CN211341293U - Partition wall - Google Patents

Abstract

The embodiment of the utility model discloses a partition wall, which comprises a plurality of first partition wall modules, wherein two sides of the first partition wall modules with the same extending direction are respectively provided with a first slot and a second slot, and the adjacent first partition wall modules are spliced through the first slot and the second slot; the first slot comprises a first groove plate and a second groove plate which are oppositely arranged, the second slot comprises a third groove plate and a fourth groove plate which are oppositely arranged, the second groove plate is connected between the third groove plate and the fourth groove plate in a clamped mode, and the fourth groove plate is connected between the first groove plate and the second groove plate in a clamped mode. The embodiment of the utility model can realize the rapid industrialized installation of the partition wall, greatly shorten the construction period, avoid the dirty condition of the traditional decoration operation site, have small noise and little pollution, and is beneficial to environmental protection; and the site does not need skilled technical workers for construction, the installation cost is reduced, meanwhile, the construction requirements of stone and ceramic tiles can be met, the veneer effect is rich, and the decoration effect is good.

Description

Partition wall

Technical Field

The utility model relates to a building decoration technical field, concretely relates to partition wall.

Background

The wall body is an important content of building construction and indoor decoration, and can be roughly divided into a solid bearing wall and a light partition wall according to functions; the solid bearing wall mainly plays structural roles of supporting, bearing and the like for buildings, and the light partition wall mainly plays roles of enclosing and dividing spaces.

The light partition wall in the prior art is mainly in the form of a light steel keel partition wall. When the light steel keel partition wall is built, a framework is formed by steel firstly, and panels are installed on two sides of the framework. The inventor is realizing the utility model discloses an in-process discovery, current skeleton partition wall have that the installation is complicated, installation period is long, the big scheduling problem of site operation noise.

SUMMERY OF THE UTILITY MODEL

In view of this, an embodiment of the present invention provides a partition wall to solve the above technical problems.

An embodiment of the utility model provides a partition wall, it includes: the first partition wall modules are provided with a first slot and a second slot on two sides in the same extending direction, and the adjacent first partition wall modules are inserted through the first slot and the second slot; the first slot comprises a first groove plate and a second groove plate which are oppositely arranged, the second slot comprises a third groove plate and a fourth groove plate which are oppositely arranged, the second groove plate is connected between the third groove plate and the fourth groove plate in a clamped mode, and the fourth groove plate is connected between the first groove plate and the second groove plate in a clamped mode.

Optionally, the first partition wall module includes a plurality of connection keels, first wallboard and the second wallboard that sets up relatively, be provided with first slot and second slot on the same both sides of first wallboard and second wallboard extending direction respectively, first wallboard towards the interior face of second wallboard with all be provided with a plurality of and the first inserting groove of being connected the keel one-to-one on the interior face of second wallboard towards first wallboard, it includes first bayonet joint and second bayonet joint to connect the keel, first bayonet joint and second bayonet joint respectively with the first inserting groove joint of two wallboards.

Optionally, first slot still includes first diaphragm and first riser, first diaphragm is formed by the interior face extension of first wallboard towards the second wallboard, the same both sides of first riser extending direction respectively with first diaphragm and second frid fixed connection.

Optionally, the second slot further includes a second transverse plate and a second vertical plate, the second transverse plate is formed by extending the outer plate surface of the first wall plate away from the second wall plate, and two sides of the second vertical plate, which have the same extending direction, are connected with the second transverse plate and the fourth groove plate respectively.

Optionally, still include the wall body adaptor, the wall body adaptor includes the switching body, be provided with first switching face on the switching body, be provided with first joint groove on the first switching face, first joint groove is pegged graft with first slot, first joint groove is including relative first cardboard and the second cardboard that sets up, second cardboard and first slot joint, the second frid joint is between first cardboard and second cardboard.

Optionally, the first clamping groove further includes a first fixing plate and a second fixing plate, two sides of the first fixing plate in the extending direction are respectively fixedly connected to the first turning surface and the first side of the second fixing plate, the second side of the second fixing plate is fixedly connected to the outer plate surface of the second clamping plate, and the extending directions of the first side and the second side are the same.

Optionally, the system also comprises a second partition wall module, wherein the second partition wall module comprises a first side edge sealing piece, a first wall body, a mounting keel, a second wall body and a second side edge sealing piece, the first side edge sealing piece and the second side edge sealing piece both comprise side sealing plates, the first plate surfaces of the side sealing plates are provided with first clamping parts, a second plate surface of the first side edge sealing piece, which is deviated from the first plate surface, is connected with the wall body adapter piece, a first clamping groove and a second clamping groove are arranged on two sides of the first wall body and the second wall body which have the same extending direction, the mounting keel is provided with a first clamping joint and a second clamping joint, the first clamping part of the first side edge sealing piece is clamped with the first clamping groove of the first wall body, the second clamping groove of the first wall body is connected with the first clamping joint in a clamped mode, the second clamping joint is connected with the first clamping groove of the second wall body in a clamped mode, and the second clamping groove of the second wall body is connected with the first clamping portion of the second side edge sealing piece in a clamped mode.

Optionally, first joint portion cavity, be provided with the first opening that is used for installing the sound insulating strip in the first joint portion, first opening orientation first face.

