CN214739020U - Interlayer wall structure of dry area sliding door - Google Patents

Abstract

The utility model provides a dry district moves sandwich wall structure of door, include: a connecting wall; one end of the door head lintel is in contact with the connecting wall, and the door head lintel is positioned above the connecting wall; the upper end of the interlayer wall is connected with the lintel of the door head; one end of the interlayer wall is contacted with the connecting wall; the sliding door is arranged in the interlayer wall; the door pocket is arranged at the other end of the interlayer wall; the sandwich wall comprises an inner side wall, an outer side wall and a sandwich layer formed by a connecting wall, the inner side wall and the outer side wall in a surrounding mode, the inner side wall and the outer side wall respectively comprise a keel frame, a base plate, a finish coat plate and a finish coat, the upper end of the keel frame is connected with a door lintel, the lower end of the keel frame is connected with the floor, the base plate is fixed on the surface of the keel frame, the finish coat plate is fixed on the surface of the base plate, and the finish coat is attached to the surface of the finish coat. Through the interlayer wall structure of the dry area sliding door, the movable sliding door arranged in the dry areas such as a restaurant, a study, a bedroom and the like can be hidden, so that the room is more attractive. But also can reduce the cost of the sandwich wall.

Description

Interlayer wall structure of dry area sliding door

Technical Field

The utility model relates to a building decoration field, concretely relates to intermediate layer wall structure of dry zone sliding door.

Background

In the building decoration process, rooms are generally divided into a dry area and a wet area according to water use conditions: rooms with less water consumption and without water drainage on the ground, such as a living room, a dining room, a study room, a bedroom and the like, are called dry areas, rooms with more water consumption, wet interior and water drainage on the ground, such as a toilet, a laundry room, a kitchen and the like, are called wet areas. In order to meet the special requirements of functional arrangements or owners, the doors of dry areas such as restaurants, study rooms, bedrooms, etc. are often designed as sliding doors which can be moved to one side. Because the sliding door, the hanging wheels and the hanging rails are arranged on the wall surface, the sliding door is exposed outside and is not beautiful enough, the sliding door, the hanging wheels and the hanging rails need to be hidden. The wall for installing the sliding door, the hanging wheels and the hanging rails is made into an interlayer, the door leaf is pushed into the interlayer to be hidden when the door is opened, the wall with the interlayer and capable of hiding the sliding door, the hanging rails, the hanging wheels and the door leaf is called an interlayer wall, and the interlayer wall for hiding the sliding door in dry areas such as restaurants, study rooms, bedrooms and the like is called a dry area sliding door interlayer wall. The sandwich wall of the existing dry region sliding door has the problems of low firmness degree, and often convex deformation and cracking due to the change of air humidity in the overall structure.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the technical defects that the structural firmness of the sandwich wall of the dry area sliding door in the prior art is not high, and the sandwich wall is often bulged, deformed and cracked due to the change of air humidity, the sandwich wall structure of the dry area sliding door is provided.

In order to solve the technical problem, the utility model provides a dry zone moves sandwich wall structure of door, include: a connecting wall; one end of the door head lintel is in contact with the connecting wall, and the door head lintel is positioned above the connecting wall; the upper end of the interlayer wall is connected with the lintel of the door head; one end of the interlayer wall is contacted with the connecting wall; the sliding door is arranged in the interlayer wall; the door pocket is arranged at the other end of the interlayer wall; the sandwich wall comprises an inner side wall, an outer side wall and a sandwich layer formed by a connecting wall, the inner side wall and the outer side wall in a surrounding mode, the inner side wall and the outer side wall respectively comprise a keel frame, a base plate, a finish coat plate and a finish coat, the upper end of the keel frame is connected with a door lintel, the lower end of the keel frame is connected with the floor, the base plate is fixed on the surface of the keel frame, the finish coat plate is fixed on the surface of the base plate, and the finish coat is attached to the surface of the finish coat.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: interior side wall and outer side wall set up relatively, and in the finish coat of interior side wall faced dry region, the upper end was close to door head lintel department and is provided with the access hole, and the finish coat of outer side wall faces outside the dry region.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the keel frame is a galvanized square tube, the length of the galvanized square tube is 40mm, and the width of the galvanized square tube is 40 mm.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the base plate is an Oldham's pine plate or a multilayer plate, the thickness of the base plate is 9-12 mm, the base plate is fixed on the keel frame through a dovetail flat head self-tapping screw, and a gap of 8-15 mm is reserved between the lower end of the base plate and the ground.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the cover panel is a gypsum board with a thickness of 9.5mm or 12 mm.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the veneer comprises a putty layer and a decorative layer, and the putty layer is embedded on the surface of the cover panel.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the thickness of the interlayer is 80-100 mm, and the width of the inlet is 60 mm.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the sliding door comprises a hanging rail, a hanging wheel and a door leaf, wherein the hanging rail is fixed on a door head lintel, the door leaf is hung on the hanging rail through the hanging wheel, and the hanging wheel is matched with the hanging rail.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the door pocket is arranged on the edges of the inner side wall and the outer side wall at the inlet of the interlayer and comprises a hook line and a door pocket line.

