CN215253037U - Waterproof construction that kneck is established with high pavilion to subway station access & exit - Google Patents

Abstract

The utility model discloses a waterproof structure at a joint formed by combining an entrance and an exit of a subway station and a high-altitude shelter, which comprises a shelter wall body, a steel frame, a dry hanging piece, a stone material, a ceiling and a main waterproof layer, wherein the steel frame is fixed on the shelter wall body, and the stone material is fixed on the steel frame through the dry hanging piece; the main waterproof layer includes vertical section A, slope section A, vertical section B, slope section B, vertical section C and slope section C and they connect gradually from last to lower, the vertical section A of main waterproof layer is hugged closely on the wind-powered shelter wall body, the slope section A of main waterproof layer is located the top of the first vertical section of roof, and vertical section B, slope section B, vertical section C and the slope section C of main waterproof layer laminate respectively and keep away from in the first vertical section, first slope section, the vertical section of second and the slope section of roof one side of wind-powered shelter wall body. The utility model discloses can effectively improve access & exit wind pavilion kneck waterproof quality, improve the safety and the reliability of access & exit.

Description

Waterproof construction that kneck is established with high pavilion to subway station access & exit

Technical Field

The utility model belongs to subway station building structure field, more specifically relates to a waterproof construction that kneck is closed to subway station access & exit and high-wind pavilion.

Background

With the continuous development of urban rail transit, the number of newly built subways is also continuously increased. The construction of the wind pavilion as a ventilation system of a subway station is very important. The common wind pavilions comprise a low wind pavilion and a high wind pavilion, wherein the low wind pavilion is a low wind pavilion for discharging wind at the top, and a top wind opening is blocked by adopting a safety grid; the volume and the height of high pavilion are all great, and each export that this type of pavilion accessible side air-out form kept away the ventilating shaft is on the coplanar, replaces the length between the subaerial wind gap of uncovered low pavilion with high to reduce the pavilion area of occupation of land. High-altitude kiosks are often used in densely populated, tight-land commercial areas to save floor space. At present, many high-altitude pavilions are arranged together with a subway exit, and due to different structures, gaps exist, and waterproof layers can be arranged. The processing is comparatively simple, adopts the individual layer waterproof layer more, and the access & exit canopy roofing aluminium veneer is not fixed on wind-powered shelter main part wall, has aged easy the coming off for a long time, and water-proof effects is relatively poor.

SUMMERY OF THE UTILITY MODEL

To the not good enough problem of waterproof effect of prior art, the utility model provides a subway station access & exit closes the waterproof construction who establishes the kneck with the high wind pavilion, and its aim at strengthens each subassembly connection degree and adds the waterproof layer to this improves its waterproof performance.

In order to realize the above object, according to the utility model discloses an aspect provides a waterproof construction that subway station access & exit and high-wind pavilion closed and establish kneck, including wind pavilion wall body, steelframe, dry pendant, stone material, ceiling and main waterproof layer, its characterized in that:

the steel frame is fixed on the wall body of the wind pavilion, and the dry hanging piece is fixed on the steel frame;

the stone is vertically arranged and is fixedly connected to the steel frame through the dry hanging piece;

the ceiling comprises a top plate and a top plate reinforcing member, the top plate comprises a first vertical section, a first inclined section, a second vertical section, a second inclined section and a horizontal section, the first vertical section, the second inclined section and the horizontal section are sequentially connected from top to bottom, and the distances between the first vertical section, the second vertical section and the horizontal section and the wall body of the wind pavilion are L respectively₁、L₂And L₃And L is₁＜L₂＜L₃(ii) a The first vertical section is tightly attached to the wall body of the wind pavilion, and the second vertical section is attached to the wall body of the wind pavilionThe lower ends of the two inclined sections are positioned right below the stone, and the horizontal section is fixedly installed at the top end of the top plate reinforcing member;

the main waterproof layer includes vertical section A, slope section A, vertical section B, slope section B, vertical section C and slope section C and they connect gradually from last to lower, the vertical section A of main waterproof layer is hugged closely on the wind-powered shelter wall body, the slope section A of main waterproof layer is located the top of the first vertical section of roof, and vertical section B, slope section B, vertical section C and the slope section C of main waterproof layer laminate respectively first vertical section, first slope section, the vertical section of second and the slope section of roof are kept away from one side of wind-powered shelter wall body.