Optionally, the installation fossil fragments include the installation body, the installation body has relative first installation face and the second installation face that sets up, first installation face orientation is kept away from the direction of second installation face extends first mounting panel, the second installation face orientation is kept away from the direction of first installation face extends the second mounting panel, be provided with first joint head and second joint head on two faces of first mounting panel and second mounting panel respectively.

The partition wall provided by the embodiment of the utility model has the advantages that the plurality of first partition wall modules are arranged, the adjacent partition wall modules are inserted and connected through the first slots and the second slots, all parts are industrially produced in factories, only simple installation is needed in a decoration field, the rapid industrial installation of the partition wall is realized, the construction period is greatly shortened, the dirtier condition of the traditional decoration operation field is avoided, the noise is low, the pollution is low, and the environment protection is facilitated; and the construction of skilled technical workers is not needed on site, the installation cost is reduced, and in addition, the partition wall can also meet the construction requirements of stone and ceramic tiles, and has rich decorative effect and good decoration effect.

Drawings

Fig. 1 is a schematic structural diagram of a partition wall according to an embodiment of the present invention.

Fig. 2 is an exploded view of a first partition module according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a wall adapter according to an embodiment of the present invention.

Fig. 4 is an installation schematic diagram of the wall adapter of the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a second partition wall module according to an embodiment of the present invention.

Fig. 6 is a schematic structural view of a side edge sealing member according to an embodiment of the present invention.

Figure 7 is the structure of installation fossil fragments of the embodiment of the utility model discloses a schematic diagram.

Fig. 8 is a schematic structural view of a first partition board according to an embodiment of the present invention.

Fig. 9 is a schematic view of the connection between the second partition module and the original wall surface according to the embodiment of the present invention.

Fig. 10 is a schematic structural view of a side keel according to an embodiment of the invention.

Detailed Description

The technical solution of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

Fig. 1 shows the structure schematic diagram of the partition wall of the embodiment of the present invention, as shown in fig. 1, the partition wall of the embodiment of the present invention includes at least two first partition wall modules 7.

As shown in fig. 2, two sides of the first partition module 7 extending in the same direction are respectively provided with a first slot 711 and a second slot 712, and the adjacent first partition modules 7 are inserted through the first slot 711 and the second slot 712.

The first slot 711 includes a first slot plate 7111 and a second slot plate 7112 which are disposed oppositely, the second slot 712 includes a third slot plate 7121 and a fourth slot plate 7122 which are disposed oppositely, the second slot plate 7112 is clamped between the third slot plate 7121 and the fourth slot plate 7122, and the fourth slot plate 7122 is clamped between the first slot plate 7111 and the second slot plate 7112.

When assembling, the adjacent first partition wall modules 7 are directly connected by the first slot 711 and the second slot 712.

The partition wall provided by the embodiment of the utility model has the advantages that the plurality of first partition wall modules are arranged, the adjacent partition wall modules are inserted and connected through the first slots and the second slots, all parts are industrially produced in factories, only simple installation is needed in a decoration field, the rapid industrial installation of the partition wall is realized, the construction period is greatly shortened, the dirtier condition of the traditional decoration operation field is avoided, the noise is low, the pollution is low, and the environment protection is facilitated; and the construction of skilled technical workers is not needed on site, the installation cost is reduced, and in addition, the partition wall can also meet the construction requirements of stone and ceramic tiles, and has rich decorative effect and good decoration effect.

Preferably, as shown in fig. 2, the partition further comprises a wall adaptor 6, which comprises: the adapter comprises an adapter body, wherein the adapter body is provided with a first adapter surface 61 and a second adapter surface 62.

As shown in fig. 4, the first adapting surface 61 is provided with a first clamping groove 611 for clamping with a first partition wall module 7, and the second adapting surface 62 is used for connecting with another first partition wall module 7.

When the wall body adapter is used, the wall body adapter 6 is directly installed at a preset position, then the first clamping groove 611 and the first partition wall module 7 are clamped, the second adapter surface 62 is connected with the other first partition wall module 7, and the wall body adapter can be realized.

The wall body adapter is provided with the first joint groove through the first adapter surface and the second adapter surface, when the wall body is connected, the first partition wall module 7 is directly connected with the first joint groove in a clamped mode, the other first partition wall module 7 is connected with the second adapter surface, the wall body can be connected, the construction process can be simplified, the construction period is greatly shortened, and the wall body adapter efficiency is improved.

Preferably, the first clamping groove 611 includes a first clamping plate 6111 and a second clamping plate 6112 which are oppositely disposed, an inner plate surface of the first clamping plate 6111 facing the second clamping plate 6112 is provided with a first protruding portion, and an outer plate surface of the second clamping plate 6112 away from the first clamping plate 6111 is provided with a second protruding portion. Through setting up first joint groove 611 into first cardboard 6111 and second cardboard 6112, can conveniently with first partition wall module 7 joint, improve assembly efficiency.

As shown in fig. 3, the first card 6111 and the second card 6112 are perpendicular to the first turning surface 61, the width of the first card 6111 is smaller than that of the second card 6112, and the width direction is perpendicular to the first turning surface 61.

Further, the first clamping groove 61 further includes a first fixing plate 6113 and a second fixing plate 6114, two sides of the first fixing plate 6113 in the extending direction are respectively fixedly connected with the first turning surface 61 and the first side of the second fixing plate 6114, the second side of the second fixing plate 6114 is fixedly connected with the outer plate surface of the second clamping plate 6112, and the extending directions of the first side and the second side are the same. Wherein, the first side and the second side are both sides of the length direction. By providing the first fixing plate 6113 and the second fixing plate 6114, the strength of the second clamping plate 6112 can be increased.

