CN210713218U - Energy-concerving and environment-protective type cordwood system removable frame construction removes for building limit portion connect self-locking structure - Google Patents

Abstract

An energy-saving and environment-friendly edge connection self-locking structure for a building block type detachable frame structure mobile building. The structure comprises a support column and three connecting cross beams. At least one end of the support column is provided with a connecting locking pin; one end of the third connecting beam is provided with a connecting groove, one ends of the first connecting beam and the second connecting beam are respectively provided with a connecting block matched with the connecting groove, and the three connecting beams are nested together and then are in a T shape; the first connecting cross beam, the second connecting cross beam and the third connecting cross beam are respectively provided with a half locking groove, and the half locking grooves are matched together to form a complete locking groove matched with the connecting locking pin. The self-locking structure is built without cement stones, connecting pieces such as bolts and screws and energy sources such as construction water and electricity, dustless environment-friendly construction is achieved, and therefore, no environment pollution is caused, and energy conservation and environment protection are really achieved. All components can be repeatedly recycled, so that a large amount of natural resources can be saved, and sustainable development is really realized.

Description

Energy-concerving and environment-protective type cordwood system removable frame construction removes for building limit portion connect self-locking structure

Technical Field

The utility model belongs to the technical field of remove the building, in particular to self-locking structure is connected with limit portion to energy-concerving and environment-protective type removable framework structure of cordwood system removal building.

Background

Most of building materials used by the traditional building are steel bars, cement, bricks, stones and the like, and the building construction process are completed on site. These building materials are heavy, time and labor consuming to transport and construct, and cause serious environmental pollution.

The inventor of the previous application filed an invention patent entitled "Modular containerizable building and method of construction" (patent number ZL 201410632901.2). The patent uses a container as a carrier, and can also be classified as a container house, or MMI house (modular made identity): a building which is composed of a carrier and modular single pieces, can be telescopically deformed, can be assembled and disassembled for a plurality of times, and can be used for loading components into the carrier (a container) for transportation. The building adopts a modular design, all building units are made into unit modules and are manufactured in a factory workshop.

In addition, the Chinese patent ZL201610255028.9 discloses an invention patent named as 'a movable house'. ZL201720652561.9 discloses a utility model patent named "expandable mobile house". ZL201721026468.3 discloses a utility model patent named "a whole assembled mobile house". ZL201721497229.6 discloses a utility model named "a mobile house of unlimited concatenation formula". In the patents, the cabinet body of a container or a similar container is used as the main body of the house, and on the basis, the house is built or expanded. The main body of the house of the building is made into a container or a cabinet body similar to the container to be transported to a construction site and then constructed, and the transportation and construction of the integral house main body can not be suitable for some special sites and environments.

In addition, a part of the connecting parts of the mobile houses is made into an integral structure or a welding structure, and the structure is not suitable for building a frame type mobile building consisting of supporting columns and connecting beams. And the connection structure affects the integral appearance aesthetic feeling and effect by connecting the parts through bolts.

ZL201721497227.7 discloses a utility model patent named "a connection structure of concatenation formula mobile home". This patent includes the room body, connection tip structure and spread groove structure, the inside connection tip structure that is equipped with of the internal one end in room, the inside spread groove structure that is equipped with of the internal other end in room, and two adjacent rooms body is through connection tip structure and spread groove structure interconnect, the connection tip structure is including smooth chamber, electro-magnet, spring, slide, magnet and card tip, it is internal that smooth chamber is located the room, smooth chamber one end is fixed with the electro-magnet, electro-magnet one side fixed connection spring one end, spring other end fixed connection slide, and the slide is close to spring one side and is fixed with magnet, spring one side fixed connection card tip is kept away from to the slide, the spread groove structure includes draw-in groove, push rod groove, intercommunication groove and push rod motor, the draw-in groove below is equipped with the push. Obviously, the connection structure involves many parts and is complicated in structure, and the connection structure is only suitable for connection between the whole mobile house units (house bodies), but not suitable for connection structures in frame type mobile buildings consisting of support columns and connection beams.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the above-mentioned not enough of prior art, provide an energy-concerving and environment-protective type cordwood system removable frame construction removes limit portion for building and connects self-locking structure.

