CN218621759U - Glass trestle with drainage function - Google Patents

Abstract

The utility model provides a glass landing stage with drainage function, include: a support frame; the keel frame is arranged on the support frame; the toughened glass is arranged on the keel frame; and the drainage structure is arranged on the support frame and connected with the keel frame and the outer edge of the toughened glass, and the drainage structure is used for draining accumulated water on the surface of the toughened glass. The utility model discloses in be provided with drainage structures at the outer border of glass landing stage, discharge the ponding on the glass landing stage from its outer border direction through drainage structures like this. Compared with the drainage structure in the prior art, the drainage structure does not need to be additionally provided with a drainage pipe and a rainwater well, and the design of the drainage structure is simplified. Thereby saving the manufacturing cost of the glass trestle.

Description

Glass trestle with drainage function

Technical Field

The utility model relates to a construction technical field especially relates to a glass landing stage with drainage function.

Background

Along with the increasing importance of our country to the lean construction development of building engineering, when outdoor glass trestle is under construction, can take certain measures in order to prevent outdoor rainwater from passing through the square steel pipe and indoor infiltration of basic unit gap, avoid influencing indoor normal use.

At present, when the domestic outdoor glass trestle bridge is constructed in a water-blocking way, a general drainage structure in the prior art comprises a plurality of flow guide strips, a plurality of drainage pipes and a catch basin (refer to Chinese patent No. CN 215668947U). And draining the rainwater into a rainwater well through a plurality of drain pipes. Therefore, the drainage structure has more internal components and complex design. The manufacturing cost of the glass trestle is high, and cost control is not facilitated.

In other words, the glass trestle in the prior art has the problem of higher construction cost.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned technical problem and provide a glass landing stage with drainage function. The problem of glass landing stage construction cost is higher is solved.

The utility model provides a glass landing stage with drainage function: the method comprises the following steps: a support frame; the keel frame is arranged on the support frame; the toughened glass is arranged on the keel frame; and the drainage structure is arranged on the support frame and connected with the keel frame and the outer edge of the toughened glass, and the drainage structure is used for draining accumulated water on the surface of the toughened glass.

In one embodiment, a drainage structure includes: the cement mortar layer is arranged on the support frame and is connected with the outer edge of the keel frame; the first plate body is integrally laid on the cement mortar layer; one end of the second plate body is lapped on the cement mortar layer, and the first plate body is positioned between the toughened glass and the second plate body; wherein, be provided with the escape canal between second plate body and the braced frame, the upper surface of first plate body has the slope contained angle with the upper surface of fossil fragments frame, is provided with the wash port on the second plate body, and ponding can flow into in the escape canal along the upper surface of first plate body and wash port in proper order. In this embodiment, first plate body is as the guide plate, can arrange outward the leading-in escape canal of ponding on the glass landing stage. Therefore, a plurality of drain pipes do not need to be additionally arranged, and the design of a drain structure is simplified. Thereby saving the manufacturing cost of the glass trestle. Simultaneously, compare with prior art, this application has shortened the flow distance when ponding is arranged outward to improve the drainage efficiency of glass landing stage, and then avoided the problem of the unable timely drainage of glass landing stage under the torrential rain environment.

In one embodiment, the first plate body is a straight plate, the upper surface of the cement mortar layer is an inclined surface, and the first plate body is integrally laid on the inclined surface to define an inclined included angle. In this embodiment, the cement mortar layer can enough support first plate body, and the upper surface that can adjust first plate body through the slope of adjustment cement mortar layer inclined plane simultaneously has the slope contained angle with the upper surface of fossil fragments frame. Thereby ensure that the accumulated water on the toughened glass can flow into the drainage ditch in time and be discharged outside.

In one embodiment, the support frame is provided with a floor drain which is communicated with the drainage ditch and used for draining accumulated water in the floor drain.

In one embodiment, a waterproof roll is laid in the drainage ditch to prevent accumulated water in the drainage ditch from flowing out of a gap between the support frame and the cement mortar layer.

In one embodiment, a gap is formed between the first plate body and the tempered glass, and the gap is provided with a sealant for plugging.

In one embodiment, the support frame includes frame beams and cross beams connected to the frame beams.