As shown in fig. 3, the first fixing plate 6113 is perpendicular to the second fixing plate 6114 and the second clamping plate 6112. The first fixing plate 6113, the second fixing plate 6114, the second clamping plate 6112 and the first transition surface 61 form a hollow area to improve the sound insulation effect.

The number of the first engaging grooves 611 of the first rotating surface 61 is at least two, so as to increase the stability of the connection with the wall. The two first engaging grooves 611 are respectively located on two sides of the first junction surface in the length direction. The transition surfaces adjacent to the first transition surface 61 are a second transition surface 62 and a fourth transition surface 64. The first fixing plate 6113 close to the first slot 611 of the second adapter surface 62 is coplanar with the second adapter surface 62, so that the strength of the first fixing plate 6113 can be increased. In this embodiment, the first fixing plate 6113 of the first card slot 611 near the second adapting surface 62 is formed by extending the second adapting surface 62, so as to facilitate manufacturing.

Accordingly, the first card board of the first card slot 611 adjacent to the fourth adapting surface 64 is coplanar with the fourth adapting surface 64.

Further, the distance between the first protruding portion and the first transfer surface 61 is smaller than the distance between the second protruding portion and the first transfer surface 61, so as to increase the clamping strength.

As shown in fig. 3, the first protruding portion is located at an end of the second card plate 6112, and the second protruding portion is also located at an end of the first card plate 6111.

Preferably, a second clamping groove 621 which is clamped with another first partition wall module 7 is formed in the second adapter surface 62, the second clamping groove 621 comprises a third clamping plate 6211 and a fourth clamping plate 6212 which are arranged oppositely, a third protruding portion is formed in the inner plate surface, facing the fourth clamping plate 6212, of the third clamping plate 6211, and a fourth protruding portion is formed in the outer plate surface, far away from the third clamping plate 6211, of the fourth clamping plate 6212. Through setting up second joint groove 621, can make things convenient for wall body adaptor 6 to be connected with another first partition wall module 7, improve switching efficiency.

Further, the second fastening groove 621 further includes a third fixing plate 6214 and a fourth fixing plate 6213, two sides of the third fixing plate 6214 in the extending direction are respectively fixedly connected to the second adapting surface 62 and the first side of the fourth fixing plate 6213, and the second side of the fourth fixing plate 6213 is fixedly connected to the outer plate surface of the fourth fastening plate 6212, so as to increase the strength of the fourth fastening plate 6212.

As shown in fig. 3, the fourth fixing plate 6213 is perpendicular to the third fixing plate 6204 and the fourth clamping plate 6212, and is parallel to the second adapting surface 62. The fourth fixing plate 6213, the third fixing plate 6204, the fourth clamping plate 6212 and the second transfer surface 62 enclose a hollow area to improve the sound insulation effect.

The number of the second locking grooves 621 on the second adapting surface 62 is at least two, so as to increase the stability of connection with the wall. Two second locking grooves 621 are located on both sides of the second adapting surface 62 in the length direction. The third card board 6211 of the second card slot 621 close to the first rotation surface 61 is formed by extending the first rotation surface 61. A third retaining plate 6214 of the second card slot 621 adjacent to the third transition surface 63 is formed by the third transition surface 63 extending therefrom.

Further, the distance between the third protruding portion and the second transferring surface 62 is smaller than the distance between the fourth protruding portion and the second transferring surface 62, so that the clamping strength is increased.

The third projection is located on an end of the third snap-gauge 6211 remote from the second adapting surface 62, and the fourth projection is located on an end of the fourth snap-gauge 6212 remote from the second adapting surface 62.

Preferably, the first clamping plate 6111, the second clamping plate 6112, the third clamping plate 6211 and the fourth clamping plate 6212 are arranged clockwise, so that the first clamping groove 611 and the second clamping groove 612 have the same structure, the processing of the wall adapter is facilitated, and the production cost is reduced.

As shown in fig. 4, the first slot of the first partition module 7 is engaged with the first slot 611 on the wall adaptor 6. The first slot of the other first partition wall module 7 is clamped with the second clamping slot 621.

In a preferred embodiment of the present invention, as shown in fig. 2, the first partition wall module 7 and the another first partition wall module 7 each include a plurality of connecting keels 73, a first wall plate 71 and a second wall plate 72 which are arranged oppositely, the inner plate surface of the first wall plate 71 facing the second wall plate 72 and the inner plate surface of the second wall plate facing the first wall plate 71 are both provided with a plurality of first inserting grooves 713 corresponding to the connecting keels 73 one by one, the connecting keels 73 are provided with a first inserting connector and a second inserting connector, and the first inserting connector and the second inserting connector are respectively connected with the first inserting grooves 713 of the two wall plates.

A first slot 711 and a second slot 712 are respectively arranged on two sides of the first wall plate 71 in the same extending direction. A first slot 711 and a second slot 712 are also respectively disposed on two sides of the second wall plate 72 extending in the same direction.

The first slot 711 of the first wall plate 71 and the first slot of the second wall plate 72 are engaged with the first engaging slot 611 on the first rotating surface 61 of the wall rotating column 6.

