CN114908938A - Fully-spliced building block type assembly space and splicing method - Google Patents

Abstract

The invention discloses a fully-spliced building block type assembly space and a splicing method, which comprises an indoor space with a wall surface and a top surface, a plurality of back plates (1), through pins (5) and a panel (6); the back plate is provided with a first through hole and is paved on the wall surface and the top surface; the second perforation is arranged at the back of the panel, the first perforation is matched with the specification of the second perforation, one end of the penetrating pin is inserted and fixed in the second perforation, the other end of the penetrating pin is detachably inserted and arranged in the first perforation, so that the panel and the back plate are detachably connected and are sequentially paved on the wall surface and the top surface. During assembly, the back plate is fully paved on the wall surface and the top surface of the indoor space, and the panel is fully paved and detachably mounted on the back plate by utilizing the pin penetrating principle in the tenon-and-mortise structure. The assembly mode of the invention enables decoration to be more convenient, rapid and simple, and people can assemble the building blocks just like children, thereby greatly reducing the investment cost, time cost and labor cost and enabling decoration to have variability.

Description

Fully-spliced building block type assembly space and splicing method

Technical Field

The invention relates to the interior decoration of buildings, in particular to a fully-spliced building block type assembly space and a splicing method.

Background

The split mounting type decoration is an integrated decoration mode which can save decoration time and cost for consumers, save materials and resources and protect the whole environment. The existing assembly decoration is mainly realized by inserting adjacent decorative boards through connecting pieces or matching of male and female openings of the adjacent decorative boards, such as Chinese patents CN205171918 and CN 111075132A. Although the decoration method saves decoration time and reduces on-site decoration garbage, the decoration effect is unchanged, the maintenance is inconvenient, and the decoration can be changed only by professional refitting after finishing decoration.

Disclosure of Invention

The invention aims to solve the technical problems that the existing indoor decoration effect is unchanged and the maintenance is inconvenient, and provides a fully-spliced building block type assembly space and a splicing method which are simple to maintain and can change the space form according to the requirement.

In order to solve the technical problems, the invention adopts the following technical scheme:

a fully-spliced building block type assembly space comprises an indoor space with a wall surface and a top surface, a plurality of back plates, penetrating pins and panels;

the back plate is provided with a first through hole and is paved on the wall surface and the top surface;

the back of the panel is provided with a second through hole, the first through hole is matched with the specification of the second through hole, one end of the through pin is inserted and fixed in the second through hole, the other end of the through pin is detachably inserted in the first through hole, so that the panel and the back plate are detachably connected and are sequentially paved on the wall surface and the top surface.

According to the invention, the assembly space utilizes a pin penetrating principle in a mortise and tenon structure, the back plate and the panel are assembled into a whole by pin penetrating, the back plate, the pin penetrating and the panel are manufactured and completed in a factory, and only the installation is carried out according to a drawing on the site, so that the site decoration garbage is reduced, the method is more accurate and environment-friendly compared with the traditional decoration method, and the modularized assembly method breaks through the traditional decoration method, so that the decoration becomes more convenient, rapid, simple, accurate and beautiful, after the back plate is fixed during the first decoration, people can assemble the panel just like building blocks built by children, the input cost, the time cost and the labor cost of decoration are greatly reduced, and the decoration has variability and even thousands of changes instead of one change, and can be randomly changed at any time. In addition, backplate and panel can be according to the accurate design of interior space for the standard module of uniform dimension, have not only made things convenient for assembling in later stage, the consume greatly reduced of energy consumption, raw materials moreover, and the process also greatly reduced, and fitment output, quality, precision all can have better promotion.

