides of the left connecting outer frame and the right connecting outer frame, and the thin plates are connected with the left connecting outer frame and the right connecting outer frame through connecting components.
The thin plates on two sides of the left connecting outer frame and the right connecting outer frame are made of metal materials and have high rigidity, and are connected to the left connecting outer frame and the right connecting outer frame through connecting assemblies, and foaming agents are filled between the thin plates on two sides to play a role in heat preservation.
In the above-mentioned frameless jointed board combination, the left connecting outer frame and the right connecting outer frame comprise an upper connecting surface and a lower connecting surface, the connecting component comprises a heat-insulating piece, two sides of the heat-insulating piece are respectively connected with the upper connecting surfaces of the left connecting outer frame and the right connecting outer frame and the thin plate through glue, and the heat-insulating piece is coated on the upper connecting surfaces of the left connecting outer frame and the right connecting outer frame.
The heat-insulating piece is connected between the connecting surface and the thin plate on the left connecting outer frame and the right connecting outer frame, so that heat insulation is realized, and heat and cold loss can be effectively reduced.
In the frameless jointed board combination, a fastener installation cavity is arranged between the upper connecting surface of the right connecting outer frame and the thin plate, and the fastener installation cavity is filled with foaming agent.
The fastener is arranged in the fastener installation cavity, and after the installation and the fastening are finished, the foaming agent is filled in the fastener installation cavity for heat preservation, and the wall surfaces of the decorative cover plate and the thin plate are flatly attached.
In the above-mentioned frameless jigsaw combination, the connecting component further comprises a positioning protrusion arranged on the inner side of the lower connecting surface of the left connecting outer frame and the right connecting outer frame, and a positioning groove is formed between the positioning protrusion and the lower connecting surface.
The sheet metal is installed to the constant head tank between the location arch and the lower junction surface, and the constant head tank plays spacing fixed action.
Compared with the prior art, the utility model has the advantages that: 1. the combined heat-insulating board has good heat-insulating performance and can effectively reduce the loss of heat energy. 2. The assembly precision between the combined heat-insulating boards is high, only the splicing is needed without adjustment, the connection is firm, and the spliced seam is attractive. 3. The combined heat-insulating board has high rigidity, does not need a cage framework, ensures that the interior of the room is sufficiently concise, and is almost a full wall surface. 4. The installation no longer needs electric welding, and the labor is reduced and the labor cost is reduced because no strong nailing is needed.
Drawings
FIG. 1 is a schematic view of the overall structure provided by the present utility model;
FIG. 2 is an enlarged schematic view at A in FIG. 1;
FIG. 3 is a schematic structural view of a splice structure;
fig. 4 is an enlarged schematic view at B in fig. 3.
In the figure, a combined heat insulation board 1, a splicing structure 2, a left connecting outer frame 3, a right connecting outer frame 4, a limiting fixing component 5, a positioning convex part 6, a positioning groove 7, a first positioning step 8, a second positioning step 9, a first convex block 10, a second convex block 11, a fixing component 12, a rivet nut 13, a fastener 14, a mounting step 15, a positioning concave part 16, a concave point 17, a thin plate 18, a connecting component 19, an upper connecting surface 20, a lower connecting surface 21, a heat insulation piece 22, a fastener mounting cavity 23, a positioning convex block 24 and a positioning groove 25.
Detailed Description
As shown in fig. 1-3, a frameless jointed board combination comprises a combined heat-insulating board 1, wherein the combined heat-insulating board 1 is connected through a jointing structure 2, the jointing structure 2 comprises a left connecting outer frame 3 and a right connecting outer frame 4 which are arranged on two sides of the combined heat-insulating board 1, and the left connecting outer frame 3 and the right connecting outer frame 4 of two adjacent combined heat-insulating boards 1 are connected through a limiting fixing assembly 5.
In the utility model, two adjacent combined heat-insulating boards 1 are connected through a splicing structure 2, a left connecting outer frame 3 and a right connecting outer frame 4 are arranged on two sides of the combined heat-insulating board 1, and the left connecting outer frame 3 on one side of the combined heat-insulating board 1 and the right connecting outer frame 4 on one side of the adjacent combined heat-insulating board 1 are spliced and fixed through a limiting fixing component 5.
The combined type heat-insulating plate 1 can effectively reduce the loss of heat energy, the installation accuracy between the combined type heat-insulating plates 1 is high, only the splicing is needed without adjustment, the splicing seams are attractive, the splicing is very firm, the outer frame of the combined type heat-insulating plate 1 is made of metal materials, the frame is not required to be built in advance, and the indoor space is simpler and the frame materials are omitted.