The first wall panel 71 and the second wall panel 72 have the same structure, and the structure of the first wall panel 71 will be described.

As shown in fig. 2, the first wall panel 71 is hollow to reduce its own weight.

Further, a plurality of partition plates 714 are arranged inside the first wall plate 71, and the plurality of partition plates 714 divide the first wall plate 71 into a plurality of cavities, so that the strength of the wall plate is ensured, and the sound insulation effect can be improved.

Preferably, the first wall plate 71 has two inner side walls, and reinforcing ribs 715 are disposed on the inner side walls adjacent to the second wall plate 72, and the reinforcing ribs 715 are disposed between adjacent spacing plates 714 to increase the strength of the first wall plate 71.

Furthermore, the included angle between the partition plate 714 and the inner side wall of the first wall plate 71 is a chamfer angle, so as to strengthen the support of the partition plate 714 to the wall plate and improve the strength of the wall plate.

Optionally, the distance between adjacent first inserting and connecting slots 713 is the same, the number of cavities between adjacent first inserting and connecting slots 713 is the same, and the size of each cavity is also the same, so that the plurality of first inserting and connecting slots 713 are uniformly arranged along the width direction of the first wall plate 71, and the stress balance at each position of the first wall plate 71 is ensured.

Preferably, two slot walls of the first plugging slot 713 are coplanar with two adjacent spacing plates 714, respectively, to increase the strength of the first plugging slot 713.

Further, a fixing plate 716 is disposed between the two spacing plates 714 coplanar with the two slot walls of the first inserting slot 713, and the fixing plate 716 is parallel to the spacing plates 714 to increase the strength of the wall plate at the first inserting slot 713.

The angle between the fixing plate 716 and the inner side wall of the first wall plate 71 is also chamfered. In this embodiment, the chamfer is a circular arc chamfer.

As shown in fig. 2, the first slot 711 includes a first slot plate 7111 and a second slot plate 7112 that are disposed opposite to each other, a fifth protrusion is disposed on an inner plate surface of the first slot plate 7111 facing the second slot plate 7112, and a sixth protrusion is disposed on an outer plate surface of the second slot plate facing away from the first slot plate. The outer plate of the second channel plate faces the other first partition module 7. The first slot 711 is plugged with the first card slot 611.

The second slot plate 7112 is inserted into the first slot 611 and clamped by the first protrusion and the sixth protrusion. The second clamping plate 6112 is inserted into the first slot 711, and is clamped with the seventh protruding part through the second protruding part.

Further, the first slot 711 further includes a first horizontal plate 7113 and a first vertical plate 7114, the first horizontal plate 7113 is formed by extending the first wall plate 71 toward the inner surface of the second wall plate 72, and two sides of the first vertical plate 711 in the same extending direction are respectively fixedly connected to the first horizontal plate 7113 and the second slot plate 7112. By providing the first horizontal plate 7113 and the first vertical plate 7114, the strength of the second slot plate 7112 can be improved.

Optionally, the second slot 712 includes a third slot plate 7121 and a fourth slot plate 7122 which are disposed oppositely, the third slot plate 7121 is provided with a seventh protruding portion on the inner plate surface facing the fourth slot plate 7122, and the fourth slot plate is provided with an eighth protruding portion on the outer plate surface facing away from the third slot plate. The first slot 711 of an adjacent partition wall panel is plugged into the second slot 712.

The second slot plate is inserted into the second slot 712 and clamped with the seventh protruding portion through the sixth protruding portion, and the fourth slot plate is inserted into the first slot 711 and clamped with the eighth protruding portion through the fifth protruding portion. By arranging the second slot 712, the adjacent wall boards are connected with the second slot 712 in a clamping manner through the first slot 711, so that the requirement of wall bodies with different lengths can be met.

Likewise, the second slot 712 further includes a second cross plate 7124 and a second riser plate 7123. The second transverse plate 7124 is formed by extending the outer plate surface of the first wall plate 71 away from the second wall plate 72, and two sides of the second vertical plate 7123, which have the same extending direction, are connected with the second transverse plate 7124 and the fourth groove plate 7122 respectively, so that the strength of the fourth groove plate 7122 is improved.

As shown in fig. 2, a first slot plate 7111 is also formed by the extension of the outer panel face of the first wall panel 71 away from the second wall panel 72. The third slot plate 7121 is also formed by extending the first wall plate 71 toward the inner plate surface of the second wall plate 72.

The first vertical plate 7114 is perpendicular to the first horizontal plate 7113 and the second slot plate 7112, and the second vertical plate 7123 is also perpendicular to the second horizontal plate 7124 and the fourth slot plate 7122.

Preferably, the second groove plate 7114, the first transverse plate 7113, the first vertical plate 7114, and the partition plate 714, which is the bottom of the first insertion groove 711, enclose a hollow area to improve a soundproof effect.

Similarly, the fourth slot plate 7122, the second horizontal plate 7124, the second vertical plate 7123 and the spacer plate 714 which is the slot bottom of the second slot 712 also define a hollow area.

As shown in fig. 3, the adapter body includes an outer cylinder 65 and an inner cylinder 66, the outer cylinder 65 is sleeved on the inner cylinder 66, the outer cylinder 65 and the inner cylinder 66 are connected through a plurality of intermediate plates 67, and the outer cylinder 65 and the inner cylinder 66 are partitioned into a plurality of cavities by the plurality of intermediate plates 67, so as to improve the sound insulation effect.