The utility model provides an among the sandwich wall structure of dry zone sliding door, can also have such characteristic: the height of the door head lintel is 120 mm-150 mm, and the thickness of the connecting wall is 200 mm-220 mm.

The beneficial effects of the utility model reside in that:

the utility model discloses an among the sandwich wall structure of dry district sliding door, through setting up connecting wall and door head lintel, and the door head lintel is located the top of connecting wall, then encloses into the intermediate layer through connecting wall, inner wall, outer side wall, will move the door setting in the intermediate layer. Therefore, the sliding door can be completely hidden in the interlayer, the whole dry area is more attractive, and the cost of the whole interlayer wall is reduced compared with that of the existing interlayer wall structure. In addition, the weight of the connecting wall is relatively low, the phenomenon of overload to the ground cannot be caused, the bending strength of the door head lintel is high and firm, the weight of the upper wall body can be borne, pressure cannot be caused to the sliding door, and the phenomenon that deformation is caused due to the fact that the sliding door is stressed is avoided.

In addition, the structure of interior side wall and outside wall is the same, including keel frame, basal plate, finish coat and finish coat, and keel frame's upper end and lower extreme are fixed at the shop front lintel and subaerial through expansion bolts respectively, and through keel frame's setting, the structure that lets whole intermediate layer wall can both be more firm durable.

Drawings

Fig. 1 is an elevation view of a sandwich wall structure of a dry zone sliding door according to an embodiment of the present invention;

fig. 2 is a sectional view of the sandwich wall structure of the dry zone sliding door according to the embodiment of the present invention.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The interlayer wall structure of the dry area sliding door is used for hiding the sliding door in the dry area. In this embodiment, the dry area is a room such as a living room, a dining room, a study room, a bedroom, etc., which uses less water and does not need to be drained from the ground.

< example one >

As shown in fig. 1 and 2, the sandwich wall structure of the dry zone sliding door is used for hiding the dry zone sliding door, and comprises a connecting wall 10, a door head lintel 20, a sandwich wall 30, a sliding door 40 and a door pocket 50. The floor 60 of the dry area building is provided with a floor leveling layer 70, and a floor finishing surface 80 is attached above the floor leveling layer 70.

The connecting wall 10 is made of aerated concrete bricks and is plastered on two sides, and the thickness of the wall body is 200 mm-220 mm. In the present embodiment, the thickness of the connection wall 10 is 220 mm. Since the aerated concrete blocks are light in weight, the thickness of the entire connecting wall 10 is also light, and no overload is imposed on the floor 60.

The door head lintel 20 is a reinforced concrete prefabricated lintel with the height of 120 mm-150 mm. In the present embodiment, the height of the door head lintel 20 is 150 mm. The door head lintel 20 has high bending strength and is very firm, and can bear the weight of the wall body above the lintel, so that the structure of the sliding door below the lintel cannot be pressed, and the phenomenon that the sliding door deforms due to pressure is avoided.

The sandwich wall 30 includes an inner side wall 31, an outer side wall 32, and a sandwich 33. The inner side wall 31 and the outer side wall 32 have the same composition structure, and both comprise a keel frame 34, a base plate 35, a cover plate 36 and a decorative layer 37.

