CN215054057U - Splicing structure of composite board - Google Patents

Abstract

The utility model relates to the technical field of composite board splicing structures, in particular to a splicing structure of composite boards, which comprises a first composite board, a second composite board, an electric connecting piece and a main controller, wherein the electric connecting piece and the main controller are used for connecting the first composite board and the second composite board, the main controller is communicated with the electric connecting piece, and the first composite board comprises a first inner heat-insulating layer, a first substrate layer and a first outer heat-insulating layer which are arranged from inside to outside in sequence; the second composite board comprises a second inner heat-insulating layer, a second substrate layer and a second outer heat-insulating layer which are sequentially arranged from inside to outside; the electric connecting piece comprises a screw shell and a nut shell which are arranged oppositely, a bolt which is rotatably connected in the screw shell and is used for driving the bolt to be screwed in or out of a driving component adopted by the nut shell; the utility model discloses the installation is dismantled conveniently, and the installation is closely knit, has improved the heat preservation effect after the composite sheet concatenation, and the concatenation leakproofness is good, prevents effectively that concatenation gap department heat preservation effect is poor.

Description

Splicing structure of composite board

Technical Field

The utility model relates to a composite sheet mosaic structure technical field specifically is a mosaic structure of composite sheet.

Background

The assembly of composite boards in the current market is only simple to butt joint the tongue-and-groove parts. This simple docking method has the following disadvantages:

1. the installation and the disassembly are inconvenient, and the replacement or the maintenance in the later period is inconvenient;

2. the installation is not compact enough, the inside and the outside of the wall body can be ventilated through the splicing seams, the heat preservation effect is influenced, and the heat preservation effect of the composite board is greatly reduced;

3. the sealing performance of concatenation department is relatively poor, meets storm watering, and the infiltration phenomenon of different degrees can appear in concatenation gap department.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to foretell not enough, provide an installation and dismantle conveniently, the installation is closely knit, has improved the heat preservation effect after the composite sheet concatenation, and the concatenation leakproofness is good, effectively prevents the mosaic structure of the poor composite sheet of concatenation gap department heat preservation effect.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a splicing structure of composite boards comprises a first composite board, a second composite board, an electric connecting piece and a main controller, wherein the electric connecting piece and the main controller are used for connecting the first composite board and the second composite board; the second composite board comprises a second inner heat-insulating layer, a second substrate layer and a second outer heat-insulating layer which are sequentially arranged from inside to outside; the electric connecting piece comprises a screw shell and a nut shell which are arranged oppositely, a bolt which is rotatably connected in the screw shell and is used for driving the bolt to be screwed in or out of a driving component adopted by the nut shell; first base plate layer extends to first composite sheet outside is equipped with the lug, just right on the second composite sheet the lug is equipped with and is used for holding the mounting groove that the lug adopted, mounting groove locates in the second base plate layer, be equipped with a plurality of spacing posts on the lug, just right in the mounting groove spacing post is equipped with easily and holds the blind hole that spacing post adopted, screw casing and nut casing are located respectively in spacing post and the blind hole.

Further, be equipped with first internal thread in the screw casing, be equipped with installation cavity and second internal thread in the screw casing, drive assembly is used for the drive the bolt is followed second internal thread screw in or screw out first internal thread.

Further, be equipped with sub-controller and sub-battery in the installation cavity, the equal electric connection of sub-battery and drive assembly the sub-controller, the sub-controller includes sub-control module, wireless module and the sub-communication module of charging, sub-control module is used for control the drive assembly, wireless module of charging is used for giving the wireless charging of sub-battery, sub-communication module is used for the communication connection main control unit.

Further, the driving assembly comprises a rotary driving mechanism for driving the bolt to rotate, and a telescopic driving mechanism for driving the rotary driving mechanism to move, wherein the telescopic driving mechanism is arranged in the mounting cavity.

Further, the rotary driving mechanism comprises a rotary seat movably arranged in the second internal thread hole, and a rotary motor arranged in the rotary seat, wherein an output shaft of the rotary motor is in driving connection with the bolt.

Furthermore, the telescopic driving mechanism is an electric telescopic rod, and a piston rod head of the electric telescopic rod extends into the second internal threaded hole to be connected with the rotating seat in a driving mode.

Further, main control unit includes the main control casing, locates main control module, control button, main communication module, main battery and wireless power module in the main control casing, main communication module communication connection the sub-controller.

