CN203347082U - Energy-saving day-lighting roof capable of draining water structurally - Google Patents

Abstract

The utility model discloses an energy-saving day-lighting roof capable of draining water structurally and relates to the technical field of architectural engineering. The energy-saving day-lighting roof comprises a stand column and a beam. The stand column comprises a flow drainage tank communicated with the outside. The flow drainage tank is formed in the side face of the stand column and provided with an opening. The beam comprises a guide tank and is connected to the side face of the stand column. An opening of the guide tank is in butt joint with the port of the flow drainage tank. According to the energy-saving day-lighting roof, the guide tank and the flow drainage tank are communicated and can drain rainwater permeating into the beam and accumulated condensation water out of a room in the assigned water drainage direction, so that construction of secondary water drainage is formed. Thus, the mode that material water prevention of a common energy-saving day-lighting roof depends on weather-proof rubber is eliminated, and the durability of the energy-saving day-lighting roof is improved.

Description

A kind of energy-saving lighting top of energy structure drainage

Technical field

The utility model relates to construction engineering technical field, particularly a kind of energy-saving lighting top of energy structure drainage.

Background technology

Energy-saving lighting top is the new development trend in industry, by the solar panel of being located at external surface, obtains green energy resource, and applies to the illumination of building itself and temperature control etc., by daylighting and energy-conservationly organically combine.The energy-saving lighting top can not only increase daylighting, forms bright usage space, effectively improves the building comfortableness, has also greatly saved the energy simultaneously.But the shortcoming that existing energy-saving lighting top has infiltration and leaks, weather proofing sealant between glass plate planar is out of shape under the long duration of action with thermal stresses, can tear, and the wind load of higher floor is larger, rainwater can infiltrate indoor from the weather proofing sealant breach, in addition due to temperature difference, on glassly also can produce condensed water.If not in time these indoor water are discharged, will affect energy-saving lighting top result of use, reduce application life.

Summary of the invention

The technical problems to be solved in the utility model be how to solve energy-saving lighting push up indoor infiltration and condensed water can't the outer problem of discharge chamber.

For solving the problems of the technologies described above, the utility model provides a kind of energy-saving lighting top of energy structure drainage, comprising: column and crossbeam, and described column comprises the diversion canal be in communication with the outside, described diversion canal is positioned at the side of described column, and is provided with opening; Described crossbeam comprises drainage trough, and described crossbeam is connected to the side of described column, and described drainage trough opening docks with the port of described diversion canal.

Wherein, described energy-saving lighting top also comprises the first adjacent glass plate and the second glass plate, the height of described the first glass plate is greater than or equal to the height of described the second glass plate, described crossbeam also comprises a groove post between described the first glass plate and the second glass plate, described groove post is connected by weather proofing sealant with described the first glass plate, and be provided with gap between described the second glass plate, described groove post comprises a notch seal cover, described notch seal cover covers the gap between described groove post and described the second glass plate, and be connected with described the second glass plate by weather proofing sealant.

Wherein, described groove post mid portion is heat insulation rubber.

Wherein, described energy-saving lighting top also comprises outer cover plate, and described outer cover plate seals residence by fluid sealant and states the gap between the first glass plate and the second glass plate, and described notch capping is provided with draw-in groove, described outer cover plate is connected on described draw-in groove, and is connected with described notch capping screw.

Wherein, between described glass plate and described crossbeam, be provided with rubber strip, described rubber strip is fixed on the groove of described crossbeam.

Wherein, described crossbeam also is provided with feeder, and described feeder is positioned on the sidewall of described crossbeam.

Wherein, described feeder has two, is symmetrically set on the sidewall of described crossbeam.

Wherein, described energy-saving lighting top also comprises the crossbeam connector, and described crossbeam is fixed on steel structure framework by described crossbeam connector.

Wherein, described energy-saving lighting top also comprises column connecting piece, and described column is fixed on steel structure framework by described column connecting piece.