The keel frame 34 is formed by welding galvanized square pipes with the length and the width of 40 mm. The keel frame 34 is vertically installed, the lower end is fixed on the floor surface 60 through expansion bolts, and the upper end is fixed on the door head lintel 20 through expansion bolts. Because the intensity of the galvanized square pipe is far higher than that of the wood keel and the light steel keel of the same specification, the keel frame 34 has firmer structure and more stable shape. In addition, the cross section size of the square tube is only 40mm, and compared with a partition keel of 75mm, the length and the width are reduced by about 33%, so that the keel frame 34 in the embodiment can save a space of 70mm width. Furthermore, the galvanized square pipe has good antirust capability, and the sandwich wall 30 can be more durable.

The base layer board 35 is an Ouchong board or a multilayer board, and the thickness is 9 mm-12 mm. In this embodiment, the base plate 35 is an ouch plate having a thickness of 12mm, and is fixed to the surface of the keel frame 34 by means of a dovetail tack. A gap of 8 mm-15 mm is left between the lower end of the base plate 35 and the ground finish surface 80, so that the base plate 35 can be prevented from deforming due to the absorption of ground moisture. In addition, the structure of the base plate 35 is very firm, and the decoration can be arbitrarily installed.

The cover panel 36 is a gypsum board with a thickness of 9.5mm or 12 mm. In this embodiment, the cover sheet 36 is made of a gypsum board having a thickness of 12mm, and is fixed to the surface of the base sheet 35 by a self-tapping screw. Because the plasterboard has good adhesive force to the putty powder, the putty layer of the finish coat 37 for subsequent construction can not be shelled and cracked, so the plasterboard is very suitable for the construction of interior wall paint, wallpaper, wall cloth, art paint and the like. In addition, since the gypsum board is produced by the foaming technique, it is light in weight and does not excessively increase the load on the floor 60.

The finishing layer 37 comprises a putty layer and a decorative layer, and the decorative layer is inner wall paint, wallpaper, wall cloth and the like. The putty layer is embedded on the surface of the cover panel 36, and the cover panel is a gypsum board and has strong adhesion to putty, so that the finish coat 37 cannot be cracked and cracked.

The inner side wall 31 and the outer side wall 32 are arranged oppositely, the veneer layer 37 of the inner side wall 31 faces the study room, the bedroom and the dining room, the upper end of the veneer layer is provided with an access hole 38 close to the door head lintel 20, and the veneer layer 37 of the outer side wall 32 faces the living room and the passageway.

The mezzanine 33 is enclosed by the inner side wall 31, the outer side wall 32 and the connecting wall 10. The thickness b of the interior of the interlayer 33 is 80-100 mm, one end far away from the connecting wall 10 is an interlayer inlet 39, and the opening width b of the interlayer inlet 39₁Is 60 mm. In this embodiment, the interlayer 33 has an inner thickness b of 100 mm.

The sliding door 40 is arranged in the interlayer 33 and comprises a hanging rail, a hanging wheel and a door leaf, wherein the hanging rail is fixed on the door head lintel 20 by using a fastening nail M8x60, and the door leaf is hung on the hanging rail through the hanging wheel. Because the hanging wheel is matched with the hanging rail and the hanging wheel rotates flexibly, the door leaf can move freely on the hanging rail. Because the sliding door 40 is hidden in the interlayer 33 and is not exposed outside, the wall surface is simple, and the room looks more beautiful.

The door pocket 50 includes a hook line 51 and a pocket line 52, which are installed on the edges of the inner side wall 31 and the outer side wall 32 at the interlayer inlet 39 to decorate the moving door opening. Because the hook line 51 wraps the inlet positions of the interlayers 33 of the inner side wall 31 and the outer side wall 32 and adjusts the width of the interlayer 33 at the interlayer inlet 39 to the width b₁The gap left after the door leaf is installed is very small, so that the sliding door 40 can pass through freely, the internal structure of the sandwich wall 30 can not be seen normally, and the appearance is attractive.

< example two >

As shown in fig. 1 and 2, the sandwich wall structure of the dry zone sliding door is used for hiding the dry zone sliding door, and comprises a connecting wall 10, a door head lintel 20, a sandwich wall 30, a sliding door 40 and a door pocket 50. The floor 60 of the dry area building is provided with a floor leveling layer 70, and a floor finishing surface 80 is attached above the floor leveling layer 70.

The connecting wall 10 is made of aerated concrete bricks and is plastered on two sides, and the thickness of the wall body is 200 mm-220 mm. In the present embodiment, the thickness of the connection wall 10 is 200 mm. Since the aerated concrete blocks are light in weight, the thickness of the entire connecting wall 10 is also light, and no overload is imposed on the floor 60.

