CN205206159U - Glass roofing structure of dripping - Google Patents

Abstract

The utility model provides a glass roofing structure of dripping belongs to building technical field. It has been solved current glass roofing and has dripped and seriously influence the problem of the life of bottom resident family. This glass roofing includes metal crate and fixes the glass on metal crate, and this glass roofing structure of dripping is including fixing the drip on metal crate, and glass's eaves position is in the groove of drip, the upper portion of drip has the eaves of preventing wind of the eaves portion top that is located glass. Set up the drip in a plurality of edges of glass roofing according to actual conditions, and then can reduce glass roofing ponding and drip downwards, avoid glass roofing ponding to drip completely downwards even. This glass roofing structure of dripping still has and prevent wind the advantage that the effect is high of splashing.

Description

Glass roofing dripping structure

Technical field

The utility model belongs to building technical field, relates to a kind of glass roofing, particularly glass roofing dripping structure.

Background technology

Glass roofing is widely used in during glass sunlight house and doorway dash cornice.The water droplet dripped from glass roofing is obviously greater than raindrop, and glass roofing is general higher apart from ground, and the glass sunlight house especially in building top layer balcony, water droplet drips and produces larger noise on the ground, and causes water-drop sputtering, has a strong impact on the life of bottom resident family.

Summary of the invention

The utility model proposes a kind of glass roofing dripping structure, the technical problems to be solved in the utility model how to reduce glass roofing ponding to drip downwards, avoids glass roofing ponding to drip even completely downwards.

The technical problem that will solve of the present utility model realizes by following technical proposal: glass roofing comprises metal framework and is fixed on the glass on metal framework, this glass roofing dripping structure comprises the drip be fixed on metal framework, and the eaves portion of glass is positioned at the groove of drip; The top of drip has the windproof eaves above the eaves portion being positioned at glass.

Ponding on glass roofing trickles downwards and enters in the groove of drip, then ponding can be made downwards to be arranged by leader by groove drainage; Thus ponding is effectively avoided directly to drip.Windproof eaves can prevent high wind from blowing the globule of whereabouts, makes its groove that flies out, and the globule caused to fall and break is along the inside seepage of glass.Windproof eaves can also reduce possibility in groove that foreign material fall into drip.

Compared with prior art, according to actual conditions, drip is set in some edges of glass roofing, and then glass roofing ponding can be reduced drips downwards, avoid glass roofing ponding to drip even completely downwards.This glass roofing dripping structure also has the high advantage of wind-proof splashing effects.

Drip adopts chromium nickel manganese austenitic stainless steel to make, moderate, application life is corresponding with Building life cycle, by changing chromium nickel manganese austenitic stainless steel tube-surface color with metal adherence oxidant layer with the use of realizing spraying paint, ensures that metal framework is corresponding with building color.

Accompanying drawing explanation

Fig. 1 is the perspective view of this glass sunlight house.

Fig. 2 is the metal framework structure schematic diagram of this glass sunlight house.

Fig. 3 is syndeton schematic diagram between glass and body of wall in this glass sunlight house.

Fig. 4 is the structural representation of drip in this glass sunlight house.

Fig. 5 is syndeton schematic diagram between glass and body of wall in embodiment two.

In figure, 1, body of wall; 2, metal framework; 3, glass; 4, fixing metal sheet; 5, expansion bolt; 6, hole is dodged; 7, two-sided sponge adhesive tape; 8, the first fluid sealant; 9, the second fluid sealant; 10, stainless steel band; 11, nail; 12, drip; 12a, groove; 12b, windproof eaves; 12c, edge; 13, protective screening; 14, the 3rd fluid sealant; 15, the 4th fluid sealant; 16, column.

Detailed description of the invention

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

Embodiment one

As depicted in figs. 1 and 2, building is rectangle balcony, and two sides of balcony are body of wall 1, and two sides are in addition barrier wall.

In the glass sunlight house of building balcony, effect and the advantage of this glass roofing dripping structure should be described by setting forth this glass roofing dripping structure: this glass roofing comprises metal framework 2 and glass 3.Metal framework 2 is also rectangular, and wherein both sides are fixedly connected with body of wall 1, and bight adopts column 16 to support, and namely the lower end of column 16 and barrier wall are connected, and the upper end of column 16 is fixedly connected with metal framework 2.

Metal framework 2 adopts chromium nickel manganese austenitic stainless steel pipe to be welded, and column 16 also adopts chromium nickel manganese austenitic stainless steel pipe to make, and also adopts to weld to be connected between column 16 with metal framework 2.