In one embodiment, a keel frame comprises: a first main keel; the second main keel and the first main keel are arranged at intervals in the first direction; and a plurality of secondary keels arranged between the first main keel and the second main keel at intervals along the second direction.

In one embodiment, the first main keel and the second main keel are arc-shaped beams, and two secondary keels positioned at the outermost side form a fan-shaped frame together with the first main keel and the second main keel.

In one embodiment, the keel frame further comprises aluminum strips disposed on the first and second main keels for supporting the tempered glass.

Compared with the prior art, the invention has the beneficial effects that: the outer edge of the glass trestle is provided with a drainage structure, so that accumulated water on the glass trestle is drained from the outer edge of the glass trestle through the drainage structure. Compared with the drainage structure in the prior art, the drainage structure does not need to be additionally provided with a drainage pipe and a rainwater well, and the design of the drainage structure is simplified. Thereby saving the manufacturing cost of the glass trestle.

Drawings

Fig. 1 is a plan view of the glass trestle of the utility model.

FIG. 2 isbase:Sub>A cross-sectional view of the glass trestle A-A of FIG. 1.

In the figure: 10. a support frame; 11. a frame beam; 12. a cross beam; 20. a keel frame; 21. a first main keel; 22. a second main keel; 23. a secondary keel; 24. aluminum strips; 30. tempering the glass; 40. a drainage structure; 41. a cement mortar layer; 42. a first plate body; 43. a second plate body; 50. a drainage ditch; 51. Waterproof coiled materials; 60. a floor drain; 70. sealing glue; 80. the galvanized steel sheet buries the piece.

Detailed Description

The invention is described in further detail below with reference to the figures and the specific embodiments.

It should be noted that, the glass trestle in this application is outdoor glass trestle, and its lower part is provided with indoor work room.

As shown in fig. 1 and 2, the invention provides a glass trestle with a drainage function, which comprises a support frame 10, a keel frame 20, tempered glass 30 and a drainage structure 40. The keel frame 20 is disposed on the support frame 10, and the tempered glass 30 is disposed on the keel frame 20. The drainage structures 40 are arranged on the support frame 10 and connected with the keel frame 20 and the outer edges of the toughened glass 30, and the drainage structures 40 are used for draining accumulated water on the surface of the toughened glass 30.

In the arrangement, the drainage structure 40 is arranged at the outer edge of the glass trestle, so that accumulated water on the glass trestle is drained from the outer edge direction of the glass trestle through the drainage structure 40. Compared with the drainage structure in the prior art, the drainage structure does not need to be additionally provided with a drainage pipe and a rainwater well, and the design of the drainage structure is simplified. Thereby saving the manufacturing cost of the glass trestle.

Specifically, as shown in fig. 1 and 2, in one embodiment, drainage structure 40 includes a cement mortar layer 41, a first plate body 42, and a second plate body 43. Wherein, the cement mortar layer 41 is arranged on the support frame 10 and connected with the outer edge of the keel frame 20; the first plate body 42 is integrally laid on the cement mortar layer 41; one end of the second plate body 43 is overlapped on the cement mortar layer 41, and the first plate body 42 is positioned between the tempered glass 30 and the second plate body 43. A drainage ditch 50 is arranged between the second plate body 43 and the support frame 10, the upper surface of the first plate body 42 and the upper surface of the keel frame 20 form an inclined included angle, a drainage hole is arranged on the second plate body 43, and accumulated water can flow into the drainage ditch 50 along the upper surface of the first plate body 42 and the drainage hole in sequence.

In the above arrangement, the first plate 42 serves as a guide plate for guiding the accumulated water on the glass trestle to the drainage ditch 50 for drainage. Therefore, a plurality of drain pipes do not need to be additionally arranged, and the design of a drain structure is simplified. Thereby saving the manufacturing cost of the glass trestle. Simultaneously, compare with prior art, this application has shortened the outer flow distance who arranges the time of ponding to improve the drainage efficiency of glass landing stage, and then avoided the problem of the unable timely drainage of glass landing stage under the rainstorm environment.