Further, a plurality of intermediate plates 67 are uniformly arranged along the circumferential direction of the inner cylinder 66, so that the arrangement of the intermediate plates is facilitated. In the present embodiment, the outer cylinder 65 and the inner cylinder 66 are both square cylinders.

Preferably, as shown in fig. 5, the partition wall further includes a second partition wall module including: first side banding spare, first wall body, installation fossil fragments, second wall body and second side banding spare. In fig. 5, the side edge sealing member 1 on the left side is a first side edge sealing member, and the side edge sealing member on the right side is a second side edge sealing member.

As shown in fig. 6 to 7, the first side edge sealing member and the second side edge sealing member are respectively provided with a first clamping portion 101, the two sides of the first wall body and the second wall body, which have the same extending direction, are respectively provided with a first clamping groove and a second clamping groove, and the installation keel 4 is provided with a first clamping joint 401 and a second clamping joint 402. A second panel of the first side edge seal facing away from the first panel is connected to the wall adapter 6, for example, the first side edge seal is connected to a third adapter surface 63 of the wall adapter 6.

The first clamping portion 101 of the first side edge sealing piece is clamped with the first clamping groove of the first wall body, the second clamping groove of the first wall body is clamped with the first clamping connector 401, the second clamping connector 402 is clamped with the first clamping groove of the second wall body, and the second clamping groove of the second wall body is clamped with the first clamping portion 101 of the second side edge sealing piece.

First partition wall module and second partition wall module are connected through the wall body adaptor, can realize the connection of the partition wall module of different grade type, and set the second partition wall module to first side banding spare, first wall body, second wall body and second side banding spare, can realize the installation of partition wall through simply assembling between each part, need not to install according to fixed installation direction, not only can shorten construction period greatly, improve the efficiency of construction, realize the quick industrialization installation of partition wall, and can also reduce the volume of each part of partition wall, be convenient for the transportation and the installation of partition wall, further improve the installation effectiveness.

Further, as shown in fig. 5, the first wall body and the second wall body each include a first partition plate 201 and a second partition plate 202. The first partition plate 201 and the second partition plate 201 are oppositely arranged.

First clamping groove 2011 and second clamping groove 2012 are respectively arranged on the same two sides of the extending direction of the first partition board 201. A first clamping groove 2021 and a second clamping groove 2022 are respectively arranged on two sides of the second partition plate 202 in the same extending direction.

The first plate surface of the side sealing plate is also provided with a second clamping part 102. The first clamping portion 101 and the second clamping portion 102 are located on two sides of the first board extending in the same direction, for example, two sides of the first board extending in the length direction.

The first clamping groove 2011 of the first partition plate 201 and the first clamping groove 2021 of the second partition plate 202 are located on the same side, and the second clamping groove 2012 of the first partition plate 201 and the second clamping groove 2022 of the second partition plate 202 are located on the same side.

The first clamping portion 101 of the first side edge sealing member is clamped with the first clamping groove 2011 of the first partition plate 201, and the second clamping portion 102 is clamped with the first clamping groove 2021 of the second partition plate 202.

Through setting up the wall body into first partition plate 201 and second partition plate 202, not only can further lighten the weight of wall body, the interior outer face of partition plate all is the plane moreover, can conveniently stack, the transportation of being convenient for.

Further, as shown in fig. 6, the first clamping portion 101 is hollow, and a first opening for installing the sound insulation strip 103 is disposed on the first clamping portion, and the first opening faces the first plate surface. By providing the first engaging portion 101 as a hollow and providing the first opening for installing the soundproof strip 103, the soundproof effect of the side banding 1 can be increased while the side banding 1 is reduced in weight.

The inside diameter of the first opening is equal to the outside diameter of the soundproof strip 103 to hold the soundproof strip 103 on the first opening.

Similarly, the second clamping portion 102 is hollow, and is provided with a second opening for installing a sound insulation strip, and the second opening faces the first plate surface, so as to better seal the side edge of the partition wall and improve the sound insulation effect.

As shown in fig. 6, the first opening and the second opening are opposite to the first plate surface, and the sound insulation strips 103 are installed in the first opening and the second opening, so that the sound insulation effect between the side edge sealing piece and the partition plate is improved.

Preferably, a reinforcing member 104 is arranged on the first plate surface, and the reinforcing member 104 is located between the first clamping portion 101 and the second clamping portion 102 to increase the strength of the side sealing plate.

Further, as shown in fig. 5, the reinforcing members 104 on the first side edge banding and the second side edge banding respectively abut against the inner plate surfaces of the first partition plate 201 and the second partition plate 202, so that the connection between the partition plates can be reinforced, and the partition plates can be supported, so that the wall body is more stable and firm.

Further, a guide groove 1041 is formed in the side face, away from the first board face, of the reinforcing member 104, so that a fastener can be conveniently drilled to install and fix the side edge sealing member. Wherein, the fastener can adopt screw and the like.

In the embodiment of fig. 6, the guiding groove 1041 is a V-shaped groove, and the back surface of the side surface of the reinforcing member 104 where the guiding groove 1041 is located has a protrusion, which is formed by recessing the guiding groove 1041, so as to ensure that the wall thickness of the reinforcing member 104 is equal everywhere and ensure the strength of the reinforcing member 104.