Preferably, piece together cordwood system assembly space entirely still includes a plurality of link plates, link plate backplate, supporting link, the link plate backplate is installed the back of link plate, just arrange on the link plate backplate with the third perforation of first perforation matching, it is fixed to establish in the third perforation wear the round pin, the link plate warp wear the round pin can dismantle the appointed department of connection indoor design on the backplate, arrange a plurality of connecting rod grooves on the front of link plate, the supporting link inserts in the connecting rod groove, arrange on the supporting link with the fourth perforation of first perforation matching, the panel warp wear the round pin can dismantle the connection the fourth perforation of supporting link to in proper order to be paved with the supporting link. Therefore, the decoration shapes of the indoor space are more variable by increasing the hanging plates, the hanging plate back plates and the supporting connecting rods, and the decoration plate is more suitable for various indoor space decoration requirements of people.

Preferably, the hanging plate is a right-angled triangular plate, the hanging plate back plate is mounted on two right-angled edges of the hanging plate, and the connecting rod grooves are arranged on the bevel edge of the hanging plate, so that the hanging plate can be conveniently molded at the intersection of the wall surface and the top surface of an indoor space, and the decoration effect of the indoor space is improved.

In order to make the interior space after finishing have more variability, the link plate can have multiple specifications according to interior design needs and customer's needs.

In order to make the decorated indoor space more beautiful, the panels are assembled according to the I-shaped seams.

In order to facilitate the installation of hydropower equipment on the wall surface and the top surface, the back plate and the panel are respectively provided with a device installation opening corresponding to the wall surface and the hydropower installation end on the top surface.

Based on the same conception, the invention also provides a full-spliced building block type assembling space splicing method, wherein the back plate is fully paved on the wall surface and the top surface of the indoor space, and the full pavement of the face plate is detachably arranged on the back plate by utilizing the pin penetrating principle in the mortise and tenon structure.

Based on the same invention concept, the invention also provides a full-splicing building block type assembling space splicing method, which comprises the following steps:

s1, fully paving and fixing the back plate on the wall surface and the top surface of the indoor space;

s2, fixing the hanging plate back plate on the hanging plate;

s3, fixing the hanging plate back plate with the hanging plate fixed thereon on a back plate at an indoor design designated position by using a through pin;

s4, inserting the supporting connecting rod into the connecting rod groove of the hanging plate;

s5, inserting the through pin into a second through hole in the back of the panel;

and S6, assembling the panel inserted with the through pins on the back plate and the support connecting rod according to rules.

Preferably, step S2 is completed before step S1.

Preferably, step S5 is completed before step S1, step S2, step S3, or step S4.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention adopts a modular assembly mode to realize indoor decoration, so that the indoor decoration becomes simple, easy and quick and can be carried out by people just like building blocks;

2. the assembly space can be disassembled at any time after the assembly is finished, and the assembly space is assembled into another space form again, so that the indoor decoration can be changed at will without professional treatment, and is not invariable any more.

3. The invention realizes modular decoration by matching the panel and the back plate, only the damaged part can be directly and simply replaced, resource waste can not be caused, the decoration energy consumption and the consumption of raw materials are greatly reduced, and the working procedures are also greatly reduced.

4. The assembling method of the assembling space can change the material, texture, color, pattern, texture and the like of the panel (module) under the condition of keeping the principle of the assembling structure unchanged, so that decoration can be diversified and full of variability and multiple selectivity.

5. The assembling method of the assembly space can reduce the site construction links to the greatest extent, greatly reduce the labor and time cost, almost has no construction waste in the installation site, and is more environment-friendly.

6. The assembling method of the assembly space realizes factory-like and numerical control production, greatly reduces decoration cost, also reduces construction errors to the maximum extent, and has better improvement on decoration yield, quality and precision.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a front view of the fully-assembled building block type assembly space of the present invention.

Fig. 2 is a front view structural view of the back plate.

Fig. 3 is a side view structure of the hanging plate.

Fig. 4 is a front view structure of the hanging plate back plate.

Fig. 5 is a schematic structural view of the support link.

Fig. 6 is an exploded view of the panel and the pin.

FIG. 7 is a schematic view of the installation of the back plate of the first embodiment of the fully-spliced building block type assembly space of the present invention.

