CN212896994U - Keel for indoor partition wall - Google Patents

Abstract

The utility model relates to a keel for indoor partition wall, comprising at least two vertical keels and at least one horizontal keel, wherein the vertical keel comprises a first vertical edge plate and a plurality of first transverse edge plates positioned at the same side of the first vertical edge plate, two of the first transverse edge plates are distributed at the upper and lower end parts of the first vertical edge plate, and the rest first transverse edge plates are distributed between the first transverse edge plates at the two end parts; the horizontal keel comprises second transverse edge plates and a plurality of second vertical edge plates positioned on two sides of the second transverse edge plates, two of the plurality of second vertical edge plates are distributed at the left end and the right end of the second transverse edge plates, and the rest second vertical edge plates are distributed between the second vertical edge plates at the two ends; the end part of the horizontal keel is bent to form a bent part, and the bent part is connected with the part of the first vertical edge plate, which is positioned in the second accommodating cavity. The utility model discloses can reduce indoor partition wall board thickness and the holistic dead weight of indoor partition wall and the intensity requirement to connected node to guarantee the upper and lower terminal surface of the complete degree of wallboard and protection wallboard.

Description

Keel for indoor partition wall

Technical Field

The utility model relates to an interior building engineering technical field, concretely relates to fossil fragments for indoor partition wall.

Background

The partition wall is a wall for partitioning an inner space of a building. The fabricated indoor partition wall has the characteristics of small weight and thin thickness, and the fabricated indoor partition wall can reduce the load on a floor slab and increase the use area of an indoor space. At present, most of fabricated indoor partition walls are non-bearing partition walls, and mainly comprise three systems, namely building block inner partition walls, light batten inner partition walls and light steel keel gypsum board inner partition walls. For the light steel keel internal partition wall system, the wall plate mostly adopts gypsum plates, asbestos plates, foaming plates and other plates, and is fixed through the light steel keel system and connected with the floor slab and the side vertical wall body. Like chinese utility model patent CN210530042U, it discloses a partition wall structure in modularization, including the partition wall in the modularization and install the U type fossil fragments at partition wall right-hand member in the modularization, the partition wall in the modularization includes the interior partition wall framework that light steel joist and stull fossil fragments are constituteed, the interior partition wall framework that light steel joist and stull fossil fragments are constituteed forms interior partition wall cavity through the aluminium foil paper of arranging, packs soundproof cotton in interior partition wall cavity and forms the modularization partition wall, U type fossil fragments pass through the right-hand member of screw fixed mounting at the partition wall in the modularization. The light steel keel partition wall is mainly characterized in that the partition wall is installed and fixed through a light steel keel system, and then the assembled partition wall is integrally installed in a field construction mode. The light steel keel partition wall system mainly has the following problems: the wall plates of the partition wall are usually only one layer, and the keel system is used for fixedly installing the layer of wall plate, so that the thickness of the partition wall is completely met by the thickness of the wall plate under the condition that the design requirement of the thickness of the partition wall is met, the overall weight of the partition wall is increased, and the requirement on the connection strength of each node is further increased; the whole partition wall is provided with only one layer of wall board, so that the whole partition wall is of a solid structure, and when wiring installation of various lines is required, grooving operation needs to be carried out on the wall board, so that the operation procedures are increased, the integrity of the surface of the wall board is damaged, and new building waste is generated on a construction site; the fixing and cladding of the light steel keel system to the wallboard generally only involve the splicing face between the left and right side faces and the wallboard, to wallboard and upper and lower floor node, then carry out the butt by the upper and lower terminal surface of wallboard directly with floor or connecting piece, and in the site operation link, inevitably can make the wallboard produce the displacement, rock to cause the damage of wallboard terminal surface.

The aforementioned problems arise primarily due to the light gauge steel system. The clamping and/or accommodating space formed between the flange plates of the transverse keel and the vertical keel of the light steel keel system can only clamp and/or accommodate the wall plate of one layer of partition wall, so that the whole thickness of the partition wall can only be met through the thickness of the wall plate, the space required by wiring and routing of a circuit is also lacked, and the section keel for protecting or coating the upper end surface and the lower end surface of the wall plate is also lacked.