Metal framework 2 and body of wall 1 are fixedly connected as between metal framework 2 and body of wall 1 and are provided with multiple fixing metal sheets 4, and fixing metal sheet 4 also adopts chromium nickel manganese austenitic stainless steel to make.Be fixedly connected with by expansion bolt 5 between fixing metal sheet 4 with body of wall 1; The chromium nickel manganese austenitic stainless steel pipe of metal framework 2 has and corresponding with expansion bolt 5 position dodges hole 6, the head of expansion bolt 5 penetrates dodges in hole 6, and chromium nickel manganese austenitic stainless steel pipe and fixing metal sheet 4 phase of metal framework 2 rely on and by being welded and fixed between chromium nickel manganese austenitic stainless steel pipe and fixing metal sheet 4.

The rectangular in cross-section of chromium nickel manganese austenitic stainless steel pipe, selects suitable chromium nickel manganese austenitic stainless steel pipe according to actual glass roofing area.The sectional dimension that manual provides column 16 is 240 ㎜ × 240 ㎜, and metal framework 2 adopts the sectional dimension of chromium nickel manganese austenitic stainless steel pipe to be 160 ㎜ × 80 ㎜.

The visual lateral surface of chromium nickel manganese austenitic stainless steel pipe is attached with metal adherence oxidant layer, metal primer layers and top coat layer successively.The not visible lateral surface of metal framework 2 is the end face of metal framework 2 and the side relative with body of wall 1; The not visible lateral surface of removing metal framework 2 is the visual lateral surface of metal framework 2.The visible surface of column 16 is four lateral surfaces.

Structure and effect is further illustrated: select fair weather sand paper wiping soldered and with the visual lateral surface of white spirit wiping metal framework 2 and the visible surface of column 16, by clean for the surface cleaning of chromium nickel manganese austenitic stainless steel pipe by the working procedure of setting forth metal adherence oxidant layer, metal primer layers and top coat layer;

Spray gun is adopted to be sprayed on by metal adhesive agent on the visual lateral surface of metal framework 2 and the visible surface of column 16 again; Metal adhesive agent solidify and just form metal adherence oxidant layer, and the thickness of metal adherence oxidant layer is 3 ~ 10 microns.

Finally, spray metal priming paint successively after metal adhesive agent solidify, forms the finish paint of metal primer layers and spraying required color, forming surface enamelled coating.

Glass 3 is laid on metal framework 2, adopts two-sided sponge adhesive tape 7 to paste between glass 3 and metal framework 2.Leave glue-line between adjacent glass 3, in glue-line, make the first fluid sealant 8.The first fluid sealant 8 between adjacent glass 3 is bonding with glass 3, two-sided sponge adhesive tape 7 and metal framework 2.

As shown in Figure 3, the metope of body of wall 1 is bonded with stainless steel band 10 by the second fluid sealant 9, the width of stainless steel band 10 is 10 ~ 15 ㎝, the lower edge of stainless steel band 10 is bent and is fixedly connected with by welded seal with the end face of metal framework 2, and the rising wood nail of stainless steel band 10 has the nail 11 hammered in body of wall 1.Glass 3 and stainless steel band 10 also leave glue-line, make the first fluid sealant 8 in glue-line, and the first fluid sealant 8 between glass 3 and stainless steel band 10 is bonding with glass 3, two-sided sponge adhesive tape 7, metal framework 2 and stainless steel band 10.

Stainless steel band 10 has certain deformability, can effectively avoid causing because of building settlement producing between glass 3 and body of wall 1 ftractureing, and namely causes seal failure and produces seepage problem; Even if causing producing between stainless steel band 10 and body of wall 1 ftractures, only need complement fluid sealant, there is advantage easy to maintenance.Instant of complete cracking between stainless steel band 10 and the first fluid sealant 8 is effectively avoided after the lower edge bending of stainless steel band 10, ftracture even if produce between stainless steel band 10 and the first fluid sealant 8, still sealing can be produced between first fluid sealant 8 and metal framework 2, still can produce sealing between stainless steel band 10 and metal framework 2, and then effectively ensure sealing between stainless steel band 10 and glass 3.

The end face of metal framework 2 not spray metal adhesive agent, metal primer and finish paint makes two-sided sponge adhesive tape 7 and the first fluid sealant 8 directly be pasted onto on chromium nickel manganese austenitic stainless steel pipe, thus can improve degree of being connected firmly between glass 3 and metal framework 2 significantly.