Specifically, as shown in fig. 2 and 3, the limit fixing member 5 includes a positioning protrusion 6 provided on the side of the left connecting frame 3 and a positioning groove 7 provided on the side of the right connecting frame 4 to fit the positioning protrusion 6.
When two combined heat-insulating boards 1 are spliced, the positioning convex parts 6 of the combined heat-insulating boards 1 are spliced into the positioning grooves 7 of the adjacent combined heat-insulating boards 1, so that the installation accuracy is high, and the splicing and the installation are simple and convenient.
Specifically, as shown in fig. 2 and 3, a first positioning step 8 is formed between the positioning protrusion 6 and the upper connection surface of the left connection frame 3, a second positioning step 9 is formed between the positioning protrusion 6 and the lower connection surface of the left connection frame 3, and a first protrusion 10 and a second protrusion 11 for adapting to the first positioning step 8 and the second positioning step 9 are formed between the positioning groove 7 and the upper connection surface and the lower connection surface of the right connection frame 4, respectively.
When the two combined heat-insulating boards 1 are spliced, the first protruding block 10 and the second protruding block 11 of the combined heat-insulating board 1 respectively lean against the step surface of the first positioning step 8 and the step surface of the second positioning step 9 of the adjacent combined heat-insulating boards 1. The first positioning step 8 and the second positioning step 9 respectively play a limiting role on the first lug 10 and the second lug 11, so that the installation accuracy is high, and the splicing installation is simple and convenient.
Specifically, as shown in fig. 2 and 3, the limiting and fixing assembly 5 further includes a fixing assembly 12 disposed between the positioning protrusion 6 and the positioning groove 7, the fixing assembly 12 includes a rivet nut 13 and a fastener 14, the rivet nut 13 is disposed on a lower groove surface of the positioning groove 7, and the fastener 14 penetrates through the positioning protrusion 6 and the positioning groove 7 to be connected with the rivet nut 13.
Firstly, a riveting nut hole is formed in the lower groove surface of the positioning groove 7, the riveting nut is riveted, holes are drilled in corresponding positions of the upper groove surface of the positioning groove 7, and after the combined heat insulation board 1 is spliced, the combined heat insulation board is screwed onto the riveting nut 13 through a fastener 14 to complete fixation.
The combined heat-insulating board 1 is fixed through the fastener 14 and the rivet nut 13, and is stable in installation and difficult to loosen.
Specifically, as shown in fig. 2 and 3, the lower groove surface of the positioning groove 7 on the right connecting outer frame 4 is provided with a mounting step 15 for mounting the rivet nut 13, and the upper end surface of the rivet nut 13 is flush with the lower groove surface of the positioning groove 7.
The installation accuracy between the combined heat insulation boards 1 is not affected when the rivet nuts 13 are installed in the installation steps 15, and the joint is attractive.
Preferably, as shown in fig. 3 and 4, the upper and lower end surfaces of the positioning convex part 6 and the upper and lower groove surfaces of the positioning groove 7 are centrally provided with a positioning concave part 16, and the center of the positioning concave part 16 is provided with a concave point 17.
During splicing, the concave positions are aligned, so that the appearance is improved, and the construction, punching and positioning are facilitated.
Specifically, as shown in fig. 2 and 3, the combined heat insulation board 1 includes thin plates 18 disposed at both sides of the left connecting frame 3 and the right connecting frame 4, and the thin plates 18 are connected with the left connecting frame 3 and the right connecting frame through a connecting assembly 19.
The thin plates 18 on the two sides of the left connecting outer frame 3 and the right connecting outer frame 4 are made of metal materials with high rigidity, and are connected to the left connecting outer frame 3 and the right connecting outer frame through the connecting assembly 19, and foaming agents are filled between the thin plates 18 on the two sides to play a role in heat preservation.
Specifically, as shown in fig. 2 and 3, the left connecting frame 3 and the right connecting frame 4 include an upper connecting surface 20 and a lower connecting surface 21, the connecting assembly 19 includes a heat insulating member 22, two sides of the heat insulating member 22 are respectively connected with the upper connecting surfaces 20 of the left connecting frame 3 and the right connecting frame 4 and the thin plate 18 through glue, and the heat insulating member 22 is coated on the upper connecting surfaces 20 of the left connecting frame 3 and the right connecting frame 4.
The heat insulation piece 22 is connected between the connecting surface 20 and the thin plate 18 on the left connecting outer frame 3 and the right connecting outer frame 4 to realize heat insulation, so that the heat and cold loss can be effectively reduced.