The technical scheme of the utility model:

an energy-saving environment-friendly building block type detachable frame structure edge connection self-locking structure for a mobile building, which comprises a support column and three connecting cross beams, namely a first connecting cross beam, a second connecting cross beam and a third connecting cross beam;

the end part of at least one end of the supporting column is provided with a connecting locking pin; one end of the third connecting beam is provided with a connecting groove, one end of each of the first connecting beam and the second connecting beam is provided with a connecting block matched with the connecting groove, the height of each connecting block is less than half of the height of the connecting beam, the upper surface of the connecting block on the first connecting beam is flush with the upper surface of the connecting beam and is called the upper part of the connecting block, the connecting block on the second connecting beam is positioned below the connecting block on the first connecting beam and is called the lower part of the connecting block, the upper surface of the connecting block on the second connecting beam is attached to the lower surface of the connecting block on the first connecting beam, and the connecting blocks are embedded into the connecting grooves on the third connecting beam after the first connecting beam and the second connecting beam are stacked to enable the three connecting beams to be T; the upper and lower corresponding positions of the inner side of each connecting block on the first connecting beam and the second connecting beam are respectively provided with an open groove to form a half locking groove matched with the locking pin connected with the end part of the supporting column, namely a half locking groove, which is respectively called as the upper part of the first half locking groove and the lower part of the first half locking groove, the third connecting beam corresponding to the first half locking groove is provided with the other half locking groove called as the second half locking groove, and the two half locking grooves are matched together to form a complete locking groove matched with the locking pin connected with the end part of the supporting column.

A locking fixing block is arranged on one side, facing outwards, of the tail end of the connecting locking pin at the end part of the supporting column; a corner of the connecting cross beam on the side, opposite to the connecting groove, of the third connecting cross beam is cut off to form a concave part, the bottom of a second half locking groove in the third connecting cross beam is through to the concave part, and the depth of the through part is larger than or equal to the height of the locking fixing block.

The width of the connecting blocks at the end parts of the first connecting beam and the second connecting beam is smaller than that of the connecting beams, the inner side faces of the connecting blocks are parallel and level to the inner side faces of the connecting beams, and the end face of the third connecting beam matched with the first connecting beam and the second connecting beam which are stacked together is parallel and level to the outer side faces of the first connecting beam and the second connecting beam.

The utility model has the advantages and beneficial effect:

the utility model provides a self-locking structure is connected to limit portion is completely in order to remove the supporting and design of building with the removable assembled frame construction of energy-concerving and environment-protective type cordwood system, limit portion is connected self-locking structure and is adopted the modular design of unit, through the utility model provides a self-locking structure is connected to limit portion to and corresponding all the other supporting connection structure can build out the removal building frame of required arbitrary structure combination jointly, then can accomplish the building of the removable assembled frame construction of energy-concerving and environment-protective type cordwood system through the packing of wall body and the construction on roof again.

The self-locking structure is connected to limit portion's process of building does not use traditional building materials such as cement stone material, does not need connecting pieces such as any screw bolt, also need not energy such as construction water power consumption, has accomplished dustless environmental protection construction, consequently can not cause any environmental pollution, has really realized energy-concerving and environment-protective.

All unit components of the structure are detachable structures, so that the structure can be repeatedly detached without causing damage to any component, and all unit components can be repeatedly recycled, so that a large amount of natural resources can be saved, and sustainable development is really realized.

Drawings

FIG. 1 is a schematic view of the lower end of a supporting column of an edge connecting self-locking structure;

FIG. 2 is a schematic view of the upper end of a supporting column of the edge connecting self-locking structure;

FIG. 3 is a partially exploded view of the edge connecting self-locking mechanism;

fig. 4 is an exploded view of the self-locking mechanism for edge attachment.

In the figure, 1 support column, 11 connecting locking pins, 12 locking fixing blocks, 2A first connecting beam, 2B second connecting beam, 2C third connecting beam, 21 locking grooves, 211 first half locking groove upper part, 212 first half locking groove lower part, 213 second half locking groove, 22 connecting groove, 23A connecting block upper part, 23B connecting block lower part and 24 concave part.

Detailed Description

Examples 1,

As shown in fig. 1 to 4, an energy-saving and environment-friendly modular detachable frame structure edge connection self-locking structure for a mobile building comprises a support column 1 and three connecting beams, namely a first connecting beam 2A, a second connecting beam 2B and a third connecting beam 2C;

the end part of at least one end of the supporting column is provided with a connecting locking pin 11; one end of the third connecting beam 2C is provided with a connecting groove 22, one end of each of the first connecting beam and the second connecting beam is provided with a connecting block matched with the connecting groove, the height of each connecting block is less than half of the height of the connecting beam, the upper surface of the connecting block on the first connecting beam is flush with the upper surface of the connecting beam and is called as an upper connecting block portion 23A, the connecting block on the second connecting beam is positioned below the connecting block on the first connecting beam and is called as a lower connecting block portion 23B, the upper surface of the connecting block on the second connecting beam is attached to the lower surface of the connecting block on the first connecting beam, and after the first connecting beam and the second connecting beam are stacked, the connecting blocks (23A and 23B) are embedded into the connecting grooves 22 on the third connecting beam to enable the three connecting beams to be in a T shape (see fig; the corresponding positions of the upper and lower sides of the inner sides of the connecting blocks on the first connecting beam and the second connecting beam are respectively provided with an open groove to form a half locking groove which is matched with the locking pin connected with the end part of the supporting column, and the half locking grooves are respectively called as a first half locking groove upper part 211 and a first half locking groove lower part 212, the third connecting beam corresponding to the first half locking groove is provided with a second half locking groove which is called as a second half locking groove 213, and the two half locking grooves are matched together to form a complete locking groove 21 matched with the locking pin connected with the end part of the supporting column (see fig. 3).