Preferably, the roof panel reinforcement includes a first support member, a first support plate, a middle support member, a second support member, and a second support plate, and they are fixedly connected in sequence from top to bottom.

Preferably, the first support member and the second support member are connected by a plurality of upright locks; every upright latch fitting all includes the collet and latch fitting support, the lower extreme of collet is carried the upper end of latch fitting support and the upper end welding of this collet are in the lower surface of first support piece, the lower extreme of latch fitting support passes first backup pad after-fixing be in middle part support piece's upper surface.

Preferably, the second supporting piece is connected with the second supporting plate through a fixing piece; the fixing piece comprises a connecting piece and a bolt, the connecting piece is welded on the upper surface of the second supporting plate, and the bolt penetrates through the second supporting piece and then is connected with the connecting piece.

Preferably, the wind-driven generator further comprises an additional waterproof layer, wherein the additional waterproof layer comprises a vertical part and a horizontal part, the vertical part extends to the first supporting plate from the lower part of the first inclined section, the vertical part is attached to the wall body of the wind pavilion, and the horizontal part is attached to the upper surface of the first supporting plate.

Preferably, the two ends of the main waterproof layer, the two ends of the additional waterproof layer and the upper end of the first vertical section of the top plate are sealed by using sealing glue.

Preferably, the wind shelter structure further comprises a pressing strip, wherein the pressing strip comprises a vertical section I, an inclined section I and a vertical section II which are sequentially connected from top to bottom, and the vertical section I, the inclined section I and the vertical section II of the pressing strip are respectively attached to one side, far away from the wall body of the wind shelter, of the vertical section A, the inclined section A and the vertical section B of the main waterproof layer; and the self-tapping screw sequentially penetrates through the vertical section II, the vertical section B and the first vertical section and then is connected with the wall body of the wind pavilion.

Preferably, a cement mortar layer is arranged on the surface of the wall body of the wind pavilion, and the cement mortar layer comprises a first vertical layer, a first inclined layer and a second vertical layer which are sequentially arranged from top to bottom; the second vertical layer is attached to one side, away from the wall body of the wind pavilion, of the vertical section I, an inclined plane is arranged at the bottom end of the second vertical layer, and the inclined plane is attached to one side, away from the wall body of the wind pavilion, of the inclined section I.

Preferably, the steel frame is fixed on the wall body of the wind pavilion through angle steel, and the angle steel is provided with a horizontal long hole so as to adjust the distance between the angle steel and the wall body of the wind pavilion; the angle steel is fixed on the wall body of the wind pavilion through expansion screws.

Preferably, the dry hanging piece is fixed on the steel frame through an angle steel, and a vertical long groove is formed in the angle steel so as to adjust the vertical position of the dry hanging piece; the angle steel is fixed on the steel frame through bolts.

Generally, through the utility model discloses above technical scheme who conceives compares with prior art, can gain following beneficial effect:

(1) the utility model discloses a subway access & exit closes with high pavilion and establishes the waterproof construction of kneck, and the outside of pavilion wall body is provided with the stone material to press close to the wall body and be provided with main waterproof layer, provide the roof of support for main waterproof layer in the bottom of steelframe, improved the waterproof function of kneck.

(2) The utility model discloses a subway access & exit closes the waterproof construction who establishes the kneck with the high wind pavilion, is provided with the roof reinforcement under the roof of ceiling to the roof links to each other with steelframe, wind pavilion wall body, and the structure of fastening makes the ceiling be difficult for droing, prolongs the life of ceiling.

(3) The utility model discloses a subway access & exit closes the waterproof construction who establishes the kneck with the high-wind pavilion, and the surface of wind pavilion wall body is further still provided with the additional waterproof layer, passes through sealed gluey shutoff at the both ends of main waterproof layer, the both ends of additional waterproof layer and the upper end of roof, has strengthened the connection and the leakproofness of each part, has improved waterproof performance.