The door head lintel 20 is a reinforced concrete prefabricated lintel with the height of 120 mm-150 mm. In the present embodiment, the height of the door head lintel 20 is 150 mm. The door head lintel 20 has high bending strength and is very firm, and can bear the weight of the wall body above the lintel, so that the structure of the sliding door below the lintel cannot be pressed, and the phenomenon that the sliding door deforms due to pressure is avoided.

The sandwich wall 30 includes an inner side wall 31, an outer side wall 32, and a sandwich 33. The inner side wall 31 and the outer side wall 32 both comprise a keel frame 34, a base plate 35, a cover plate 36 and a decorative layer 37.

The keel frame 34 is formed by welding galvanized square pipes with the length and the width of 40 mm. The keel frame 34 is vertically installed, the lower end is fixed on the floor surface 60 through expansion bolts, and the upper end is fixed on the door head lintel 20 through expansion bolts. Because the intensity of the galvanized square pipe is far higher than that of the wood keel and the light steel keel of the same specification, the keel frame 34 has firmer structure and more stable shape. In addition, the cross section size of the square tube is only 40mm, and compared with a partition keel of 75mm, the length and the width are reduced by about 50%, so that the keel frame 34 in the embodiment can save a space of 70mm width. Furthermore, the galvanized square pipe has good antirust capability, and the sandwich wall 30 can be more durable.

The base layer board 35 is an Ouchong board or a multilayer board, and the thickness is 9 mm-12 mm. In this embodiment, the base plate 35 is a 9mm thick multi-layer plate and is fixed to the surface of the keel frame 34 by means of dovetail-type self-tapping screws. A gap of 8 mm-15 mm is left between the lower end of the base plate 35 and the ground finish surface 80, so that the base plate 35 can be prevented from deforming due to the absorption of ground moisture. In addition, the structure of the base plate 35 is very firm, and the decoration can be arbitrarily installed.

The cover panel 36 is a gypsum board with a thickness of 9.5mm or 12 mm. In this embodiment, the cover sheet 36 is a gypsum board having a thickness of 9.5mm, and is fixed to the surface of the base sheet 35 by a self-tapping screw. Because the plasterboard has good adhesive force to the putty powder, the putty layer of the finish coat 37 for subsequent construction can not be shelled and cracked, so the plasterboard is very suitable for the construction of interior wall paint, wallpaper, wall cloth, art paint and the like. In addition, since the gypsum board is produced by the foaming technique, it is light in weight and does not excessively increase the load on the floor 60.

The finishing layer 37 comprises a putty layer and a decorative layer, and the decorative layer is inner wall paint, wallpaper, wall cloth and the like. The putty layer is embedded on the surface of the cover panel 36, and the cover panel is a gypsum board and has strong adhesion to putty, so that the finish coat 37 cannot be cracked and cracked.

The inner side wall 31 and the outer side wall 32 are symmetrically arranged, the veneer layer 37 of the inner side wall 31 faces the inside of a study room, a bedroom and a dining room, and the upper end of the veneer layer is provided with an access hole 38 close to the door head lintel 20. The clean height and the clean width of the access hole 38 are about 200mm respectively, and the access hole is used for overhauling when the track is loosened and falls off, so that the installation and the overhauling of the sliding door 40 are convenient. The facing layer 37 of the outer side wall 32 faces the study, aisle.

The mezzanine 33 is enclosed by the inner side wall 31, the outer side wall 32 and the connecting wall 10. The thickness b of the interior of the interlayer 33 is 80-100 mm, one end far away from the connecting wall 10 is an interlayer inlet 39, and the opening width b of the interlayer inlet 39₁Is 60 mm. In this embodiment, the interlayer 33 has an inner thickness b of 80 mm.

The sliding door 40 is arranged in the interlayer 33 and comprises a hanging rail, a hanging wheel and a door leaf, wherein the hanging rail is fixed on the door head lintel 20 by using a fastening nail M8x60, and the door leaf is hung on the hanging rail through the hanging wheel. Because the hanging wheel is matched with the hanging rail and the hanging wheel rotates flexibly, the door leaf can move freely on the hanging rail. Because the sliding door 40 is hidden in the interlayer 33 and is not exposed outside, the wall surface is simple, and the room looks more beautiful.