Preferably, as shown in fig. 2 and 3, a fastener installation cavity 23 is provided between the upper connection surface 20 of the right connection frame 4 and the thin plate 18, and the fastener installation cavity 23 is filled with foaming agent.
The fastener 14 is installed in the fastener installation cavity 23, after the installation and the fastening are completed, the foaming agent is filled in the fastener installation cavity 23 for heat preservation, and the decorative cover plate is attached to the wall surface of the thin plate 18.
Specifically, as shown in fig. 2 and 3, the connecting assembly 19 further includes a positioning protrusion 24 disposed inside the lower connecting surface 21 of the left connecting frame 3 and the right connecting frame 4, and a positioning groove 25 is formed between the positioning protrusion 24 and the lower connecting surface 21.
The sheet 18 is fitted into the positioning groove 25 between the positioning projection 24 and the lower connecting surface 21, and the positioning groove 25 plays a role in limiting and fixing.
The working principle of the utility model is as follows: the two adjacent combined heat-insulating boards 1 are connected through a splicing structure 2, a left connecting outer frame 3 and a right connecting outer frame 4 are arranged on two sides of the combined heat-insulating board 1, and the left connecting outer frame 3 on one side of the combined heat-insulating board 1 and the right connecting outer frame 4 on one side of the adjacent combined heat-insulating board 1 are spliced and fixed through a limiting fixing assembly 5;
when the two combined heat-insulating boards 1 are spliced, the positioning convex parts 6 of the combined heat-insulating boards 1 are spliced into the positioning grooves 7 of the adjacent combined heat-insulating boards 1, so that the installation accuracy is high, and the splicing and the installation are simple and convenient;
when the two combined heat-insulating boards 1 are spliced, the first protruding block 10 and the second protruding block 11 of the combined heat-insulating board 1 respectively lean against the step surface of the first positioning step 8 and the step surface of the second positioning step 9 of the adjacent combined heat-insulating boards 1. The first positioning step 8 and the second positioning step 9 respectively play a limiting role on the first lug 10 and the second lug 11, so that the installation precision is high, and the splicing installation is simple and convenient;
when the combined heat-insulating board 1 is fixed, a riveting nut hole is formed in the lower groove surface of the positioning groove 7, the riveting nut is riveted, holes are drilled in corresponding positions of the upper groove surface of the positioning groove 7, and after the combined heat-insulating board 1 is spliced, the combined heat-insulating board is screwed on the riveting nut 13 through a fastener 14 to finish fixation;
the installation accuracy between the combined heat-insulating boards 1 is not affected when the rivet nuts 13 are installed in the installation steps 15, and the joint is attractive; during splicing, the concave positions are aligned, so that the appearance is improved, and the construction, punching and positioning are facilitated;
the thin plates 18 on the two sides of the left connecting outer frame 3 and the right connecting outer frame 4 are made of metal materials with high rigidity, and are connected to the left connecting outer frame 3 and the right connecting outer frame through the connecting assembly 19, and foaming agents are filled between the thin plates 18 on the two sides to play a role in heat preservation; the heat insulation piece 22 is connected between the connecting surface 20 on the left connecting outer frame 3 and the right connecting outer frame 4 and the thin plate 18, so that heat insulation is realized, and the heat and cold loss can be effectively reduced;
the fastener 14 is arranged in the fastener installation cavity 23, after the installation and the fastening are finished, the foaming agent is filled in the fastener installation cavity 23 for heat preservation, and the decorative cover plate is flatly attached to the wall surface of the thin plate 18; the sheet 18 is fitted into the positioning groove 25 between the positioning projection 24 and the lower connecting surface 21, and the positioning groove 25 plays a role in limiting and fixing.
The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.
Although the combination type insulation board 1, the splice structure 2, the left connection frame 3, the right connection frame 4, the limit fixing member 5, the positioning convex portion 6, the positioning groove 7, the first positioning step 8, the second positioning step 9, the first projection 10, the second projection 11, the fixing member 12, the rivet nut 13, the fastener 14, the mounting step 15, the positioning concave portion 16, the concave point 17, the thin plate 18, the connection member 19, the upper connection face 20, the lower connection face 21, the heat insulating member 22, the fastener mounting chamber 23, the positioning convex portion 24, the positioning groove 25, and the like are used more herein, these terms are used only for more convenience in describing and explaining the essence of the present utility model; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present utility model.