SUMMERY OF THE UTILITY MODEL

The utility model provides an indoor fossil fragments for partition wall through the cladding fossil fragments that set up integrative three-layer support fossil fragments system and upper and lower terminal surface to solve the not enough that exists among the prior art, the utility model discloses the technical problem who solves realizes through following technical scheme.

The utility model provides a fossil fragments are used to indoor partition, includes at least two vertical keel and at least one horizontal keel, and its improvement lies in: the vertical keel comprises a first vertical edge plate and a plurality of first transverse edge plates positioned on the same side of the first vertical edge plate, two of the plurality of first transverse edge plates are distributed at the upper end part and the lower end part of the first vertical edge plate, the rest first transverse edge plates are distributed between the first transverse edge plates at the two end parts, a first accommodating cavity for accommodating a wallboard is formed between the first transverse edge plate at the end part and the first transverse edge plate adjacent to the first transverse edge plate, and a second accommodating cavity is formed between the two adjacent first transverse edge plates at the middle part; the horizontal keel comprises second transverse edge plates and a plurality of second vertical edge plates positioned on two sides of the second transverse edge plates, two of the plurality of second vertical edge plates are distributed at the left end and the right end of the second transverse edge plates, the rest second vertical edge plates are distributed between the second vertical edge plates at the two ends, a third accommodating cavity for accommodating a wallboard is formed between the second vertical edge plate at the end part and the second vertical edge plate adjacent to the second vertical edge plate, and a fourth accommodating cavity is formed between the two second vertical edge plates adjacent to the middle part; the first containing cavity is matched with the third containing cavity, the second containing cavity is matched with the fourth containing cavity, and the number and the positions of the first transverse edge plate and the second vertical edge plate are matched; the end part of the horizontal keel is bent to form a bent part, and the bent part is connected with the part of the first vertical edge plate, which is positioned in the second accommodating cavity.

Preferably, the vertical keel is of a vertical symmetrical structure, the sizes of two first transverse edge plates positioned at the end parts of the first vertical edge plates are the same, and the sizes of other first transverse edge plates are mutually symmetrically distributed between the two first transverse edge plates positioned at the end parts of the two first transverse edge plates.

Preferably, the quantity of first horizontal flange board is four, and this four first horizontal flange plate sizes are the same, the upright keel is the longitudinal symmetry structure.

Preferably, horizontal keel is whole to be symmetrical structure, and the size that is located the perpendicular frid of twice second of second horizontal frid tip is the same, and the mutual symmetric distribution of the perpendicular frid of other second is just the same size between the perpendicular frid of twice tip second.

Preferably, the number of the second vertical edge plates is four, the size of the four second vertical edge plates is the same, and the whole horizontal keel is of a symmetrical structure.

Preferably, the number of the horizontal keels is three, and the heights of the three horizontal keels from the ground are sequentially 400mm, 1250mm and 2000mm, 200 and 1050 and 1800, respectively.

Preferably, the end part of the horizontal keel is bent upwards or downwards to form a bent part, and the bent part is connected with the part, located in the second accommodating cavity, of the first vertical edge plate through a self-tapping screw.

Preferably, still including setting up in the aluminium frame strip at vertical keel upper and lower both ends, the aluminium frame strip includes third horizontal flange board and is located third horizontal flange board both ends and to the third vertical flange board of homonymy extension, third horizontal flange board middle part undercut forms sixth holding chamber, form fifth holding chamber between the side portion in third vertical flange board and sixth holding chamber, fifth holding chamber with first holding chamber phase-match.

Preferably, the first vertical edge plate is provided with a threading hole, and the threading hole is positioned above the bending part; and a plurality of through holes are uniformly distributed on the second transverse edge plate.

Preferably, the threading holes on the first vertical edge plate are provided with three groups, each group comprises at least two threading holes, the at least two threading holes are distributed transversely or longitudinally, and the heights of the three groups of threading holes from the ground are sequentially 200-.