The utility model has the advantages that:

in practical application, during installation, the bump on one side of the first substrate layer is aligned to the installation groove on the second substrate layer, the limiting column is aligned to the blind hole, the first composite board and the second composite board are spliced, the spliced first composite board and the spliced second composite board are pressed, and the main controller controls the driving assembly to drive the bolt to be screwed into the nut shell from the screw shell; when the first composite board and the second composite board are disassembled, the main controller controls the driving assembly to drive the bolt to be screwed out of the nut shell, and then the first composite board and the second composite board can be separated; the utility model discloses the installation is dismantled conveniently, and the installation is closely knit, has improved the heat preservation effect after the composite sheet concatenation, and the concatenation leakproofness is good, prevents effectively that concatenation gap department heat preservation effect is poor.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a top view of the utility model after splicing;

FIG. 3 is a cross-sectional view taken at A-A of FIG. 2;

fig. 4 is a schematic structural diagram of the main controller of the present invention;

reference numerals: a first composite sheet 1; a first inner insulating layer 11; a first substrate layer 12; a bump 121; a stopper 1211; a first outer insulating layer 13; a second composite sheet 2; a second inner insulating layer 21; a second substrate layer 22; a mounting groove 221; a second outer insulating layer 23; a screw housing 31; a first internal thread 311; a nut housing 32; a mounting cavity 321; a second internal thread 322; a sub-controller 323; the sub-battery 324; a bolt 33; a rotary stand 3411; a rotary electric machine 3412; an electric telescopic bar 3421; a main controller 4; a main control module 42; a main battery 43.

Detailed Description

As shown in fig. 1, 2, 3 and 4, a splicing structure of composite boards includes a first composite board 1, a second composite board 2, an electric connector and a main controller 4, wherein the electric connector and the main controller 4 are used for connecting the first composite board 1 and the second composite board 2, the main controller 4 is in communication connection with the electric connector, and the first composite board 1 includes a first inner insulating layer 11, a first substrate layer 12 and a first outer insulating layer 13 which are sequentially arranged from inside to outside; the second composite board 2 comprises a second inner heat-insulating layer 21, a second substrate layer 22 and a second outer heat-insulating layer 23 which are arranged from inside to outside in sequence; the electric connecting piece comprises a screw shell 31 and a nut shell 32 which are arranged oppositely, a bolt 33 which is rotatably connected in the screw shell 31 and is used for driving the bolt 33 to be screwed in or out of a driving component adopted by the nut shell 32; the first substrate layer 12 extends to the outside of the first composite board 1 and is provided with a bump 121, the second composite board 2 is provided with a mounting groove 221 facing the bump 121 and used for accommodating the bump 121, the mounting groove 221 is arranged in the second substrate layer 22, the bump 121 is provided with a plurality of limiting columns 1211, blind holes easily accommodating the limiting columns 1211 and used for accommodating the limiting columns are arranged in the mounting groove 221 and facing the limiting columns 1211, and the screw shell 31 and the nut shell 32 are respectively arranged in the limiting columns 1211 and the blind holes.

During installation, after the main controller 4 is in communication connection with the electric connecting piece, the bump 121 on one side of the first substrate layer 12 is aligned to the installation groove 221 on the second substrate layer 22, the limiting column 1211 is aligned to the blind hole, the first composite board 1 and the second composite board 2 are spliced, the spliced first composite board 1 and second composite board 2 are pressed, and the main controller 4 controls the driving assembly to drive the bolt 33 to be screwed into the nut shell 32 from the screw shell 31; during disassembly, the main controller 4 controls the driving assembly to drive the bolt 33 to be screwed out of the nut shell 32, so that the first composite board 1 and the second composite board 2 can be separated; the utility model discloses the installation is dismantled conveniently, and the installation is closely knit, has improved the heat preservation effect after the composite sheet concatenation, and the concatenation leakproofness is good, prevents effectively that concatenation gap department heat preservation effect is poor.

As shown in fig. 1, 2, 3 and 4, a first internal thread 311 is provided in the screw housing 31, a mounting cavity 321 and a second internal thread 322 are provided in the nut housing 32, and the driving assembly is configured to drive the bolt 33 to screw in or screw out the first internal thread 311 from the second internal thread 322; in this embodiment, the first composite board 1 and the second composite board 2 are spliced, and after the spliced first composite board 1 and the spliced second composite board 2 are pressed, the bolt 33 is controlled by the main controller 4 to be screwed into the first internal thread 311 from the second internal thread 322, so that the first composite board 1 and the second composite board 2 can be connected.

As shown in fig. 1, 2, 3 and 4, a sub-controller 323 and a sub-battery 324 are disposed in the mounting cavity 321, the sub-battery 324 and the driving component are both electrically connected to the sub-controller 323, the sub-controller 323 includes a sub-control module, a wireless charging module and a sub-communication module, the sub-control module is configured to control the driving component, the wireless charging module is configured to wirelessly charge the sub-battery 324, and the sub-communication module is configured to be communicatively connected to the main controller 4; in this embodiment, the sub-control module controls the driving assembly, the wireless charging module wirelessly charges the sub-storage battery 324, and the sub-storage battery 324 charges the sub-controller 323.