(4) The utility model discloses a waterproof construction of kneck is closed with high pavilion to subway access & exit, still is provided with the layering on the surface of main waterproof layer to the latter half pressfitting on cement mortar layer has improved the laminating degree of main waterproof layer on the surface of layering, has further strengthened waterproof performance.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is an enlarged view at A in FIG. 1;

fig. 3 is an enlarged view at B in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

Referring to fig. 1-3, the utility model provides a subway station access & exit closes the waterproof construction who establishes the kneck with high wind pavilion, it includes wind pavilion wall body 1, steelframe 2, dry pendant 3, stone material 4, ceiling 5 and main waterproof layer 6.

The steel frame 2 is fixed on the wall 1 of the wind pavilion through first angle steel 12, and the first angle steel 12 is provided with a horizontal long hole so as to adjust the distance between the first angle steel 12 and the wall 1 of the wind pavilion; more specifically, the first angle iron 12 is fixed to the wall 1 of the wind box by expansion screws.

The surface of the wall body 1 of the wind pavilion is provided with a cement mortar layer 11, and the cement mortar layer 11 comprises a first vertical layer 111, a first inclined layer 112 and a second vertical layer 113 which are sequentially arranged from top to bottom; the second vertical layer 113 is attached to one side, far away from the wind pavilion wall body 1, of the vertical section I101, an inclined plane is arranged at the bottom end of the second vertical layer 113, and the inclined plane is attached to one side, far away from the wind pavilion wall body 1, of the inclined section I102.

The dry hanging piece 3 is fixed on the steel frame 2 through a second angle iron 13; a vertical long groove is formed in the second angle steel 13, so that the up-and-down position of the dry hanging piece 3 can be adjusted conveniently; more specifically, the second angle iron 13 is fixed to the steel frame 2 by a bolt. The stone 4 is vertically arranged and is fixedly connected to the steel frame 2 through the dry hanging piece 3.

The ceiling 5 comprises a ceiling 7 and a ceiling reinforcing member 8, the ceiling 7 is made of aluminum single plates, the ceiling 7 comprises a first vertical section 71, a first inclined section 72, a second vertical section 73, a second inclined section 74 and a horizontal section 75, the first vertical section 71, the second vertical section 73, the second inclined section 74 and the horizontal section 75 are sequentially connected from top to bottom, and the distances between the first vertical section 71, the second vertical section 73 and the horizontal section 75 and the wall body 1 of the wind pavilion are L respectively₁、L₂And L₃And L is₁＜L₂＜L₃(ii) a The first vertical section 71 is tightly attached to the wall 1 of the wind pavilion, the lower end of the second inclined section 74 is located right below the stone 4, and the horizontal section 75 is fixedly installed at the top end of the top plate reinforcing member 8.

The roof panel reinforcement 8 includes a first support member 81, a first support plate 82, a middle support member 16, a second support member 83, and a second support plate 84, and they are fixedly connected in this order from top to bottom. The first supporting member 81 and the second supporting member 83 are connected by a plurality of upright locking members 14; each of the upright locking members 14 includes a locking clip 141 and a locking member supporter 142, a lower end of the locking clip 141 clamps an upper end of the locking member supporter 142, an upper end of the locking clip 141 is welded to a lower surface of the first supporting member 81, and a lower end of the locking member supporter 142 passes through the first supporting plate 82 and is fixed to an upper surface of the middle supporting member 16. The first supporting member 81 and the second supporting member 83 are both angle steels and are parallel to each other, the first supporting plate 82 is a roof plate, and the second supporting plate 84 is an aluminum single plate.

The second supporting member 83 is connected to the second supporting plate 84 by a fixing member 15; the fixing member 15 includes a connecting member 151 and a bolt 152, the connecting member 151 is welded to the upper surface of the second support plate 84, and the bolt 152 is connected to the connecting member 151 after passing through the second support member 83.

The main waterproof layer 6 comprises a vertical section A61, an inclined section A62, a vertical section B63, an inclined section B64, a vertical section C65 and an inclined section C66 which are sequentially connected from top to bottom, the vertical section A61 of the main waterproof layer 6 is tightly attached to the wind pavilion wall body 1, the inclined section A62 of the main waterproof layer 6 is located above the first vertical section 71 of the top plate 7, and the vertical section B63, the inclined section B64, the vertical section C65 and the inclined section C66 of the main waterproof layer 6 are attached to one side, far away from the wind pavilion wall body 1, of the first vertical section 71, the first inclined section 72, the second vertical section 73 and the second inclined section 74 of the top plate 7 respectively.