In the utility model, the vertical keel vertically clamps the wallboard of the indoor partition wall, the horizontal keel horizontally clamps the wallboard of the indoor partition wall, and the wallboard of the indoor partition wall is fixed through the horizontal and vertical clamping of the vertical keel and the horizontal keel; the first accommodating cavity and the third accommodating cavity are used for clamping the wall board, and the vertical keel and the horizontal keel are respectively provided with the first accommodating cavity and the third accommodating cavity, so that a double-layer wall board of the indoor partition wall is realized, the thickness of the wall board is further reduced under the condition of meeting the design requirement of the same partition wall thickness, the overall weight of the indoor partition wall is reduced, and the strength requirement on a connecting node is reduced; the vertical keel is provided with two first accommodating cavities and one second accommodating cavity, and the horizontal keel is provided with two third accommodating cavities and one fourth accommodating cavity, so that the indoor partition wall forms a double-layer wall body, integrated three-layer supporting system and structure, various lines and pipelines which need to be laid inside the indoor partition wall can be arranged in the second accommodating cavity and the fourth accommodating cavity, grooving operation on the wallboard is not needed, the construction process is reduced, the integrity of the wallboard is guaranteed, and meanwhile, the second transverse edge plate can also support various laid lines and pipelines; the fifth accommodating cavity of the aluminum frame strip is used for accommodating a wallboard of an indoor partition wall, and the end part of the wallboard can be protected by arranging the aluminum frame strip and the fifth accommodating cavity, so that the end part of the wallboard is prevented from being damaged due to shaking, displacement and the like; through the sixth containing cavity that the third horizontal border board middle part was concavely established, can the holding be used for connecting the connecting piece of indoor partition wall and upper and lower floor.

Compared with the prior art, the utility model discloses can form the double-deck wall body of indoor partition wall, the braced system and the bearing structure of integrative three-layer, reduce the thickness of wallboard and the holistic dead weight of indoor partition wall and to connected node's intensity requirement to thereby for laying of various pipelines in the wall body and reserve the integrity of accommodation space assurance wallboard, thereby can also protect the damage that reduces the wallboard tip to the upper and lower terminal surface of wallboard.

Drawings

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

fig. 2 is a schematic cross-sectional view of a center keel according to the present invention;

fig. 3 is a schematic cross-sectional view of the middle horizontal keel of the present invention;

fig. 4 is a schematic cross-sectional view of an aluminum frame strip according to the present invention;

the reference numbers in the drawings are, in order: 11. the vertical keel, 111, the first vertical flange plate, 112, the first horizontal flange plate, 113, the first containing cavity, 114, the second containing cavity, 115, the threading hole, 12, the horizontal keel, 121, the second horizontal flange plate, 122, the second vertical flange plate, 123, the third containing cavity, 124, the fourth containing cavity, 13, the aluminum frame strip, 131, the third horizontal flange plate, 132, the third vertical flange plate, 133, the fifth containing cavity, 134, the sixth containing cavity.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1:

referring to fig. 1 to 3, a keel for an indoor partition wall comprises at least two vertical keels 11 and at least one horizontal keel 12, and is improved in that: the vertical keel 11 comprises a first vertical edge plate 111 and a plurality of first transverse edge plates 112 positioned on the same side of the first vertical edge plate 111, two of the plurality of first transverse edge plates 112 are distributed at the upper end and the lower end of the first vertical edge plate 111, the rest first transverse edge plates 112 are distributed between the two first transverse edge plates 112 at the end parts, a first accommodating cavity 113 for accommodating a wallboard is formed between the first transverse edge plate 112 at the end part and the first transverse edge plate 112 adjacent to the first transverse edge plate 112, and a second accommodating cavity 114 is formed between the two adjacent first transverse edge plates 112 at the middle part; the horizontal keel 12 comprises a second transverse edge plate 121 and a plurality of second vertical edge plates 122 positioned at two sides of the second transverse edge plate 121, two of the plurality of second vertical edge plates 122 are distributed at the left end and the right end of the second transverse edge plate 121, the rest of the second vertical edge plates 122 are distributed between the two second vertical edge plates 122 at the end parts, a third accommodating cavity 123 for accommodating a wallboard is formed between the second vertical edge plate 122 at the end part and the second vertical edge plate 122 adjacent to the second vertical edge plate 122, and a fourth accommodating cavity 124 is formed between the two second vertical edge plates 122 adjacent to the middle part; the first accommodating cavity 113 is matched with the third accommodating cavity 123, the second accommodating cavity 114 is matched with the fourth accommodating cavity 124, and the number and the positions of the first transverse flange 112 and the second vertical flange 122 are matched; the end of the horizontal keel 12 is bent to form a bent portion, and the bent portion is connected to the portion of the first vertical edge plate 111 located in the second receiving cavity 114.