Fig. 8 is a schematic structural view of the hanging plate back plate of the first embodiment of the invention mounted on the hanging plate.

Fig. 9 is a schematic structural view of the mounting hanging plate and the support link according to the first embodiment of the present invention.

Fig. 10 is a schematic assembled structure of the first embodiment of the present invention.

FIG. 11 is a schematic structural view of a second embodiment of the fully-spliced building block type assembly space of the present invention after the hanging plate and the supporting connecting rod are installed.

FIG. 12 is a schematic view of the assembled structure of the fully-spliced building block type assembly space according to the second embodiment of the present invention.

Detailed Description

The invention is further described below with reference to specific preferred embodiments, without thereby limiting the scope of protection of the invention.

For convenience of description, the relative positional relationship of the components, such as: the descriptions of up, down, left, right, etc. are made with reference to the layout directions of the drawings in the specification, and do not limit the structure of the patent.

As shown in FIGS. 1-6, one embodiment of the fully-assembled modular assembly space of the present invention comprises an indoor space 7 with a wall surface 71 and a top surface 72, a backboard 1, a hanging plate 2, a hanging plate backboard 3, a support link 4, a through pin 5 and a panel 6;

the back plate 1 is orderly provided with first through holes 11, and the back plate 1 is paved on the wall surface 71 and the top surface 72;

a second through hole 61 is arranged on the back surface of the panel 6, the first through hole 11 is matched with the second through hole 61 in specification (the diameter is equal), one end of the through pin 5 is inserted and fixed in the second through hole 61, and the other end of the through pin is detachably inserted in the first through hole 11, so that the panel 6 is detachably connected with the back plate 1 and sequentially paved on the wall surface and the top surface;

the hanging plate back plate 3 is arranged in the mounting groove 22 on the back surface of the hanging plate 2, a third through hole 31 matched with the first through hole 11 is arranged on the hanging plate back plate 3, the penetrating pin 5 is inserted and fixed in the third through hole 31, and the hanging plate 2 is detachably connected with the back plate 1 at an indoor design designated position through the penetrating pin 5;

the front surface of the hanging plate 2 is provided with a plurality of connecting rod grooves 21, the supporting connecting rod 4 is inserted into the connecting rod grooves 21, the supporting connecting rod 4 is provided with a fourth through hole 41 matched with the first through hole 11, and the panel 6 is detachably connected with the fourth through hole 41 of the supporting connecting rod 4 through the through pin 5 and is sequentially paved with the supporting connecting rod 4.

In this embodiment, the hanging plate 2 is a right-angled triangle plate, the hanging plate backboard 3 is installed on two right-angled edges of the hanging plate 2, and a plurality of connecting rod grooves 21 are arranged on the bevel edge of the hanging plate 2, so that the hanging plate 2 can be conveniently connected with the wall surface of the indoor space and the backboard 1 at the intersection of the top surface, and the wall surface of the indoor space and the intersection of the top surface are decorated and modeled, thereby improving the decoration effect of the indoor space.

In order to make the indoor space after being decorated have more variability, the hanging plate 2 can have various specifications according to the indoor design requirement and the customer requirement, so that the decoration shape can be changed at any time according to the requirement.

In this embodiment, the panels 6 are assembled according to an i-shaped seam. Obviously, the panel of the present invention is not limited to this type of assembly, and other conventional joints in the field of decoration or construction, or specially designed special joints, may be used.

For the convenient hydroelectric equipment installation of indoor space wall and top surface, backplate 1 with correspond respectively on the panel 6 the wall with the device installing port is seted up to the water and electricity installation end on the top surface.