In addition, the waterproof structure at the joint between the subway station entrance and the high-altitude pavilion further comprises an additional waterproof layer 9, the additional waterproof layer 9 comprises a vertical part 91 and a horizontal part 92, the vertical part 91 extends to the supporting piece 82 from the lower part of the first inclined section 72, the vertical part 91 is attached to the wall body 1 of the pavilion, and the horizontal section 75 is attached to the upper surface of the first supporting piece 82. In order to further improve the waterproof performance, the two ends of the main waterproof layer 6, the two ends of the additional waterproof layer 9 and the upper end of the first vertical section 71 of the top plate 7 are sealed by using sealant. The primary 6 and additional 9 water barriers are self-adhesive coils.

Further, the waterproof structure at the joint between the subway station entrance and the high-altitude shelter combined comprises a pressing strip 10, wherein the pressing strip 10 comprises a vertical section I101, an inclined section I102 and a vertical section II 103 which are sequentially connected from top to bottom, and the vertical section I101, the inclined section I102 and the vertical section II 103 of the pressing strip 10 are respectively attached to one side, away from the wall 1 of the high-altitude shelter, of the vertical section A61, the inclined section A62 and the vertical section B63 of the main waterproof layer 6; and the self-tapping screw sequentially penetrates through the vertical section II 103, the vertical section B63 and the first vertical section 71 and then is connected with the wall body 1 of the wind shelter.

The utility model discloses a roof 7 of access & exit ceiling hugs closely the wind pavilion wall body 1 and rolls up and lays, and its height is not less than 250mm, reuse tapping screw to fix the first vertical section 71 of roof 7, then set up one main waterproof layer 6 between roof 7 and the external stone material 4 of wind pavilion, main waterproof layer 6 upper portion covers roof 7, each material handing-over node is handled with fire prevention sealant; meanwhile, an additional waterproof layer 9 is additionally arranged between the first supporting plate 82 and the wall body 1 of the wind pavilion, so that a waterproof layer is additionally arranged on a roof drainage system in the rain shed, two waterproof layers of the main waterproof layer 6 and the additional waterproof layer 9 are realized, the use of an entrance and an exit under a rainwater environment is safer and more reliable, the safe operation of a subway station is further ensured, and meanwhile, a good engineering example is provided for design planning of the subway entrance and exit wind pavilion in future.

The utility model discloses following beneficial effect has: the main waterproof layer 6 is a main functional layer, an additional waterproof layer 9 is further arranged, and a pressing strip 10 is arranged on the main waterproof layer 6, so that the main waterproof layer is more attached to a wall surface, and the waterproof function of an interface is improved; ceiling 5 includes roof 7 and roof reinforcement 8, and roof 7 links to each other with steelframe 2, wind pavilion wall body 1 for ceiling 5 is fixed more, be difficult for droing, has further prolonged ceiling 5's life.

It is to be understood that the foregoing are many different embodiments or examples of the different features of the present embodiments. Specific examples of components and arrangements are described above to simplify the illustrative embodiments. These are, of course, merely examples and are not intended to limit the embodiments, and for example, device dimensions are not limited to the ranges or values disclosed, but may depend on processing conditions and/or desired properties of the device.

Moreover, the formation of a first feature over or on a second feature in the description that follows may include embodiments in which the first and second features are formed in direct contact, and may also include embodiments in which additional features may be formed interposing the first and second features, such that the first and second features may not be in direct contact, although the various features may be drawn arbitrarily to varying proportions for simplicity and clarity of illustration.

Spatially relative terms, such as "under," "below," "lower," "above," "upper," and the like, may be used herein to describe one element or feature's relationship to another element or feature(s) as illustrated in the figures.