Wherein, described crossbeam also comprises buckle and crossbeam buckle, and described buckle is positioned at the lower end of described crossbeam, and described crossbeam buckle is connected on described crossbeam by described buckle.

Energy-saving lighting of the present utility model top is provided with drainage trough and the rhone of connection, can be discharged to outdoor by infiltrating rainwater in crossbeam and the condensation ponding drainage direction by appointment, form the draining of structure secondary, break away from the way that the energy-saving lighting top only has the dependence weather-resistant glue to carry out material waterproofing, improved the durability on energy-saving lighting top.

The accompanying drawing explanation

Fig. 1 is the structural representation that energy-saving lighting of the present utility model pushes up a kind of embodiment.

Fig. 2 is the A-A cross-sectional view on energy-saving lighting top in Fig. 1.

Fig. 3 is the B-B cross-sectional view on energy-saving lighting top in Fig. 1.

Wherein: 1, column; 2, crossbeam; 3, the first glass plate; 4, the second glass plate; 5, feeder; 6, steel structure framework; 101, diversion canal; 102, column connecting piece; 201, drainage trough; 202, groove post; 203, notch seal cover; 204, weather proofing sealant; 205, outer cover plate; 206, fluid sealant; 207, draw-in groove; 208, rubber strip; 209, groove; 210, crossbeam connector; 211, buckle; 212, crossbeam buckle; 213, heat insulation rubber; 214, weather proofing sealant.

The specific embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present utility model is described in further detail.Following examples are used for the utility model is described, but are not used for limiting scope of the present utility model.

The shape on energy-saving lighting top has a variety of, and the utility model illustrates with the energy-saving lighting jacking row of shape as shown in Figure 1, and it comprises: column 1 and crossbeam 2.As shown in Fig. 2 to 3, column 1 comprises the diversion canal 101 be in communication with the outside, and diversion canal 101 is positioned at the side of column 1, and is provided with opening; Crossbeam 2 comprises drainage trough 201, and crossbeam 2 is connected to the side of column 1, and the opening of drainage trough 201 docks with the port of diversion canal 101.Once rain penetration occur to crossbeam 2, can be pooled in the diversion canal 101 of column 1 by drainage trough 201 like this, finally be discharged into outdoor.

The external surface on energy-saving lighting top is provided with a large amount of glass plates, they often are provided with certain gradient, such as the first adjacent glass plate 3 and the second glass plate 4, the height of the first glass plate 3 is greater than or equal to the height of the second glass plate 4, crossbeam 2 also comprises a groove post 202 between the first glass plate 3 and the second glass plate 4, groove post 202 is connected by weather proofing sealant 214 with the first glass plate 3, and be provided with gap between the second glass plate 4, groove post 202 comprises a notch seal cover 203, notch seal cover 203 covers the gap between groove post 202 and the second glass plate 4, and be connected with the second glass plate 4 by weather proofing sealant 204.Like this, after rainwater is fallen on glass plate, under Action of Gravity Field, flow through notch seal cover 203 outsides, and can not infiltrate crossbeam 2 inside.Notch seal cover 203 has played the effect of batch water, and has reduced the infiltration capacity of rainwater.

For isolated outside temperature, groove post 202 mid portions are heat insulation rubber 213.

In order to make the first glass plate 3 and the second glass plate 4 junctions more attractive in appearance, groove post 202 outsides are provided with outer cover plate 205, outer cover plate 205 closes the gap between the first glass plate 3 and the second glass plate 4 by fluid sealant 206, notch capping 203 is provided with draw-in groove 207, outer cover plate 205 is connected on draw-in groove 207, and is connected with notch capping 203 screws.

Be provided with rubber strip 208 between the first glass plate 3 and the second glass plate 4 and crossbeam 2, rubber strip 208 is fixed on the groove 209 of crossbeam 2, and to play, sealing is connected, the effect of antidetonation.

Crossbeam also is provided with two feeders 5, is symmetrically set on the sidewall of crossbeam 2, and its outlet is communicated with the diversion canal 101 of column 1, outside the condensed water discharge chamber by crossbeam 2, prevents that the energy-saving lighting top from leaking.

