CN219621987U - Built-in drainage structure of sunshine room back timber - Google Patents

Abstract

The utility model relates to the technical field of sunlight houses, in particular to a built-in drainage structure of a roof beam of a sunlight house. The built-in drainage structure of the sunlight room top beam comprises a top beam body which is supported in an arc shape, wherein the top beam body is formed by assembling a first section bar piece and a second section bar piece which is clamped with the upper part of one side of the first section bar piece, a first water guide groove is formed in the top of the other side of the first section bar piece, the first section bar piece below the first water guide groove is hollow, a supporting plate frame is arranged on the outer side of the first section bar piece below the second section bar piece, a space between the supporting plate frame and the second section bar piece is used for installing a first sunlight room glass plate, a second water guide groove is formed between the first section bar piece and the second section bar piece after the first sunlight room glass plate is installed, an upward concave through groove is formed in the bottom end of the supporting plate frame, and a triangular sealing adhesive tape is clamped in the bottom of the through groove. The built-in drainage structure of the roof beam of the sunlight house plays an effective supporting role, and meanwhile, water can be conveniently guided and drained, so that water leakage or water accumulation at the roof beam position of the sunlight house is avoided.

Description

Built-in drainage structure of sunshine room back timber

Technical Field

The utility model relates to the technical field of sunlight houses, in particular to a built-in drainage structure of a roof beam of a sunlight house.

Background

The sunlight room is also called a glass room, and is a totally-open non-traditional building built by adopting glass and a metal frame. Compared with a common building, the existing sunlight house structure can be built into more shapes according to the needs, and the practicability of the sunlight house is guaranteed, and meanwhile the sunlight house structure has attractive appearance and good experience.

At present, the top support of the sunlight house with the fully-exposed cambered surface structure is supported by a metal frame matched with the shape, and the sunlight house only has good supporting effect and limited waterproof and water guiding effect, so that the problem that the roof beam position of the sunlight house is sealed and water is not leaked or water can not be guided to cause ponding in the beam frame is caused, the cleaning and repair are troublesome, and the service cycle of a building is shortened.

Disclosure of Invention

The utility model provides a built-in drainage structure of a roof beam of a sunlight house, which can conveniently guide and drain water while playing an effective supporting role, avoid water leakage or water accumulation at the roof beam position of the sunlight house, and solve the problems in the prior art.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

the utility model provides a built-in drainage structures of sunshine room back timber, includes the back timber body that arc supported, the back timber body is assembled by first section bar spare and the second section bar spare that blocks mutually with first section bar spare one side upper portion, sets up first guiding gutter at first section bar spare opposite side top, the inside cavity of first section bar spare of first guiding gutter below, sets up the backup pad frame in the first section bar outside of second section bar spare below, and the space between backup pad frame and the second section bar spare is used for installing first sunshine room glass board, forms the second guiding gutter between first section bar spare and the second section bar spare after the installation of first sunshine room glass board, sets up upwards recessed logical groove in backup pad frame bottom, the triangle joint strip in logical groove.

Further, a reinforcing support member is arranged inside the first section bar member; the reinforcing support piece is a hollow support tube.

Further, the outer side of the top end of the supporting plate frame is bent upwards by 90 degrees to form a baffle, a groove body for accommodating the lower sealing rubber strip is arranged at the top end of the baffle, the first sunlight room glass plate is arranged above the lower sealing rubber strip, and the upper sealing rubber strip is clamped and fixed between the first sunlight room glass plate and the second section bar.

Further, a concave wall groove is formed in the outer side wall of the first profile piece close to one side of the first water guide groove.

Further, the top beam body comprises a double layer or a plurality of layers which are arranged up and down, and the upper top beam body and the lower top beam body which are adjacent to each other are horizontally matched in a sliding way; the top beam body arranged on the upper layer is horizontally and mirror-symmetrical with the top beam body arranged on the lower layer.

Further, the built-in drainage structure of the sunlight room top beam further comprises auxiliary secondary beams, the auxiliary secondary beams are arranged at intervals with the top beam body, and the auxiliary secondary beams are arranged in an arc-shaped supporting mode consistent with the top beam body.

Further, the auxiliary secondary beam comprises a third section bar piece, the third section bar piece comprises a hollow inner frame, and a top arc plate is supported at the top end of the hollow inner frame through a middle supporting plate; and a second sunlight room glass plate is arranged in the space between the top arc plate and the hollow inner frame, and the height of the second sunlight room glass plate is higher than that of the first sunlight room glass plate.