Obviously, the back plate 1 of the present invention functions to fix the hanging plate 2 and the face plate 6. The hanging plate 2 is used for fixing and positioning the supporting connecting rod 4 in space, so that the space form is changed, the space form is different, the hanging plate 2 is different in form, namely the positions of the supporting connecting rods 4 fixed by different hanging plates 2 in the space are different, and the space form and the appearance of the assembled panel 6 are completely different. The hanging plate back plate 3 is arranged on the hanging plate 2, the hanging plate back plate 3 is provided with the penetrating pin 5, and the hanging plate back plate 3 fixed with the hanging plate 2 is fixed on the back plate 1 by the penetrating pin 5 and can be detached. After the support link 4 is inserted into the link groove 21 of the link plate 2, its position in the space is fixed, and the front surface of the support link 4 is also penetrated with a fourth through hole 41 for fixing the panel 6 and its spatial position in the space. The through pin 5 is a round stick with a length of 2 cm and a diameter of one cm, and the through pin 5 is used for connecting the through holes on the back plate 1, the support connecting rod 4 and the panel 6 to play a fixing role. The panel 6 is used as a decorative surface layer, the size, the color, the texture and the like are determined according to the space size, the form requirement and the customer requirement, the panels 6 in one space are all in a uniform specification, the back surface of the panel 6 is regularly provided with second through holes 61, the through pins 5 are inserted into the second through holes 61, and the panels 6 can be assembled on the back plate 1 and the support connecting rod 4.

The invention relates to an assembling step of a fully-assembled building block type assembling space (total 6 steps):

s1, as shown in figure 7, fixing the back plate 1 on the wall surface and the top surface of the indoor space by screws, and fully paving (in the step, the concrete base layer of the building is required to be relatively flat, and the installation of water, electricity and air conditioners is finished);

s2, as shown in fig. 8, fixing the hanging plate back plate 3 on the hanging plate 2 by screws (in this step, the hanging plate back plate 3 is required to be placed at a corresponding position reserved on the hanging plate 2, and the hanging plate 2 is centered between the hanging plate back plates 3);

s3, as shown in fig. 9, fixing the hanging plate backboard 3 with the hanging plate 2 fixed thereon at the corresponding position of the backboard 1 by the through pin 5 (this step requires to complete the backboard 1 installation);

s4, inserting the support connecting rod 4 into the connecting rod groove 21 of the hanging plate 2 (the step requires the completion of the installation of the backboard 1 and the installation of the hanging plate 2 and the hanging plate backboard 3);

s5, inserting the through pin 5 into the second through hole 61 on the back of the panel 6;

and S6, as shown in FIG. 10, assembling the panel 6 with the inserted pins on the backboard 1 and the support connecting rod 4 according to the rule (the step requires finishing the installation of the backboard 1, the installation of the hanging plate 2, the installation of the support connecting rod 4 and the installation of the pins 5 on the panel 6).

The relation among the steps is as follows:

step S1 is for fixing the hanging plate and the panel module.

The steps S1 and S2 have no context, and the step S2 serves to fix the hanging plate.

The premise of step S3 is that steps S1, S2 are completed, and step S3 functions to fix the peg board on the backboard and the position of the peg board in space.

Step S4 requires the completion of steps S1, S2, S3, and step S4 functions to fix the support links and the position of the support links in the space for fixing the panel module.

Step S5 and steps 1, 2, S3 and 4 have no front-back relation, and the function of the connection device is to connect the backboard and the panel module, the backboard and the hanging plate backboard and the support connecting rod and the panel module.

The premise of step S6 is that steps S1, S2, S3, S4, S5 are completed, and step S6 is to present the final space decoration shape and effect.

The fully-spliced building block type assembly space is a space form spliced by the panel modules according to corresponding rules, has unique and attractive appearance, breaks through the traditional wall and top concept in design, explains a new cognition in decoration, and is important in decoration design, namely the space form, rather than only decoration.

The fully-spliced building block type assembling space modular assembling mode breaks through the traditional decorating mode, so that the decoration becomes more convenient, rapid and simple, and people can assemble the building blocks just like children building blocks; the investment cost, the time cost and the labor cost are greatly reduced; the decoration has changeability, even changes thousands of times, but not a complete change, and can be changed at any time; compared with the traditional decoration mode, the decoration mode is more accurate and more environment-friendly; the energy consumption and the consumption of raw materials are greatly reduced, and the working procedures are also greatly reduced; the yield, the quality and the precision are all improved better.