Further, the end of the horizontal keel 12 is bent upwards or downwards to form a bent portion, and the bent portion is connected with the portion of the first vertical edge plate 111 located in the second receiving cavity 114 through a tapping screw.

Further, the plurality of first horizontal flanges 112 may have the same or different sizes.

Further, the first receiving cavity 113 and the second receiving cavity 114 may have the same size or different sizes.

Further, the plurality of second stile panels 122 may be the same size or different sizes.

Further, the third receiving cavity 123 and the fourth receiving cavity 124 may have the same or different sizes.

In the present embodiment, the dimensions referred to refer to the length, width and height of the components shown in the respective drawings; the directions refer to up and down, left and right, and front and back as shown in the drawings.

In this embodiment, the vertical keel 11 vertically clamps the wall board of the indoor partition wall, the horizontal keel 12 horizontally clamps the wall board of the indoor partition wall, and the wall board of the indoor partition wall is fixed by the horizontal and vertical clamping of the vertical keel 11 and the horizontal keel 12; the first accommodating cavity 113 and the third accommodating cavity 123 are used for clamping wall boards, and the vertical keel 11 and the horizontal keel 12 are respectively provided with the two first accommodating cavities 113 and the two third accommodating cavities 123, so that double-layer wall boards of the indoor partition wall are realized, the thickness of a single-layer wall board is further reduced under the condition of meeting the design requirement of the same partition wall thickness, the overall weight of the indoor partition wall is reduced, and the strength requirement on a connecting node is reduced; the vertical keel 11 is provided with the two first accommodating cavities 113 and the second accommodating cavity 114, and the horizontal keel 12 is provided with the two third accommodating cavities 123 and the fourth accommodating cavity 124, so that the indoor partition wall forms an integrated three-layer supporting system and structure, various lines and pipelines which need to be arranged inside the indoor partition wall can be arranged in the second accommodating cavity 114 and the fourth accommodating cavity 124, the wall plate does not need to be grooved, the construction process is reduced, and the integrity of the wall plate is ensured; meanwhile, the second transverse edge plate 121 can also support various laid lines and pipelines.

Example 2:

on the basis of embodiment 1, referring to fig. 2, the mullion 11 has a vertically symmetric structure, two first transverse edge plates 112 at the ends of the first vertical edge plate 111 have the same size, and the other first transverse edge plates 112 are symmetrically distributed between the two first transverse edge plates 112 at the ends and have the same size.

Further, the two first transverse flanges 112 at the ends of the first vertical flange 111 and the remaining first transverse flanges 112 have the same or different lengths and the same or different heights.

Furthermore, the number of the first transverse edge plates 112 is four, the four first transverse edge plates 112 have the same size, and the vertical keels 11 are in a vertically symmetrical structure. The four first transverse edge plates 112 arranged in the embodiment enable the vertical keel 11 to form two first accommodating cavities 113 and one second accommodating cavity 114, so that the finally formed indoor partition wall forms a double-layer wallboard, an integrated three-layer supporting system and a supporting structure, and further the effects of reducing the thickness and the dead weight of the single-layer wallboard and providing space for laying various lines and pipelines are achieved.

Example 3:

on the basis of embodiment 1 or 2, referring to fig. 3, the horizontal keel 12 is a symmetrical structure as a whole, two second vertical edge plates 122 located at the ends of the second transverse edge plate 121 have the same size, and the remaining second vertical edge plates 122 are symmetrically distributed between the two second vertical edge plates 122 at the ends and have the same size.

Further, the two second vertical flanges 122 at the ends of the second transverse flange 121 and the remaining second vertical flanges 122 have the same or different lengths and the same or different heights.

Furthermore, the number of the second vertical edge plates 122 is four, the four second vertical edge plates 122 have the same size, and the whole horizontal keel 12 has a symmetrical structure. The four vertical second flange plates 122 arranged in this embodiment enable the horizontal keel 12 to form two third accommodating cavities 123 and one fourth accommodating cavity 124, so that the finally formed indoor partition wall forms a double-layer wall plate, an integrated three-layer supporting system and a supporting structure, the effect of reducing the thickness and the dead weight of the single-layer wall plate and providing space for laying various lines and pipelines is achieved, and the second transverse flange plate 121 can also support various laid lines and pipelines.

In this embodiment, the whole horizontal keel 12 is a symmetrical structure, which means that the whole horizontal keel 12 is symmetrical in left and right and up and down.