These 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. The device may be oriented in different ways (e.g., rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

It will be understood by those skilled in the art that the foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the invention to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a subway station access & exit closes with high-wind pavilion and establishes waterproof construction of kneck, includes pavilion wall body, steelframe, dry pendant, stone material, ceiling and main waterproof layer, its characterized in that:

the steel frame is fixed on the wall body of the wind pavilion, and the dry hanging piece is fixed on the steel frame;

the stone is vertically arranged and is fixedly connected to the steel frame through the dry hanging piece;

the ceiling comprises a top plate and a top plate reinforcing member, the top plate comprises a first vertical section, a first inclined section, a second vertical section, a second inclined section and a horizontal section, the first vertical section, the second inclined section and the horizontal section are sequentially connected from top to bottom, and the distances between the first vertical section, the second vertical section and the horizontal section and the wall body of the wind pavilion are L respectively₁、L₂And L₃And L is₁＜L₂＜L₃(ii) a The first vertical section is tightly attached to the wall body of the wind pavilion, the lower end of the second inclined section is positioned right below the stone, and the horizontal section is fixedly installed at the top end of the top plate reinforcing member;

the main waterproof layer includes vertical section A, slope section A, vertical section B, slope section B, vertical section C and slope section C and they connect gradually from last to lower, the vertical section A of main waterproof layer is hugged closely on the wind-powered shelter wall body, the slope section A of main waterproof layer is located the top of the first vertical section of roof, and vertical section B, slope section B, vertical section C and the slope section C of main waterproof layer laminate respectively first vertical section, first slope section, the vertical section of second and the slope section of roof are kept away from one side of wind-powered shelter wall body.

2. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 1, characterized in that: the top plate reinforcing member comprises a first supporting member, a first supporting plate, a middle supporting member, a second supporting member and a second supporting plate which are sequentially and fixedly connected from top to bottom.

3. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 2, characterized in that: the first supporting piece and the second supporting piece are connected through a plurality of vertical locking pieces; every upright latch fitting all includes the collet and latch fitting support, the lower extreme of collet is carried the upper end of latch fitting support and the upper end welding of this collet are in the lower surface of first support piece, the lower extreme of latch fitting support passes first backup pad after-fixing be in middle part support piece's upper surface.

4. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 2, characterized in that: the second supporting piece is connected with the second supporting plate through a fixing piece; the fixing piece comprises a connecting piece and a bolt, the connecting piece is welded on the upper surface of the second supporting plate, and the bolt penetrates through the second supporting piece and then is connected with the connecting piece.

5. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 2, characterized in that: still include additional waterproof layer, additional waterproof layer includes vertical portion and horizontal part, vertical portion certainly first slope section below extension extremely first backup pad, and the vertical portion laminating is in on the wind-powered shelter wall body, the horizontal segment then the laminating is in the upper surface of first backup pad.

6. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 5, characterized in that: and sealing glue is used for sealing the two ends of the main waterproof layer, the two ends of the additional waterproof layer and the upper end of the first vertical section of the top plate.

7. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 1, characterized in that: the vertical section I, the inclined section I and the vertical section II of the pressing strip are respectively attached to one side, far away from the wall body of the wind pavilion, of the vertical section A, the inclined section A and the vertical section B of the main waterproof layer; and the self-tapping screw sequentially penetrates through the vertical section II, the vertical section B and the first vertical section and then is connected with the wall body of the wind pavilion.

8. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 7, characterized in that: the surface of the wall body of the wind pavilion is provided with a cement mortar layer, and the cement mortar layer comprises a first vertical layer, a first inclined layer and a second vertical layer which are sequentially arranged from top to bottom; the second vertical layer is attached to one side, away from the wall body of the wind pavilion, of the vertical section I, an inclined plane is arranged at the bottom end of the second vertical layer, and the inclined plane is attached to one side, away from the wall body of the wind pavilion, of the inclined section I.

9. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 1, characterized in that: the steel frame is fixed on the wall body of the wind pavilion through angle steel, and a horizontal long hole is formed in the angle steel so as to adjust the distance between the angle steel and the wall body of the wind pavilion; the angle steel is fixed on the wall body of the wind pavilion through expansion screws.

10. The waterproof structure of an interface is established with high pavilion to subway station access & exit according to claim 1, characterized in that: the dry hanging piece is fixed on the steel frame through an angle steel, and a vertical long groove is formed in the angle steel so as to adjust the vertical position of the dry hanging piece; the angle steel is fixed on the steel frame through bolts.

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