CN115853217A

CN115853217A - Assembly type building module and construction method thereof

Info

Publication number: CN115853217A
Application number: CN202211435942.3A
Authority: CN
Inventors: 唐海玉
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-11-16
Filing date: 2022-11-16
Publication date: 2023-03-28

Abstract

The invention relates to the technical field of assembly type building modules, in particular to an assembly type building module and a construction method thereof; the building block comprises an outer plate, an upper groove, a pressing strip, a seal strip and a bottom strip, wherein the outer surface of the outer plate is provided with stripes, the upper groove and the pressing strip are formed at the upper end and the lower end of the outer plate, the front end of the upper groove and the rear end of the pressing strip are both provided with clamping holes, and the seal strip and the bottom strip are connected to the front end of the upper groove and the rear end of the pressing strip through the clamp blocks; the pressing strip in the upper block can be buckled in the upper groove in the lower block; s1: paving a rubber plate on the wall body and drilling holes on the wall body and the rubber plate; s2: connecting a plurality of blocks and enabling the cutting sleeve and the inner rod to enter the corresponding holes; s3: the inner rod is pulled out by the nut, so that the clamping sleeve is opened by the conical structure at the rear end of the inner rod and clamped in the hole; s4: extruding the foam gap filler into the space between the hole and the cutting sleeve through the hollow part of the inner rod to fill the gap; is convenient to be flexibly and quickly installed on the wall for decoration.

Description

Assembly type building module and construction method thereof

Technical Field

The invention relates to the technical field of assembly type building modules, in particular to an assembly type building module and a construction method thereof.

Background

The modularization building is a rising building structure system, set up and the part that uses in the middle of the building carries out prefabricated production in the mill, transport to the scene and assemble into the building wholly through reliable connected mode after accomplishing, now to the panel of installing the decoration on the wall, the form is single, and interconnect is got up and all needs additional connecting piece, it is inconvenient to use, and the process is loaded down with trivial details when connecting, not only consume the time, and can influence the aesthetic measure after the installation, so this application provides an assembled building module and construction method, can effectual simplification installation, nimble quick installation is decorated on the wall.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the assembly type building module and the construction method thereof, which are convenient to flexibly and quickly install on a wall for decoration.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an assembly type building module comprises a plurality of blocks which can be fastened and connected with each other and then fixed on a wall body, wherein each block comprises an outer plate, an upper groove and a pressing strip, the outer surface of each outer plate is provided with stripes, the upper groove and the pressing strip are formed at the upper end and the lower end of each outer plate, clamping holes are formed in the front end of each upper groove and the rear end of each pressing strip, and a seal and a bottom strip are connected to the front end of each upper groove and the rear end of each pressing strip through clamping blocks; the pressing strip in the upper block can be buckled in the upper groove in the lower block.

The upper groove is provided with round holes, the rear end of each round hole is fixedly connected with a clamping sleeve, an inner rod with a conical structure is formed at the rear end of the clamping sleeve in a sliding mode, and the front end of the inner rod is provided with threads and connected with a nut.

The inner rod is hollow, two ends of the inner rod are open, and a foam gap filler can be added through the hollow part of the inner rod.

The rear end of the outer plate is fixedly connected with a honeycomb plate which can play a supporting role;

the construction method of the assembly type building module comprises the following steps:

s1: paving a rubber plate on the wall body and drilling holes on the wall body and the rubber plate;

s2: connecting a plurality of blocks and enabling the cutting sleeve and the inner rod to enter the corresponding holes;

s3: screwing the nut, and pulling out the inner rod by using the nut to enable the conical structure at the rear end of the inner rod to open the clamping sleeve to be clamped in the hole;

s4: extruding the foam gap filler into the space between the hole and the cutting sleeve through the hollow part of the inner rod to fill the gap;

s5: and a hollow part is arranged on the outer plate corresponding to the socket, and a square frame is clamped in the hollow part.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIGS. 1 and 2 are schematic structural views of a prefabricated building module according to the present invention;

FIG. 3 is a schematic view of the structure of the upper groove and the bead of the present invention;

FIG. 4 is a schematic view showing the structure of the outer plate and the locking hole in the present invention;

FIG. 5 is a schematic structural view of a ferrule and an inner rod of the present invention;

FIG. 6 is a schematic view of the seal of the present invention;

FIG. 7 is a schematic view of the construction of a backing strip according to the present invention;

FIG. 8 is a schematic structural view of a side plate and a buckle according to the present invention;

FIG. 9 is a schematic view showing the structure of a rubber sheet according to the present invention;

FIG. 10 is a schematic view of the hollow structure of the present invention;

FIG. 11 is a schematic view of the structure of the inner chamber of the present invention;

FIG. 12 is a schematic diagram of the structure of the block in the present invention.