Further, the stiffener 104 is hollow to reduce the weight of the side seal.

As shown in fig. 6, the first clip portion 101, the second clip portion 102, and the reinforcement member 104 are each substantially rectangular in shape.

Preferably, a caulking groove 107 for installing the sound insulation strip 103 is arranged on a second plate surface of the side sealing plate, which is away from the first plate surface, the caulking groove 107 corresponds to the reinforcing member 104 one by one, and the caulking groove 107 is located in the reinforcing member 104.

As shown in fig. 6, the caulking groove 107 is a semicircular groove to facilitate the installation of the soundproof strip 103 in the caulking groove 107.

Further, a positioning portion 106 is arranged on the second board surface, and the first clamping portion 101 and the second clamping portion 102 are symmetrically arranged on two sides of the positioning portion 106. The installation inclination of the side edge sealing part 1 can be avoided by arranging the positioning part 106, the installation and fixation accuracy of the side edge sealing part 1 is improved, the repeated installation problem caused by the installation inclination of the side edge sealing part 1 is avoided, and the installation efficiency is improved. In the present embodiment, the positioning portion 106 is a protrusion.

Optionally, the number of the reinforcing members 104 is at least two, two reinforcing members 104 are symmetrically disposed on two sides of the positioning portion 106, and the two reinforcing members 104 are connected by the connecting rib 105, so that the strength of the side sealing member 1 can be further improved.

Further, the connection rib 105 is connected with the first plate surface through a vertical plate to improve the strength of the connection rib 105.

As shown in fig. 7, the mounting keel 4 includes a mounting body 403, and the mounting body 403 has a first mounting surface and a second mounting surface arranged in parallel.

The first mounting surface extends out of a first mounting plate 4031 in the direction away from the second mounting surface, the second mounting surface extends out of a second mounting plate 4032 in the direction away from the first mounting surface, and a first clamping connector 401 and a second clamping connector 402 are respectively arranged on two plate surfaces of the first mounting plate 4031 and the second mounting plate 4032.

The first clamping connector 401 and the second clamping connector 402 on the first mounting plate 4031 are clamped with the second clamping groove 2012 of the first partition plate 201 of the first wall body and the first clamping groove 2011 of the first partition plate 201 of the second wall body respectively.

Similarly, the first card connector 401 and the second card connector 402 on the second mounting plate 4032 are respectively connected with the second card slot 2022 of the second partition plate 202 of the first wall body and the first card slot 2021 of the second partition plate 202 of the second wall body.

Further, the installation body 403 is hollow to reduce the dead weight of the installation keel 4, and simultaneously, a sound gate can be formed to improve the sound insulation effect.

Preferably, a reinforcing plate is disposed inside the mounting body 403, and the reinforcing plate is parallel to the first mounting surface to increase the strength of the mounting body 403.

Preferably, the first bayonet joint 401 is hollow, further reducing the dead weight of the installation keel.

Further, a first mounting opening for mounting the soundproof strip is provided in the first chuck head 401 on the first mounting plate 4031, and the first mounting opening faces the first mounting plate 4031. The centre gripping of sound-proof strip can increase the syllable-dividing effect between the adjacent partition wall in the mounting hole.

Similarly, the second chuck head 402 of the first mounting plate 4031 is hollow, and has second mounting openings for holding the soundproof strips, which are each directed toward the first mounting plate 4031.

Accordingly, the first mounting opening of the first chuck head 401 and the second mounting opening of the second chuck head 402 on the second mounting plate 4032 face the second mounting plate 4032 respectively.

As shown in fig. 5, a soundproof strip is provided in each of the first and second mounting openings to improve a soundproof effect.

When the installation fossil fragments are connecting adjacent wall body, first installation face and first partition plate 201 are towards the interior face butt of second partition plate 202, and second installation face and the interior face butt of first partition plate 201 of second partition plate 202 orientation not only can strengthen the connection between the partition plate, still can play the supporting role to the partition plate, increase the intensity of wall body to make the wall body more stable durable, still reducible material simultaneously, reduce cost.

Preferably, the first partition plate 201, the second partition plate 202 and the mounting keel 4 are all extruded profiles, further reducing the production cost.

In a preferred embodiment of the present invention, the first clamping head 401, the second clamping head 402, the first clamping portion 101 and the second clamping portion 102 each include a straight plate and a bent plate, the straight plate and the bent plate are disposed opposite to each other, and a gap is formed between the straight plate and the bent plate to form an opening or a mounting opening for mounting the sound insulation strip.

In a preferred embodiment of the present invention, the first partition plate 201 and the second partition plate 202 have the same structure. The structure of the first partition board 201 will now be described by way of example.

As shown in fig. 8, the first partition board 201 is hollow, and a plurality of reinforcing plates 2014 are disposed in the first partition board 201, the reinforcing plates 2014 are fixedly connected to two inner walls of the first partition board 201, and the plurality of reinforcing plates 2014 are uniformly arranged between the first clamping groove 2011 and the second clamping groove 2012, so that a plurality of cavities with the same size are formed inside the first partition board 201, and the sound insulation effect of the partition board is improved.

Further, the included angle of gusset plate 2014 and two inner walls of first partition plate 201 is the chamfer to increase gusset plate 2014 and to the support capacity of partition plate, improve partition plate's intensity.