Example 4:

on the basis of any one of embodiments 1 to 3, referring to fig. 1, the number of the horizontal keels 12 is three, and the heights of the three horizontal keels 12 from the ground are sequentially 400mm, 1050 mm, 1250mm and 1800 mm, 2000 mm.

In the present embodiment, the reason why the horizontal keel 12 is provided with three lines and the vertical height of the three horizontal keels 12 is to form a pipeline passage of indoor equipment and switches for laying various pipelines by using the second horizontal edge plate 121 of the horizontal keel 12 in consideration of the height of the daily indoor socket.

Example 5:

on the basis of any one of the foregoing embodiments, referring to fig. 1 and 4, the keel for an indoor partition further includes aluminum frame strips 13 disposed at upper and lower end portions of the vertical keel 11, where each aluminum frame strip 13 includes a third transverse edge plate 131 and a third vertical edge plate 132 located at two end portions of the third transverse edge plate 131 and extending toward the same side, a sixth accommodating cavity 134 is formed by downward recessing a middle portion of the third transverse edge plate 131, a fifth accommodating cavity 133 is formed between the third vertical edge plate 132 and a side edge portion of the sixth accommodating cavity 134, and the fifth accommodating cavity 133 is matched with the first accommodating cavity 113.

Further, the fifth receiving cavity 133 and the sixth receiving cavity 134 may have the same size or different sizes.

In this embodiment, the fifth accommodating cavity 133 is used for accommodating a wall panel of the indoor partition wall, and the end of the wall panel can be protected by arranging the aluminum frame strip 13 and the fifth accommodating cavity 133, so that the end of the wall panel is prevented from being damaged due to shaking, displacement and the like; the sixth receiving cavity 134, which is formed in the middle of the third horizontal plate 131 in a concave manner, can receive a connector for connecting the indoor partition wall with the upper and lower floors.

Example 6:

on the basis of any one of the above embodiments, referring to fig. 1, a threading hole 115 is formed in the first vertical edge plate 111, and the threading hole 115 is located above the bent portion; a plurality of through holes are uniformly distributed on the second transverse edge plate 121.

In this embodiment, the threading hole 115 is provided for threading various lines and pipelines. The threading hole 115 is provided above the bent portion, so that various lines and pipes to be threaded can be supported by the second horizontal flange 121 of the horizontal keel 12.

Furthermore, the threading holes 115 on the first vertical edge plates 111 of the at least two vertical keels 11 correspond to each other.

Further, at least one group of threading holes are formed in the first vertical edge plate 111.

Further, the number of the threading holes 115 located at the same position on the first flange 111 is at least one.

Furthermore, the threading holes 115 on the first vertical edge plate 111 are provided with three groups, each group comprises at least two threading holes 115, the at least two threading holes 115 are distributed transversely or longitudinally, and the heights of the three groups of threading holes 115 from the ground are 200-.

Furthermore, the through holes are circular holes, square holes, round-corner rectangular holes, strip-shaped holes or holes with other shapes.

In this embodiment, the three sets of threading holes 115 are provided and have specific heights, because the heights of the sockets and switches in the indoor are considered, for example, the height of the switch of the lighting device from the ground is 1050-.

In this embodiment, the second transverse edge plate 121 is provided with the through holes, so that on one hand, vertically distributed channels can be reserved for various pipelines laid inside the indoor partition wall, and on the other hand, the material and the self weight of the horizontal keel 12 can be reduced on the premise of not affecting the bearing strength.

It should be noted that the above detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise. Furthermore, it will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in other sequences than those illustrated or otherwise described herein.

Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements explicitly listed, but may include other steps or elements not explicitly listed or inherent to such process, method, article, or apparatus.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may also be oriented in other different ways, such as by rotating it 90 degrees or at other orientations, and the spatially relative descriptors used herein interpreted accordingly.