Detailed Description

By observing fig. 1 to 12, one exemplary working process that can result in interconnecting multiple chunks according to what is shown in the figures is:

an assembled building module comprises a plurality of building blocks which can be fastened and connected with each other and then fixed on a wall body, wherein each building block comprises an outer plate 01 with stripes on the outer surface, an upper groove 02 and a pressing strip 03 are formed at the upper end and the lower end of each outer plate 01 respectively, clamping holes 04 are formed in the front end of each upper groove 02 and the rear end of each pressing strip 03, a seal 07 is connected to the front end of each upper groove 02 through a fixture block 05, and a bottom strip 06 is connected to the rear end of each pressing strip 03 through the fixture block 05; the pressing strip 03 in the upper block can be buckled in the upper groove 02 in the lower block; the plurality of the blocks are connected with each other, so that the blocks can be covered on the wall, the rapid installation is completed, and the surface of the wall is not required to be painted and decorated; the lower end of the outer plate 01 positioned above is buckled in the upper groove 02 at the upper end of the outer plate 01 positioned below by using the pressing strip 03 positioned at the lower end of the outer plate 01 positioned above, so that the block positioned above is pressed on the block positioned below, and the side walls between the upper groove 02 and the pressing strip 03 are mutually connected, so that a plurality of blocks are mutually connected; the seal strip 07 can be used for sealing and covering the upper groove 02 in the uppermost block, so that the surface of the outer plate 01 in the uppermost block is flat, and when the lowermost block is mounted, the bottom strip 06 is connected to the bead 03 at the lower end of the outer plate 01 in the lowermost block through the fixture block 05, so that the space between the bead 03 at the lower end of the outer plate 01 in the lowermost block and the wall and the ground is filled, and an overlarge gap between the wall and the ground is avoided.

An exemplary operation that may be achieved by observing fig. 1-12 to enhance the thermal insulation capability according to what is shown in the figures is:

an inner cavity 17 capable of being used for heat insulation is formed in the outer plate 01; the inner cavity 17 is used for reducing the heat transfer effect after the surfaces of the front side and the rear side of the outer plate 01 are influenced by the temperature, thereby enhancing the heat insulation capability.

By observing fig. 1 to 12, an exemplary operation of attaching the outer panel 01 to the wall body can be obtained according to the contents shown in the figures as follows:

round holes are formed in the upper groove 02, a cutting sleeve 09 is fixedly connected to the rear end of each round hole, an inner rod 11 with a conical structure formed at the rear end slides in the cutting sleeve 09, and the front end of the inner rod 11 is provided with threads and is connected with a nut 10; after drilling on the wall body, fill in interior pole 11 and cutting ferrule 09 in the hole, then screw up nut 10, utilize the outside pull of nut 10 to go up pole 11, the toper structure of utilizing interior pole 11 rear end struts cutting ferrule 09, make cutting ferrule 09 tightly by the extrusion in the hole in the middle of to make planking 01 compress tightly on the wall body by nut 10, can be convenient for with chunk quick connection on the wall body, also be convenient for dismantle the chunk from the wall body, realize the effect that fast assembly used.

By observing fig. 1 to 12, one exemplary working procedure for filling the gap can be obtained from the contents shown in the figures as follows:

the inner rod 11 is hollow, two ends of the inner rod are open, and a foam gap filler can be added through the hollow part of the inner rod 11; after the outer plate 01 is installed on the wall body, the foam gap filler can be extruded into the hollow of the inner rod 11, so that the foam gap filler enters gaps among the inner rod 11, the cutting sleeve 09 and the wall body upper hole through the hollow, gaps in the wall body are filled after installation, and the connection strength among the inner rod 11, the cutting sleeve 09 and the wall body upper hole is increased.

the circumference of the front end of the round hole is provided with a concave platform 08 for hiding the nut 10, and the nut 10 can be positioned below the surface of the upper groove 02 after being screwed down by utilizing the concave platform 08, so that the interference seal 07 is prevented from being buckled in the upper groove 02.

By observing fig. 1 to 12, one exemplary working process that can be obtained in supporting the outer panel 01 according to what is shown in the figures is:

the rear end of the outer plate 01 is fixedly connected with a honeycomb plate 14 which can play a supporting role; the honeycomb plate 14 can support the outer plate 01 between the wall body and the outer plate 01, so that the outer plate 01 is prevented from being easily damaged when being subjected to external force; meanwhile, the honeycomb structure can greatly reduce the weight of the outer plate 01 mounted on the wall body, is convenient to carry, and can fill the space between the wall body and the outer plate 01, so that the outer plate 01 is powerfully supported.

By observing fig. 1 to 12, one exemplary working procedure for increasing the connection strength can be obtained from the contents shown in the figures:

the equal fixedly connected with curb plate 12 of parcel honeycomb panel 14 in the both sides about planking 01, two curb plates 12 are connected through buckle 13 in controlling two adjacent chunks, about two curb plates 12 of two adjacent chunks can be inseparable when the installation together, then use buckle 13 to connect to can utilize buckle 13 taut with two adjacent chunks, strengthen the connecting strength of chunk about, thereby can make the chunk can interconnect.