A locking fixed block 12 is further arranged on the outward side of the tail end of the connecting locking pin at the end part of the supporting column; and a corner of the connecting cross beam on the side of the third connecting cross beam opposite to the connecting groove is cut off to form a concave part 24 (see fig. 4), the bottom of a second half locking groove on the third connecting cross beam is through to the concave part, and the depth of the through part is greater than or equal to the height of the locking fixing block.

The width of the connecting blocks at the end parts of the first connecting beam and the second connecting beam is smaller than that of the connecting beams, the inner side surfaces of the connecting blocks are flush with the inner side surfaces of the connecting beams (see fig. 4), and the end surface of a third connecting beam matched with the first connecting beam and the second connecting beam which are stacked together is flush with the outer side surfaces of the first connecting beam and the second connecting beam (see fig. 3).

During construction, firstly, connecting blocks (23A and 23B) at the end parts of a first connecting beam 2A and a second connecting beam 2B are stacked together, then the connecting blocks are embedded into a connecting groove 22 on a third connecting beam 2C to enable the three connecting beams to be T-shaped (see fig. 3), then a connecting locking pin 11 at the end part of a supporting column is inserted into a locking groove 21 after matching, see fig. 3, wherein the width of the locking groove 21 is more than or equal to the total width of the connecting locking pin and the locking fixing block, after insertion, the supporting column is moved outwards to enable the lower edge of the locking fixing block 12 to abut against the bottom of a concave part 24 to realize locking and fixing, and self-locking and fixing of an edge part connecting structure are completed, as shown in fig. 1 or fig.

Claims (3)

1. An energy-saving environment-friendly modular detachable frame structure edge connection self-locking structure for a mobile building is characterized in that the connection self-locking structure comprises a support column and three connecting cross beams, namely a first connecting cross beam, a second connecting cross beam and a third connecting cross beam;

the end part of at least one end of the supporting column is provided with a connecting locking pin; one end of the third connecting beam is provided with a connecting groove, one end of each of the first connecting beam and the second connecting beam is provided with a connecting block matched with the connecting groove, the height of each connecting block is less than half of the height of the connecting beam, the upper surface of the connecting block on the first connecting beam is flush with the upper surface of the connecting beam and is called the upper part of the connecting block, the connecting block on the second connecting beam is positioned below the connecting block on the first connecting beam and is called the lower part of the connecting block, the upper surface of the connecting block on the second connecting beam is attached to the lower surface of the connecting block on the first connecting beam, and the connecting blocks are embedded into the connecting grooves on the third connecting beam after the first connecting beam and the second connecting beam are stacked to enable the three connecting beams to be T; the upper and lower corresponding positions of the inner side of each connecting block on the first connecting beam and the second connecting beam are respectively provided with an open groove to form a half locking groove matched with the locking pin connected with the end part of the supporting column, namely a half locking groove, which is respectively called as the upper part of the first half locking groove and the lower part of the first half locking groove, the third connecting beam corresponding to the first half locking groove is provided with the other half locking groove called as the second half locking groove, and the two half locking grooves are matched together to form a complete locking groove matched with the locking pin connected with the end part of the supporting column.

2. The energy-saving environment-friendly modular detachable frame structure edge connection self-locking structure as claimed in claim 1, wherein a locking fixing block is provided at an outward side of a connecting locking pin at the end of the supporting column; a corner of the connecting cross beam on the side, opposite to the connecting groove, of the third connecting cross beam is cut off to form a concave part, the bottom of a second half locking groove in the third connecting cross beam is through to the concave part, and the depth of the through part is larger than or equal to the height of the locking fixing block.

3. An edge connection self-locking structure for an energy-saving and environment-friendly modular demountable frame structure mobile building according to claim 2, wherein the width of the connecting blocks at the ends of the first connecting beam and the second connecting beam is smaller than the width of the connecting beams, the inner side surfaces of the connecting blocks are flush with the inner side surfaces of the connecting beams, and the end surface of the third connecting beam after the third connecting beam is matched with the first connecting beam and the second connecting beam which are stacked together is flush with the outer side surfaces of the first connecting beam and the second connecting beam.

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