At first general lighting roof is located at column support on steel structure framework, and then crossbeam is connected with column, and efficiency of construction is lower like this.This lighting roof also comprises crossbeam connector 210 and column connecting piece 102, and crossbeam logical 2 is crossed crossbeam connectors 210 and is fixed on steel structure framework 6 side, and column 1 is fixed on the side of steel structure framework 6 by column connecting piece 102.Because column 1 is connected with steel structure framework 6 respectively independently with crossbeam 2, there is no the erection sequence requirement, so construction is more for convenience, simultaneously owing to being, in steel structure framework 6 sides, column 1 and crossbeams 2 are installed, therefore follow-up at the indoor mounting glass plate that gets final product.

In order to make crossbeam 2 more beautiful and clean, it also comprises buckle 211 and crossbeam buckle 212, and buckle 211 is positioned at the lower end of crossbeam 2, and crossbeam buckle 212 is connected on crossbeam 2 by buckle 211.

Above embodiment is only for illustrating the utility model; and be not limitation of the utility model; the those of ordinary skill in relevant technologies field; in the situation that do not break away from spirit and scope of the present utility model; can also make a variety of changes and modification; therefore all technical schemes that are equal to also belong to category of the present utility model, and scope of patent protection of the present utility model should be defined by the claims.

Claims (10)

1. the energy-saving lighting of energy structure drainage top, is characterized in that, comprising: column and crossbeam, and described column comprises the diversion canal be in communication with the outside, described diversion canal is positioned at the side of described column, and is provided with opening; Described crossbeam comprises drainage trough, and described crossbeam is connected to the side of described column, and described drainage trough opening docks with the port of described diversion canal.

2. the energy-saving lighting of energy structure drainage as claimed in claim 1 pushes up, it is characterized in that, also comprise the first adjacent glass plate and the second glass plate, the height of described the first glass plate is greater than or equal to the height of described the second glass plate, described crossbeam also comprises a groove post between described the first glass plate and the second glass plate, described groove post is connected by weather proofing sealant with described the first glass plate, and be provided with gap between described the second glass plate, described groove post comprises a notch seal cover, described notch seal cover covers the gap between described groove post and described the second glass plate, and be connected with described the second glass plate by weather proofing sealant.

3. the energy-saving lighting top of energy structure drainage as claimed in claim 2, is characterized in that, described groove post mid portion is heat insulation rubber.

4. the energy-saving lighting of energy structure drainage as claimed in claim 2 pushes up, it is characterized in that, also comprise outer cover plate, described outer cover plate seals residence by fluid sealant and states the gap between the first glass plate and the second glass plate, described notch capping is provided with draw-in groove, described outer cover plate is connected on described draw-in groove, and is connected with described notch capping screw.

5. the energy-saving lighting top of energy structure drainage as claimed in claim 2, is characterized in that, be provided with rubber strip between described glass plate and described crossbeam, described rubber strip is fixed on the groove of described crossbeam.

6. the energy-saving lighting top of energy structure drainage as claimed in claim 1, is characterized in that, described crossbeam also is provided with feeder, and described feeder is positioned on the sidewall of described crossbeam.

7. the energy-saving lighting top of energy structure drainage as claimed in claim 6, is characterized in that, described feeder has two, is symmetrically set on the sidewall of described crossbeam.

8. the energy-saving lighting top of energy structure drainage as claimed in claim 1, is characterized in that, also comprise the crossbeam connector, described crossbeam is fixed on steel structure framework by described crossbeam connector.

9. the energy-saving lighting top of energy structure drainage as claimed in claim 1, characterized by further comprising column connecting piece, and described column is fixed on steel structure framework by described column connecting piece.

10. the energy-saving lighting top of energy structure drainage as claimed in claim 1, is characterized in that, described crossbeam also comprises buckle and crossbeam buckle, and described buckle is positioned at the lower end of described crossbeam, and described crossbeam buckle is connected on described crossbeam by described buckle.

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