As shown in Figure 1 and Figure 4, the other both sides of metal framework 2 are all fixed with drip 12.The cross section of drip 12 is rectangular, and the eaves portion of glass 3 is positioned at the groove 12a of drip 12.The top of drip 12 have be positioned at glass 3 eaves portion above windproof eaves 12b, this structure can reduce glass 3 significantly by the aerodynamic effects that upwards flows, and namely improves glass 3 fix tightly solidity, ensures that this glass roofing is applicable to being applied in typhoon easy happen zone territory.Windproof eaves 12b also can prevent high wind from blowing the globule of whereabouts, makes its groove that flies out, and the globule caused to fall and break is along glass 3 inwardly seepage.Windproof eaves 12b can also reduce possibility in groove 12a that foreign material fall into drip 12, in order to avoid foreign material to enter in the groove 12a of drip 12 further, at windproof eaves 12b place fixed protection net 13 after installing glass 3.

The edge 12c of drip 12 is a little more than the end face of metal framework 2, between drip 12 and two-sided sponge adhesive tape 7, the 3rd fluid sealant 14 is made before mounting glass 3, after installing glass 3, glass 3 just extrudes the 3rd fluid sealant 14, produce between 3rd fluid sealant 14 and glass 3 and bond, and then glass 3 can be improved firmness is installed, the globule can be prevented again along glass 3 inwardly seepage.

Drip 12 adopts chromium nickel manganese austenitic stainless steel to make, as preferably being made by otch by chromium nickel manganese austenitic stainless steel pipe.Obvious drip 12 also can be worked together with metal framework 2 and be carried out metal spraying and belong to adhesive agent, metal primer and finish paint and construct, namely the lateral surface of drip 12 is attached with metal adherence oxidant layer, metal primer layers and top coat layer, ensures that drip 12 color is identical with metal framework 2 color.

Drip 12 relies on mutually with the chromium nickel manganese austenitic stainless steel pipe of metal framework 2, is fixedly connected by welding between drip 12 and metal framework 2.

Embodiment two

The present embodiment with the structure of embodiment one and principle substantially identical, basic something in common no longer burden describes, different place is only described, different place is: as shown in Figure 5, the metope of body of wall 1 has cut seal groove, in the rising wood bending embedding sealing groove of stainless steel band 10, in seal groove, fill up the 4th fluid sealant 15.

Claims (9)

1. a glass roofing dripping structure, glass roofing comprises metal framework (2) and is fixed on the glass (3) on metal framework (2), it is characterized in that, this glass roofing dripping structure comprises the drip (12) be fixed on metal framework (2), and the eaves portion of glass (3) is positioned at the groove (12a) of drip (12); The top of drip (12) has the windproof eaves (12b) above the eaves portion being positioned at glass (3).

2. glass roofing dripping structure according to claim 1, it is characterized in that, described glass (3) is laid on metal framework (2), adopts two-sided sponge adhesive tape (7) to paste between glass (3) and metal framework (2); The edge (12c) of drip (12) is a little more than the end face of metal framework (2), make the 3rd fluid sealant (14) between described drip (12) and two-sided sponge adhesive tape (7), bond between the 3rd fluid sealant (14) and glass (3).

3. glass roofing dripping structure according to claim 1 and 2, is characterized in that, described drip (12) adopts chromium nickel manganese austenitic stainless steel to make.

4. glass roofing dripping structure according to claim 3, is characterized in that, the lateral surface of described drip (12) is attached with successively metal adherence oxidant layer, metal primer layers and top coat layer.

5. glass roofing dripping structure according to claim 4, is characterized in that, the thickness of described metal adherence oxidant layer is 3 ~ 10 microns.

6. glass roofing dripping structure according to claim 3, it is characterized in that, described metal framework (2) adopts chromium nickel manganese austenitic stainless steel pipe to be welded, drip (12) relies on mutually with the chromium nickel manganese austenitic stainless steel pipe of metal framework (2), is fixedly connected by welding between drip (12) and metal framework (2).

7. glass roofing dripping structure according to claim 6, is characterized in that, the visual lateral surface of chromium nickel manganese austenitic stainless steel pipe in described metal framework (2) is also attached with metal adherence oxidant layer, metal primer layers and top coat layer successively.

8. glass roofing dripping structure according to claim 6, is characterized in that, the thickness of described metal adherence oxidant layer is 3 ~ 10 microns.

9. glass roofing dripping structure according to claim 1 and 2, is characterized in that, described windproof eaves (12b) place is fixed with protective screening (13).