Claims (10)

1. The utility model provides a frameless makeup combination, includes combination formula heated board (1), its characterized in that, combination formula heated board (1) between be connected through mosaic structure (2), mosaic structure (2) including setting up left connection frame (3) and right connection frame (4) in combination formula heated board (1) both sides, left connection frame (3) and right connection frame (4) of two adjacent combination formula heated board (1) between be connected through spacing fixed subassembly (5).
2. The frameless panel combination according to claim 1, wherein the limit fixing assembly (5) comprises a positioning protrusion (6) arranged on the side edge of the left connecting outer frame (3) and a positioning groove (7) arranged on the side edge of the right connecting outer frame (4) and adapted to the positioning protrusion (6).
3. The frameless jigsaw combination according to claim 2, characterized in that a first positioning step (8) is formed between the positioning convex part (6) and the upper connecting surface of the left connecting outer frame (3), a second positioning step (9) is formed between the positioning convex part (6) and the lower connecting surface of the left connecting outer frame (3), and a first lug (10) and a second lug (11) which are matched with the first positioning step (8) and the second positioning step (9) are respectively formed between the positioning groove (7) and the upper connecting surface and the lower connecting surface of the right connecting outer frame (4).
4. The frameless panel combination according to claim 1, wherein the limit fixing component (5) further comprises a fixing component (12) arranged between the positioning convex part (6) and the positioning groove (7), the fixing component (12) comprises a rivet nut (13) and a fastener (14), the rivet nut (13) is arranged on the lower groove surface of the positioning groove (7), and the fastener (14) penetrates through the positioning convex part (6) and the positioning groove (7) to be connected with the rivet nut (13).
5. A frameless jigsaw combination according to claim 3, wherein the lower groove surface of the positioning groove (7) on the right connecting outer frame (4) is provided with a mounting step (15) for mounting a riveting nut (13), and the upper end surface of the riveting nut (13) is flush with the lower groove surface of the positioning groove (7).
6. The frameless jigsaw combination according to claim 2, wherein the upper and lower end surfaces of the positioning convex part (6) and the upper and lower groove surfaces of the positioning groove (7) are centrally provided with a positioning concave part (16), and the center of the positioning concave part (16) is provided with a concave point (17).
7. The frameless jigsaw combination according to claim 1, wherein the combined heat-insulating board (1) comprises thin plates (18) arranged at two sides of the left connecting outer frame (3) and the right connecting outer frame (4), and the thin plates (18) are connected with the left connecting outer frame (3) and the right connecting outer frame through a connecting component (19).
8. The frameless jigsaw combination of claim 7, wherein the left connecting frame (3) and the right connecting frame (4) comprise an upper connecting surface (20) and a lower connecting surface (21), the connecting assembly (19) comprises a heat-insulating member (22), two sides of the heat-insulating member (22) are respectively connected with the upper connecting surfaces (20) of the left connecting frame (3) and the right connecting frame (4) and the thin plate (18) through glue, and the heat-insulating member (22) is coated on the upper connecting surfaces (20) of the left connecting frame (3) and the right connecting frame (4).
9. The frameless panel combination according to claim 6, wherein a fastener mounting cavity (23) is provided between the upper connecting surface (20) of the right connecting frame (4) and the sheet (18), and the fastener mounting cavity (23) is filled with a foaming agent.
10. The frameless panel combination according to claim 7, wherein the connecting assembly (19) further comprises a positioning protrusion (24) arranged on the inner side of the lower connecting surface (21) of the left connecting outer frame (3) and the right connecting outer frame (4), and a positioning groove (25) is formed between the positioning protrusion (24) and the lower connecting surface (21).
CN202223219863.7U 2022-11-30 2022-11-30 Frameless jointed board combination Active CN219586951U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202223219863.7U CN219586951U (en) 2022-11-30 2022-11-30 Frameless jointed board combination

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202223219863.7U CN219586951U (en) 2022-11-30 2022-11-30 Frameless jointed board combination

Publications (1)

Publication Number Publication Date
CN219586951U true CN219586951U (en) 2023-08-25

Family

ID=87691830

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202223219863.7U Active CN219586951U (en) 2022-11-30 2022-11-30 Frameless jointed board combination

Country Status (1)

Country Link
CN (1) CN219586951U (en)

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