Specifically, as shown in fig. 1 and 2, in one embodiment, the first plate body 42 is a straight plate, the upper surface of the cement mortar layer 41 is an inclined surface, and the first plate body 42 is integrally laid on the inclined surface to define an inclined included angle. The cement mortar layer 41 is arranged in this way, the first plate body 42 can be supported, and meanwhile, the inclined included angle between the upper surface of the first plate body 42 and the upper surface of the keel frame 20 can be adjusted by adjusting the slope of the inclined plane on the cement mortar layer 41. Thereby ensuring that the accumulated water on the toughened glass 30 can flow into the drainage ditch 50 to be discharged outside in time.

Of course, in an alternative embodiment not shown in the drawings of the present application, the first plate 42 may be directly inclined, and the cement mortar layer 41 may be arranged in a planar structure.

Specifically, as shown in fig. 1 and 2, in one embodiment, a floor drain 60 is disposed on the support frame 10, and the floor drain 60 is communicated with the drainage ditch 50 for draining the accumulated water therein.

Specifically, as shown in fig. 1 and 2, in one embodiment, a waterproof roll 51 is laid in the drainage ditch 50 for preventing water accumulated therein from flowing out from a gap between the support frame 10 and the cement mortar layer 41.

Specifically, as shown in fig. 1, in one embodiment, a gap is formed between the first plate 42 and the tempered glass 30, and the gap is sealed by a sealant 70.

Specifically, as shown in fig. 1, in one embodiment, the support frame 10 includes frame beams 11 and cross beams 12 connected to the frame beams 11. This arrangement can reinforce the structural strength of the support frame 10, thereby ensuring that the support frame 10 can stably support the keel frame 20 and the tempered glass 30.

Specifically, as shown in fig. 1, in one embodiment, the keel frame 20 includes first and second main runners 21, 22 and a plurality of cross runners 23. The second main keel 22 and the first main keel 21 are arranged at intervals in the first direction; a plurality of cross runners 23 are spaced apart in the second direction between the first main runner 21 and the second main runner 22. This arrangement can reinforce the structural strength of the keel frame 20, thereby ensuring that the keel frame 20 can stably support the tempered glass 30.

Specifically, as shown in fig. 1, in one embodiment, the first main joist 21 and the second main joist 22 are arc beams, and two secondary joists 23 located at the outermost side and the first main joist 21 and the second main joist 22 form a fan-shaped frame.

Specifically, as shown in fig. 1, in one embodiment, both ends of the cross runners 23 are connected to the first and second main runners 21 and 22 by galvanized steel plate inserts 80.

Specifically, as shown in fig. 1, in one embodiment, the keel frame 20 further includes aluminum bars 24, and the aluminum bars 24 are disposed on the first and second main keels 21 and 22 to support the tempered glass 30.

A complete embodiment of the present application is described below in conjunction with fig. 1 and 2:

the utility model provides an outer ditch channel type glass trestle for rainwater drainage, which is used for the construction of outdoor glass trestles and comprises a square steel pipe main keel (a first main keel 21 and a second main keel 22), the bottom surface of the square steel pipe main keel is welded with a galvanized steel plate embedded part 80, the side surface of the square steel pipe main keel is welded with a square steel pipe secondary keel (a secondary keel 23), and the top surface of the square steel pipe main keel is in nail joint with an aluminum strip 24 to jointly form a support structure of toughened doubling glass (toughened glass 30); the waterproof coiled material 51 is paved along the drainage ditch 50 and the side wall of the main keel of the square steel tube, and the aluminum strip 24 is closed by adopting a sealant; and a cement mortar layer 41 which is formed by laying cement mortar on the waterproof roll 51 for protection and laying an inclined landscape stone (a first plate 42) on the surface layer; a floor drain 60 is arranged at the bottom of the drainage ditch 50, and a perforated landscape stone (a second plate body 43) is arranged at the top of the drainage ditch;

specifically, galvanized steel sheet buries piece 80 and buries in advance to the structure in, and its surface course and square steel pipe main joist welding.

Specifically, the square steel tube main keel and the square steel tube secondary keel are welded and are in nail joint with the aluminum strip 24.

Specifically, the tempered laminated glass is laid on the aluminum strips 24, the joint of the aluminum strips and the tempered laminated glass is edge-sealed by a waterproof roll, and then the joint is filled with the sealant 70.

Specifically, waterproofing membrane 51 is the U font and spreads the subsides at the escape canal and with square steel pipe main joist, the 24 lateral walls of aluminium strip after basic unit's clearance is leveled, clean, prevents that the rainwater from along the gap infiltration indoor.