As shown in fig. 8, the chamfer is a circular chamfer, which can further improve the supporting ability.

The two opposite inner groove walls of the first clamping groove 2011 and the second clamping groove 2012 are provided with ninth protrusions, depressions corresponding to the ninth protrusions one to one are formed in the first clamping portion 101, the second clamping portion 102, the first clamping connector 401 and the second clamping connector 402, and clamping is achieved through the cooperation of the depressions and the ninth protrusions.

Optionally, as shown in figures 9-10, the partition further comprises a lateral keel 8 comprising a first keel body 81 and a second keel body 82.

The first keel body 81 comprises a first base plate 811 used for being connected with an object to be connected, and a first side plate 812 and a first clamping part 813 are respectively arranged on two sides of the first base plate 811 with the same extending direction.

The first side plate 812 and the first engaging portion 813 are located on both sides of the first base plate 811 in the longitudinal direction.

The second keel body 82 includes a second base plate 821, and a second side plate 822 and a second engaging portion 823 are respectively disposed on two sides of the second base plate 821 in the same extending direction.

The first side plate 812 and the second side plate 822 are disposed oppositely, and the first engaging portion 813 is engaged with the second engaging portion 823. The side seal 1 is positioned within the side keel 8 between the first side panel 812 and the second side panel 822.

During assembly, the first keel body 81 is installed on the original wall surface through the first substrate 811. As shown in fig. 9, the first substrate 811 may be mounted to an original wall surface by a plastic expansion assembly 2091.

The side edge sealing piece 1 is fixed in the side edge keel 8 through being clamped with the wall body. The second engaging portion 823 is inserted into the gap between the side edge sealing member 1 and the original wall surface, and is engaged with the first engaging portion 813.

Through setting up side banding spare in the side fossil fragments, the side fossil fragments are assembled through first block portion and second block portion joint, shelter from the space between side banding spare and the original wall, and partition plate, side banding spare all need not be connected with the side fossil fragments, can retrench the installation flow, improve the installation effectiveness, and the fitment is effectual simultaneously.

Further, first block portion 813 is the form of buckling, including first joint board 8131 and second joint board 8132, the both sides that first joint board 8131 extending direction is the same are connected with first base plate 811 and second joint board 8132 respectively, and first joint board 8131 forms first bayonet socket with second joint board 8132.

Second joint 823 is also the form of buckling, including third joint plate 8231 and fourth joint plate 8232, the same both sides of third joint plate 8231 extending direction are connected with first side and second base plate 821 of fourth joint plate 8232 respectively, and third joint plate 8231 and fourth joint plate 8232 form the second bayonet socket.

The first bayonet and the second bayonet face the object to be connected (for example, an original wall surface), the second engaging portion 823 is clamped between the first engaging portion 813 and the object to be connected, and the second engaging portion 823 is located in the first bayonet of the first engaging portion 813. Through setting up first block portion 813 and second block portion 823 into the form of buckling to first bayonet socket and second bayonet socket all face towards treating the connection thing (for example, the wall), not only can retrench the structure of first fossil fragments body 81 and second fossil fragments body 82, reduction in production cost still can make things convenient for the installation of second fossil fragments body 82, improves the installation effectiveness.

Further, first contained angle of first joint board 8131 and second joint board 8132 is greater than the second contained angle of third joint portion 8231 and fourth joint board 8232, is guaranteeing the joint of second block portion 823 under the condition between first block portion 813 and the waited-for connector, make things convenient for second block portion 823 to insert first block portion 813 and wait between the connector, improve assembly efficiency. In the embodiment, the first angle and the second angle are both between 135 ° and 150 °.

Preferably, the first side plate 812 is parallel to the second side plate 822, so as to be better matched with the partition wall, thereby improving the decoration effect.

As shown in fig. 10, the first side plate 812 and the second side plate 822 are parallel to the first partition plate 201 and the second partition plate 202.

Further, the first substrate 811 is parallel to the second substrate 822, so that the second engaging portion 823 can be inserted between the first engaging portion 813 and the object to be connected.

Preferably, the first side plate 812 is perpendicular to the first base plate 811, and the second side plate 822 is perpendicular to the second base plate 821, so that the first keel body 81 and the second keel body 82 can be conveniently manufactured, and the production cost is reduced.

Preferably, the distance between the first side plate 812 and the first engaging portion 813 is greater than the distance between the second side plate 822 and the second engaging portion 823, so that the insertion depth of the second engaging portion 823 is reduced and the assembly efficiency is improved while ensuring the fastening strength.

Further, an end surface 8233 of the second side of the fourth clamping plate 8232 is coplanar with an outer plate surface of the second substrate 822, so that the second clamping portion 823 can be conveniently inserted between the first clamping portion 813 and a wall surface.

Optionally, the outer corners of the end surface of the first base plate 811, which is far away from the first side plate 812, are chamfered, so that the decoration effect can be improved, and installation personnel can be prevented from being injured by burrs during installation.

Correspondingly, the outer corner of the end surface of the second side plate 822 away from the second base plate 821 is also chamfered. The chamfers are all arc chamfers.

Further, the first keel body 81 and the second keel body 82 are both integrally formed to reduce the production cost.

Optionally, glass wool 2092 is provided within the side runners 8 to improve the sound insulation between the side runners 8 and the side seal 1.