By observing fig. 1-12, one exemplary process that can be flexibly used according to what is shown in the figures is:

the middle part of the block is provided with a hollow 16, a square frame 18 is embedded in the hollow 16, and a sliding door 19 is connected in the square frame 18 in a sliding way; when the socket, the switch and other facilities appear on the wall body, the hollow 16 can be arranged at the position of the corresponding outer plate 01 to expose the socket, the switch and other facilities, then the frame 18 is clamped into the hollow 16, the edges and corners of the edge of the hollow 16 can be covered by the frame 18, meanwhile, the attractiveness is improved, then, the sliding door 19 can be slid to cover or open the socket, the switch and other facilities by the sliding door 19, the socket, the switch and other facilities can be covered when the socket, the switch and other facilities are not used, the socket, the switch and other facilities are hidden, and the attractiveness of the surface of the wall body is improved.

By observing fig. 1-12, one exemplary process by which buffering can be added based on what is shown in the figures is:

planking 01 rear end and cellular board 14 rear end cover have the rubber slab 15 that can increase the buffering, set up one deck rubber slab 15 between wall body and chunk, not only can realize sealed between wall body and the chunk, can also realize cushioning when the chunk meets the striking, thereby reduce the vibrations transmission between wall body and the chunk, make the chunk increase bear the ability of striking, rubber slab 15 also can play thermal-insulated effect simultaneously, and rubber slab 15 chooses for use fire-retardant material, it is safer.

s1: paving a rubber plate 15 on the wall body, and drilling the wall body and the rubber plate 15;

s2: connecting a plurality of blocks with each other and enabling the cutting sleeve 09 and the inner rod 11 to enter the corresponding holes;

s3: screwing the nut 10, and pulling out the inner rod 11 by using the nut 10 to enable the conical structure distraction sleeve 09 at the rear end of the inner rod 11 to be clamped in the hole;

s4: extruding the foam gap filler into the space between the hole and the cutting sleeve 09 through the hollow inner rod 11 to fill the gap;

s5: a hollow 16 is arranged on the outer plate 01 corresponding to the socket, and a block 18 is clamped in the hollow 16.

Claims

1. The utility model provides an assembled building module, includes a plurality of chunks of fixing on the wall body after can mutual lock joint, its characterized in that: the block comprises an outer plate (01) with stripes on the outer surface, an upper groove (02) and a pressing strip (03) which are formed at the upper end and the lower end of the outer plate (01), clamping holes (04) are formed in the front end of the upper groove (02) and the rear end of the pressing strip (03), and a seal (07) and a bottom strip (06) which are connected with the front end of the upper groove (02) and the rear end of the pressing strip (03) through a clamping block (05); the pressing strip (03) in the upper block can be buckled in the upper groove (02) in the lower block.

2. A fabricated building module according to claim 1, wherein: an inner cavity (17) capable of being used for heat insulation is formed in the outer plate (01).

3. A fabricated building module according to claim 1, wherein: the upper groove (02) is provided with round holes, the rear end of each round hole is fixedly connected with a cutting sleeve (09), an inner rod (11) with a conical structure is formed in the cutting sleeve (09) in a sliding mode, and the front end of the inner rod (11) is provided with threads and connected with a nut (10).

4. A fabricated building module according to claim 3, wherein: the inner rod (11) is hollow, two ends of the inner rod are open, and a foam caulking agent can be added through the hollow part of the inner rod (11).

5. A fabricated building module according to claim 3, wherein: and a concave platform (08) used for hiding the nut (10) is arranged around the front end of the round hole.

6. A fabricated building module according to claim 5 or 4, wherein: the rear end of the outer plate (01) is fixedly connected with a honeycomb plate (14) which can play a supporting role.

7. A fabricated building module according to claim 6, wherein: both sides all fixedly connected with curb plate (12) of parcel honeycomb panel (14) about planking (01), two curb plates (12) are connected through buckle (13) in two adjacent chunks about.

8. A fabricated building module according to claim 7, wherein: the middle part of the block is provided with a hollow (16), a square frame (18) is embedded in the hollow (16), and a sliding door (19) is connected in the square frame (18) in a sliding manner.

9. A fabricated building module according to claim 8, wherein: the rear ends of the outer plate (01) and the honeycomb plate (14) are covered with a rubber plate (15) capable of increasing buffering.

10. The fabricated building module of claim 9, wherein the fabricated building module is constructed by a method comprising:

s1: paving a rubber plate (15) on the wall body, and drilling the wall body and the rubber plate (15);

s2: connecting a plurality of blocks with each other and enabling the clamping sleeve (09) and the inner rod (11) to enter the corresponding hole;

s3: the nut (10) is screwed down, the inner rod (11) is pulled out by the nut (10) to enable the expanding cutting sleeve (09) with the conical structure at the rear end of the inner rod (11) to be clamped in the hole;

s4: extruding the foam gap filler into the space between the hole and the clamping sleeve (09) through the hollow of the inner rod (11) to fill the gap;

s5: a hollow (16) is arranged on the outer plate (01) corresponding to the socket, and a frame (18) is clamped in the hollow (16).