In the foregoing detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, like numerals typically identify like components, unless context dictates otherwise. The illustrated embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented here.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a fossil fragments are used to indoor partition, includes at least two vertical keel (11) and at least one horizontal keel (12), its characterized in that: the vertical keel (11) comprises a first vertical edge plate (111) and a plurality of first transverse edge plates (112) positioned on the same side of the first vertical edge plate (111), two of the plurality of first transverse edge plates (112) are distributed at the upper end part and the lower end part of the first vertical edge plate (111), the rest first transverse edge plates (112) are distributed between the two first transverse edge plates (112) at the end parts, a first accommodating cavity (113) for accommodating a wallboard is formed between the first transverse edge plate (112) at the end part and the first transverse edge plate (112) adjacent to the first transverse edge plate, and a second accommodating cavity (114) is formed between the two adjacent first transverse edge plates (112) at the middle part; the horizontal keel (12) comprises second transverse edge plates (121) and a plurality of second vertical edge plates (122) positioned on two sides of the second transverse edge plates (121), two of the plurality of second vertical edge plates (122) are distributed at the left end and the right end of the second transverse edge plates (121), the rest of the second vertical edge plates (122) are distributed between the second vertical edge plates (122) at the two ends, a third accommodating cavity (123) for accommodating a wallboard is formed between the second vertical edge plate (122) at the end and the second vertical edge plate (122) adjacent to the second vertical edge plate, and a fourth accommodating cavity (124) is formed between the two adjacent second vertical edge plates (122) at the middle; the first accommodating cavity (113) is matched with the third accommodating cavity (123), the second accommodating cavity (114) is matched with the fourth accommodating cavity (124), and the number and the positions of the first transverse edge plate (112) and the second vertical edge plate (122) are matched; the end part of the horizontal keel (12) is bent to form a bent part, and the bent part is connected with the part, located in the second accommodating cavity (114), of the first vertical edge plate (111).

2. A keel for indoor partition wall according to claim 1, wherein: the vertical keel (11) is of a vertically symmetrical structure, the two first transverse edge plates (112) at the ends of the first vertical edge plate (111) are the same in size, and the rest first transverse edge plates (112) are symmetrically distributed between the two first transverse edge plates (112) at the ends of the two first transverse edge plates and are the same in size.

3. A keel for indoor partition wall according to claim 1, wherein: the number of the first transverse edge plates (112) is four, the four first transverse edge plates (112) are the same in size, and the vertical keels (11) are of a vertically symmetrical structure.

4. A keel for indoor partition wall according to claim 1, wherein: the horizontal keel (12) is integrally of a symmetrical structure, the two second vertical edge plates (122) at the ends of the second transverse edge plates (121) are the same in size, and the rest second vertical edge plates (122) are symmetrically distributed between the two second vertical edge plates (122) at the ends of the two second vertical edge plates and are the same in size.

5. A keel for indoor partition wall according to claim 1, wherein: the number of the second vertical edge plates (122) is four, the four second vertical edge plates (122) are the same in size, and the whole horizontal keel (12) is of a symmetrical structure.

6. A keel for indoor partition wall according to claim 1, wherein: the number of the horizontal keels (12) is three, and the heights of the three horizontal keels (12) from the ground are sequentially 400mm, 1250mm and 2000mm respectively at 200-.

7. A keel for indoor partition wall according to claim 1, wherein: the end part of the horizontal keel (12) is bent upwards or downwards to form a bent part, and the bent part is connected with the part, located in the second accommodating cavity (114), of the first vertical edge plate (111) through a tapping screw.

8. A keel for indoor partition walls according to any one of claims 1-7, wherein: still including setting up in aluminium frame strip (13) at vertical keel (11) upper and lower both ends, aluminium frame strip (13) include third horizontal flange board (131) and third vertical flange board (132) that are located third horizontal flange board (131) both ends and extend to the homonymy, third horizontal flange board (131) middle part undercut forms sixth holding chamber (134), form fifth holding chamber (133) between the side portion of third vertical flange board (132) and sixth holding chamber (134), fifth holding chamber (133) with first holding chamber (113) phase-match.

9. A keel for indoor partition walls according to any one of claims 1-7, wherein: a threading hole (115) is formed in the first vertical edge plate (111), and the threading hole (115) is located above the bent part; a plurality of through holes are uniformly distributed on the second transverse edge plate (121).

10. A runner for an indoor partition wall as claimed in claim 9, wherein: the threading holes (115) on the first vertical edge plate (111) are provided with three groups, each group comprises at least two threading holes (115), the at least two threading holes (115) are distributed transversely or longitudinally, and the heights of the three groups of threading holes (115) from the ground are 400mm, 1050 mm and 1250mm and 1800 mm in sequence.

Images