As shown in fig. 1, 2, 3 and 4, the driving assembly includes a rotary driving mechanism for driving the bolt 33 to rotate, and a telescopic driving mechanism for driving the rotary driving mechanism to move, and the telescopic driving mechanism is installed in the installation cavity 321; in this embodiment, the bolt 33 is driven to rotate by the rotation driving mechanism, and the rotation driving mechanism is driven to move by the telescopic driving mechanism, so that the bolt 33 is screwed into or screwed out of the first internal thread 311.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the rotation driving mechanism includes a rotating base 3411 movably disposed in the second internal thread 322, a rotating motor 3412 installed in the rotating base 3411, and an output shaft of the rotating motor 3412 is drivingly connected to the bolt 33; in this embodiment, a rotary motor 3412 is attached to the rotary holder 3411, and the bolt 33 is rotated by the rotary motor 3412.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the telescopic driving mechanism is an electric telescopic rod 3421, and a rod head of a rod of the electric telescopic rod 3421 extends into the hole of the second internal thread 322 to be connected to the rotating seat 3411; in this embodiment, the driving bolt 33 extends into or out of the second internal thread 322 by the extension and contraction of the rod head of the electric telescopic rod 3421.

As shown in fig. 1, 2, 3 and 4, the main controller 4 includes a main control housing 41, a main control module 42, a control button, a main communication module, a main storage battery 43 and a wireless power supply module, which are disposed in the main control housing 41, and the main communication module is communicatively connected to the sub-controller 323; in this embodiment, the sub-communication module is connected to the main communication module in a communication manner, a control command is input through the control button, the control command is sent to the sub-controller 323 through the main communication module, and the sub-storage battery 324 is wirelessly charged through the main storage battery 43, the wireless power supply module and the wireless charging module.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the scope and spirit of the invention as defined in the accompanying claims.

Claims (7)

1. The utility model provides a mosaic structure of composite sheet which characterized in that: the composite board comprises a first composite board (1), a second composite board (2), an electric connecting piece and a main controller (4), wherein the electric connecting piece and the main controller (4) are used for connecting the first composite board (1) and the second composite board (2), the main controller (4) is in communication connection with the electric connecting piece, and the first composite board (1) comprises a first inner heat-insulating layer (11), a first substrate layer (12) and a first outer heat-insulating layer (13) which are sequentially arranged from inside to outside; the second composite board (2) comprises a second inner heat-insulating layer (21), a second substrate layer (22) and a second outer heat-insulating layer (23) which are sequentially arranged from inside to outside; the electric connecting piece comprises a screw shell (31) and a nut shell (32) which are arranged oppositely, a bolt (33) which is rotatably connected in the screw shell (31) and a driving component which is used for driving the bolt (33) to be screwed in or out of the nut shell (32);

first base plate layer (12) extend to first composite sheet (1) outside is equipped with lug (121), just right on second composite sheet (2) lug (121) are equipped with and are used for holding mounting groove (221) that lug (121) adopted, mounting groove (221) are located in second base plate layer (22), be equipped with a plurality of spacing posts (1211) on lug (121), just right in mounting groove (221) spacing post (1211) is equipped with easily and holds the blind hole that spacing post (1211) adopted, screw casing (31) and nut casing (32) are located respectively in spacing post (1211) and the blind hole.

2. The composite panel mosaic structure of claim 1, wherein: be equipped with first internal thread (311) in screw casing (31), be equipped with installation cavity (321) and second internal thread (322) in nut casing (32), drive assembly is used for driving bolt (33) are followed second internal thread (322) are screwed in or are unscrewed first internal thread (311).

3. The composite panel mosaic structure of claim 2, wherein: be equipped with sub-controller (323) and sub-battery (324) in installation cavity (321), sub-battery (324) and the equal electric connection of drive assembly sub-controller (323), sub-controller (323) include sub-control module, wireless charging module and sub-communication module, sub-control module is used for control drive assembly, wireless charging module is used for giving sub-battery (324) wireless charging, sub-communication module is used for the communication connection main control unit (4).

4. The composite panel mosaic structure of claim 2, wherein: the driving assembly comprises a rotary driving mechanism for driving the bolt (33) to rotate and a telescopic driving mechanism for driving the rotary driving mechanism to move, and the telescopic driving mechanism is installed in the installation cavity (321).

5. The composite panel mosaic structure of claim 4, wherein: the rotary driving mechanism comprises a rotary seat (3411) movably arranged in the second internal thread (322) hole, a rotary motor (3412) installed in the rotary seat (3411), and an output shaft of the rotary motor (3412) is in driving connection with the bolt (33).

6. The composite panel mosaic structure of claim 5, wherein: the telescopic driving mechanism is an electric telescopic rod (3421), and a piston rod head of the electric telescopic rod (3421) extends into the second internal thread (322) hole to be connected with the rotating seat (3411) in a driving mode.

7. A composite panel mosaic structure according to claim 3, wherein: the main control unit (4) comprises a main control shell (41) and is arranged on a main control module (42), a control button, a main communication module, a main storage battery (43) and a wireless power supply module in the main control shell (41), wherein the main communication module is in communication connection with the sub-controller (323).

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