Specifically, cement mortar is paved on the surface layer of the waterproof coiled material, the side surface is tightly plugged by the sealant, and the surface layer is paved with landscape stone.

Specifically, the landscape stone is obliquely paved on a cement mortar surface layer, and the side surface and the toughened laminated glass are tightly plugged by sealant.

Specifically, a floor drain 60 is reserved at the bottom of the drainage ditch, and perforated landscape stones are paved at the top of the drainage ditch, so that outdoor rainwater is gathered into the drainage ditch 50 through the perforated landscape stone holes and is discharged outside along the floor drain 60.

Compared with the prior art, the utility model discloses drainage simple structure, construction period are short, quality safe and reliable, cost are low, and do not have indoor risk of rainwater infiltration under the outdoor heavy rainstorm environment.

As can be seen from the effects described in the above embodiments: the first plate body is as the guide plate, can arrange outward the leading-in escape canal of ponding on the glass landing stage. Therefore, a plurality of drain pipes are not required to be additionally arranged, and the design of a drain structure is simplified. Thereby saving the manufacturing cost of the glass trestle. Simultaneously, compare with prior art, this application has shortened the flow distance when ponding is arranged outward to improve the drainage efficiency of glass landing stage, and then avoided the problem of the unable timely drainage of glass landing stage under the torrential rain environment.

Above only the utility model discloses a preferred embodiment, the utility model discloses a scope not only limits in above-mentioned embodiment, and the fan belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope. It should be noted that modifications and embellishments within the scope of the present disclosure may be made by those skilled in the art without departing from the principles of the present disclosure.

Claims (10)

1. The utility model provides a glass landing stage with drainage function which characterized in that includes:

a support frame; and

the keel frame is arranged on the supporting frame; and

the toughened glass is arranged on the keel frame; and

and the drainage structure is arranged on the support frame and connected with the keel frame and the outer edge of the toughened glass, and the drainage structure is used for draining accumulated water on the surface of the toughened glass.

2. The glass trestle with water drainage function of claim 1, wherein the water drainage structure comprises:

the cement mortar layer is arranged on the support frame and is connected with the outer edge of the keel frame; and

the first plate body is integrally laid on the cement mortar layer; and

one end of the second plate body is lapped on the cement mortar layer, and the first plate body is positioned between the toughened glass and the second plate body;

the second plate body with be provided with the escape canal between the braced frame, the upper surface of first plate body with the upper surface of fossil fragments frame has the slope contained angle, be provided with the wash port on the second plate body, ponding can follow in proper order the upper surface of first plate body and the wash port flows in the escape canal.

3. The glass trestle with the water drainage function of claim 2, wherein the first plate body is a straight plate, the upper surface of the cement mortar layer is an inclined surface, and the first plate body is integrally laid on the inclined surface to define the inclined included angle.

4. The glass trestle with the function of draining water according to claim 2, characterized in that a floor drain is arranged on the supporting frame, and the floor drain is communicated with the drainage ditch and used for draining the accumulated water in the drainage ditch.

5. The glass trestle with the water drainage function according to claim 2, wherein a waterproof coiled material is laid in the drainage ditch for preventing accumulated water in the drainage ditch from flowing out from a gap between the support frame and the cement mortar layer.

6. The glass trestle with the water drainage function according to claim 2, wherein a gap is formed between the first plate body and the toughened glass, and a sealant is arranged in the gap for plugging.

7. The glass trestle with water drainage function of claim 1, wherein the support frame comprises frame beams and cross beams connected with the frame beams.

8. The glass trestle with drainage function of claim 1, wherein said keel frame comprises:

a first main keel; and

the second main keel and the first main keel are arranged at intervals in a first direction; and

and the secondary keels are arranged between the first main keel and the second main keel at intervals along the second direction.

9. The glass trestle with the water drainage function of claim 8, wherein the first main keel and the second main keel are arc-shaped beams, and two secondary keels positioned at the outermost side and the first main keel and the second main keel form a fan-shaped frame.

10. The glass trestle with the water drainage function of claim 8, wherein the keel frame further comprises aluminum strips, and the aluminum strips are arranged on the first main keel and the second main keel and used for supporting the toughened glass.

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