The door pocket 50 includes a hook line 51 and a pocket line 52, which are installed on the edges of the inner side wall 31 and the outer side wall 32 at the interlayer inlet 39 to decorate the moving door opening. Because the hook line 51 wraps the inlet positions of the interlayers 33 of the inner side wall 31 and the outer side wall 32 and adjusts the width of the interlayer 33 at the interlayer inlet 39 to the width b₁The gap left after the door leaf is installed is very small, so that the sliding door 40 can pass through freely, the internal structure of the sandwich wall 30 can not be seen normally, and the appearance is attractive.

According to the sandwich wall structure of the dry area sliding door in the embodiment, the connecting wall and the door head lintel are arranged, the door head lintel is positioned above the connecting wall, then the connecting wall, the inner side wall and the outer side wall form a sandwich layer, and the sliding door is arranged in the sandwich layer. Therefore, the sliding door can be completely hidden in the interlayer, the whole dry area is more attractive, the connecting wall is only built by bricks, the cost is lower, and the cost of the whole interlayer wall is reduced compared with that of the existing interlayer wall structure. In addition, the weight of the connecting wall is relatively low, the phenomenon of overload to the ground cannot be caused, the bending strength of the door head lintel is high and firm, the weight of the upper wall body can be borne, pressure cannot be caused to the sliding door, and the phenomenon that deformation is caused due to the fact that the sliding door is stressed is avoided.

In addition, the structure of interior side wall and outside wall is the same, including keel frame, basal plate, finish coat and finish coat, and keel frame's upper end and lower extreme are fixed at the shop front lintel and subaerial through expansion bolts respectively, and through keel frame's setting, the structure that lets whole intermediate layer wall can both be more firm durable.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their full equivalents, the present application is intended to include such modifications and variations.

Claims (10)

1. A sandwich wall structure of a dry zone sliding door is characterized by comprising:

a connecting wall;

one end of the door head lintel is in contact with the connecting wall, and the door head lintel is positioned above the connecting wall;

the upper end of the interlayer wall is connected with the door head lintel; one end of the interlayer wall is in contact with the connecting wall;

the sliding door is arranged in the interlayer wall; and

the door pocket is arranged at the other end of the interlayer wall;

wherein the interlayer wall comprises an inner side wall, an outer side wall and an interlayer formed by the connection wall, the inner side wall and the outer side wall,

the inner side wall and the outer side wall respectively comprise a keel frame, a base plate, a cover plate and a decorative layer,

the upper end of the keel frame is connected with the lintel of the door head, the lower end of the keel frame is connected with the floor, the base plate is fixed on the surface of the keel frame, the finish coat is fixed on the surface of the base plate, and the finish coat is attached to the surface of the finish coat.

2. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the inner side wall is arranged opposite to the outer side wall,

the veneer layer of the inner side wall faces the dry area, the upper end of the veneer layer is provided with an access hole close to the lintel of the door head,

the veneer layer of the outer side wall faces the outside of the dry area.

3. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the keel frame is a galvanized square pipe, the length of the galvanized square pipe is 40mm, and the width of the galvanized square pipe is 40 mm.

4. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the base layer board is an Ouchong board or a multilayer board, the thickness is 9 mm-12 mm,

the base plate is fixed on the keel frame through a dovetail flat head self-tapping screw, and a gap of 8-15 mm is reserved between the lower end of the base plate and the ground.

5. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the cover panel is a gypsum board, and the thickness is 9.5 millimeters or 12 millimeters.

6. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the decorative layer comprises a putty layer and a decorative layer,

the putty layer is embedded on the surface of the cover panel.

7. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the thickness of the interlayer is 80-100 mm, and the width of the inlet is 60 mm.

8. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the sliding door comprises a hanging rail, a hanging wheel and a door leaf,

the hanger rail is fixed on the door head lintel, the door leaf is hung on the hanger rail through the hanging wheel, and the hanging wheel is matched with the hanger rail.

9. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the door pocket is arranged on the edges of the inner side wall and the outer side wall at the inlet of the interlayer and comprises a hook line and a door pocket line.

10. The sandwich wall structure of a dry zone sliding door according to claim 1, characterized in that:

the height of the door head lintel is 120 mm-150 mm,

the thickness of the connecting wall is 200-220 mm.

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