The fully-assembled building block type assembly space is characterized in that a product back plate is arranged on the wall surface and the top surface of an indoor space; installing corresponding product hanging plates and supporting connecting rods according to the selected space modeling; installing a panel module with a through pin; the panel modules with the installed through pins are assembled on the back plate, the material, color, texture and the like of the panel can be changed greatly, and different materials, colors and textures can be selected in different spaces, environments and climates.

The above description is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and those skilled in the art can make many possible variations and modifications to the technical solution of the present invention or modify equivalent embodiments using the technical content disclosed above without departing from the technical solution of the present invention. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims (10)

1. A fully-spliced building block type assembly space comprises an indoor space with a wall surface and a top surface, and is characterized by also comprising a plurality of back plates (1), penetrating pins (5) and panels (6);

the back plate is provided with a first through hole and is paved on the wall surface and the top surface;

the back of the panel is provided with a second through hole, the first through hole is matched with the specification of the second through hole, one end of the through pin is inserted and fixed in the second through hole, the other end of the through pin is detachably inserted in the first through hole, so that the panel and the back plate are detachably connected and are sequentially paved on the wall surface and the top surface.

2. The full-splicing building block type assembling space according to claim 1, further comprising a plurality of hanging plates (2), a hanging plate back plate (3) and a support connecting rod (4), wherein the hanging plate back plate is installed on the back surface of the hanging plate, a third through hole matched with the first through hole is formed in the hanging plate back plate, the through pin is inserted and fixed in the third through hole, the hanging plate is detachably connected with the back plate at an indoor design designated position through the through pin, a plurality of connecting rod grooves are formed in the front surface of the hanging plate, the support connecting rod is inserted into the connecting rod grooves, a fourth through hole matched with the first through hole is formed in the support connecting rod, and the panel is detachably connected with the fourth through hole of the support connecting rod through the through pin and sequentially paved on the support connecting rod.

3. The fully-spliced building block type assembling space as claimed in claim 2, wherein the hanging plate is a right-angled triangular plate, the hanging plate back plate is mounted on two right-angled edges of the hanging plate, and the connecting rod grooves are arranged on the oblique edges of the hanging plate.

4. The fully-assembled building block type assembly space as claimed in claim 2, wherein the hanging plate has various specifications according to indoor design requirements.

5. A fully-assembled building block type assembly space as claimed in any one of claims 1-4, wherein the panels are assembled according to I-shaped seams.

6. A fully-assembled building block type assembly space as claimed in any one of claims 1 to 4, wherein the back plate and the face plate are provided with device mounting openings corresponding to the water and electricity mounting ends on the wall surface and the top surface, respectively.

7. A method for assembling the building blocks in the assembling space as claimed in claim 1, wherein the back plate is fully laid on the wall and top of the indoor space, and the panel is detachably mounted on the back plate by the pin-through principle in the mortise and tenon structure.

8. A fully-assembled building block type assembly space assembling method as claimed in any one of claims 2-4, characterized by comprising the following steps:

s1, fully paving and fixing the back plate on the wall surface and the top surface of the indoor space;

s2, fixing the hanging plate back plate on the hanging plate;

s3, fixing the hanging plate back plate with the hanging plate fixed thereon on a back plate at an indoor design designated position by using a through pin;

s4, inserting the supporting connecting rod into the connecting rod groove of the hanging plate;

s5, inserting the through pin into the second through hole in the back of the panel;

and S6, assembling the panel inserted with the through pins on the back plate and the support connecting rod according to rules.

9. The method of claim 8, wherein step S2 is performed before step S1.

10. The method of assembling a fully-assembled building block type assembly space of claim 8, wherein step S5 is completed before step S1, step S2, step S3 or step S4.

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