As shown in fig. 9, an acoustic felt 203 is provided on an inner panel surface of the first partition plate 201 facing the second partition plate 202 to improve an acoustic effect of the partition wall.

Further, the soundproof felt 203 is mounted with sound absorption cotton 205 to further improve the heat insulation and sound insulation effects of the partition wall. The sound absorbing cotton 205 may be glass cotton.

Preferably, the sound-absorbing cotton 205 and the deadening felt 203 are fixed together on the inner panel surface of the first partition plate 201 by the thermo-insulating nail 204.

Further, an air layer is provided between the sound-absorbing cotton 205 and the second partition plate 202, which can further improve the sound-insulating effect.

Based on foretell partition wall, the embodiment of the utility model provides a still provide a partition wall mounting method, it includes specially:

and inserting the first slot of one first partition wall module into the second slot of the other adjacent first partition wall module to connect the adjacent first partition wall modules. Wherein, two frid of first slot and two frid alternate settings of second slot, the second frid joint is between third frid and fourth frid, and the fourth frid joint is between first frid and second frid.

The technical solution of the present invention is described in detail with reference to the specific embodiments, and the described specific embodiments are used to help understand the idea of the present invention. The derivation and modification made by the person skilled in the art on the basis of the specific embodiments of the present invention also belong to the protection scope of the present invention.

Claims (9)

1. A partition wall, comprising: the first partition wall modules are provided with a first slot and a second slot on two sides in the same extending direction, and the adjacent first partition wall modules are inserted through the first slot and the second slot; the first slot comprises a first groove plate and a second groove plate which are oppositely arranged, the second slot comprises a third groove plate and a fourth groove plate which are oppositely arranged, the second groove plate is connected between the third groove plate and the fourth groove plate in a clamped mode, and the fourth groove plate is connected between the first groove plate and the second groove plate in a clamped mode.

2. The partition wall according to claim 1, wherein the first partition wall module comprises a plurality of connecting keels, a first wall board and a second wall board which are oppositely arranged, a first slot and a second slot are respectively arranged on two sides of the first wall board and the second wall board which extend in the same direction, a plurality of first inserting grooves which are in one-to-one correspondence with the connecting keels are respectively arranged on an inner board surface of the first wall board facing the second wall board and an inner board surface of the second wall board facing the first wall board, the connecting keels comprise first inserting connectors and second inserting connectors, and the first inserting connectors and the second inserting connectors are respectively clamped with the first inserting grooves of the two wall boards.

3. The partition wall of claim 2, wherein the first slot further comprises a first horizontal plate and a first vertical plate, the first horizontal plate is formed by extending the first wall plate towards the inner plate surface of the second wall plate, and two sides of the first vertical plate, which extend in the same direction, are fixedly connected with the first horizontal plate and the second slot plate, respectively.

4. The partition wall of claim 3, wherein the second slot further comprises a second cross plate and a second vertical plate, the second cross plate is formed by extending the first wall plate away from the outer plate surface of the second wall plate, and two sides of the second vertical plate extending in the same direction are respectively connected with the second cross plate and the fourth slot plate.

5. The partition wall according to any one of claims 1 to 4, further comprising a wall adapter, wherein the wall adapter comprises an adapter body, the adapter body is provided with a first adapter surface, the first adapter surface is provided with a first clamping groove, the first clamping groove is inserted into the first slot, the first clamping groove comprises a first clamping plate and a second clamping plate which are oppositely arranged, the second clamping plate is clamped into the first slot, and the second slot plate is clamped between the first clamping plate and the second clamping plate.

6. The partition wall as claimed in claim 5, wherein the first engaging groove further comprises a first fixing plate and a second fixing plate, both sides of the first fixing plate in the extending direction are fixedly connected to the first turning surface and the first side of the second fixing plate, respectively, and the second side of the second fixing plate is fixedly connected to the outer plate surface of the second clamping plate, wherein the extending directions of the first side and the second side are the same.

7. The partition wall of claim 5, further comprising a second partition wall module, wherein the second partition wall module comprises a first side edge sealing member, a first wall body, a mounting keel, a second wall body and a second side edge sealing member, the first side edge sealing member and the second side edge sealing member each comprise a side sealing plate, a first clamping portion is arranged on a first plate surface of each side sealing plate, a second plate surface of each first side edge sealing member, which is opposite to the first plate surface, is connected with the wall body adapter, a first clamping groove and a second clamping groove are arranged on two sides of each first wall body and the second wall body, which have the same extending direction, a first clamping connector and a second clamping connector are arranged on the mounting keel, the first clamping portion of each first side edge sealing member is clamped with the first clamping groove of the first wall body, the second clamping groove of the first wall body is clamped with the first clamping connector, and the second clamping connector is clamped with the first clamping groove of the second wall body, and the second clamping groove of the second wall body is clamped with the first clamping part of the second side edge sealing piece.

8. The partition wall as claimed in claim 7, wherein the first engaging portion is hollow, and a first opening for installing a soundproof strip is provided on the first engaging portion, and the first opening faces the first panel.

9. The partition of claim 7, wherein the mounting keel includes a mounting body having oppositely disposed first and second mounting surfaces, the first mounting surface extending away from the first mounting surface in a direction away from the second mounting surface, the second mounting surface extending away from the second mounting surface in a direction away from the first mounting surface, the first and second mounting plates having first and second snap tabs disposed on respective faces thereof.

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