Further, clamping grooves are formed in two sides of the top end of the hollow inner frame, lower sealing rubber strips are clamped in the clamping grooves, the second sunlight room glass plate is arranged above the lower sealing rubber strips, and upper sealing rubber strips are clamped and fixed between the second sunlight room glass plate and the end parts of the top arc plates.

The utility model has the beneficial effects that:

the built-in drainage structure of the roof beam of the sunlight house is scientific and reasonable in design, can conveniently realize the conduction and drainage of rainwater, and avoids water leakage or water accumulation at the roof beam position of the roof beam of the sunlight house. The first water guide groove is arranged on one side of the first section bar piece of the top beam body, so that the first water guide groove can smoothly realize the downward drainage of rainwater falling into the top beam body along the cambered surface shape of the top beam body; a second water guide groove is formed after the first sunlight room glass plate is installed through the space between the second section bar piece and the supporting frame, and another water guide groove can be formed for water drainage after rainwater enters the space through the installation position of the glass plate; through the high setting of the second sunshine room glass board of supplementary secondary beam position installation is higher than the first sunshine room glass board height of back timber outside installation, and the rainwater can make the rainwater conveniently get into above-mentioned second guiding gutter in the horizontal direction and discharge when following sunshine room roof whereabouts, when guaranteeing that sunshine room is whole firm pleasing to the eye, promotes waterproof drainage effect, and the practicality is showing.

Drawings

FIG. 1 is a schematic view of the structure of the top beam of the present utility model in a set-up state;

FIG. 2 is a schematic view of the cross-sectional structure of A-A of FIG. 1;

FIG. 3 is a schematic diagram of another embodiment of the present utility model;

fig. 4 is a schematic view of a double-deck built-in drainage structure of a header according to the present utility model.

The solar energy collection device comprises a 1 top beam body, a 2 first section bar piece, a 3 second section bar piece, a 4 first water guide groove, a 5 support tube, a 6 support plate frame, a 7 first solar house glass plate, an 8 second water guide groove, a 9 through groove, a 10 triangular sealing rubber strip, a 11 lower sealing rubber strip, a 12 upper sealing rubber strip, a 13 third section bar piece, a 14 middle support plate, a 15 top arc plate, a 16 second solar house glass plate, a 17 upper top beam and a 18 lower top beam.

Detailed Description

In order to clearly illustrate the technical characteristics of the scheme, the utility model is explained in detail by the following specific embodiments.

In the description of the present utility model, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Example 1

1-2, a schematic cross-sectional view of a solar house roof beam A-A incorporating the drainage structure is shown. The built-in drainage structure of the sunlight room top beam comprises a top beam body 1 which is supported in an arc shape, wherein the top beam body is formed by assembling a first section bar piece 2 and a second section bar piece 3 which is clamped with the upper part of one side of the first section bar piece, a first water guide groove 4 is formed in the top of the other side of the first section bar piece, the first section bar piece below the first water guide groove is hollow, a supporting tube 5 is supported in the hollow inner space of the first section bar piece, and the supporting tube is arranged along the arc shape of the top beam body. The first section outside below the second section sets up backup pad frame 6, and the space between backup pad frame and the second section is used for installing first sunshine room glass board 7, forms second guiding gutter 8 between first section and the second section after the installation of first sunshine room glass board, sets up upwards recessed logical groove 9 in backup pad frame bottom, and triangle joint strip 10 in logical inslot.

As shown in fig. 2, the outer side of the top end of the supporting plate frame 6 is bent upwards by 90 ° to form a baffle, a groove body for accommodating the lower sealing rubber strip 11 is arranged at the top end of the baffle, the first sunlight room glass plate 7 is arranged above the lower sealing rubber strip, and the upper sealing rubber strip 12 is clamped and fixed between the first sunlight room glass plate and the second profile piece. The outer side wall of the first profile piece 2, which is close to one side of the first water guiding groove 4, is provided with a concave wall groove.

The roof beam with the built-in drainage structure is used for supporting the roof of the sunlight house with the cambered surface, roof drainage can be conveniently realized, and trouble caused by roof ponding is avoided. Specifically, through the first guiding gutter 4 of first section bar spare 2 on the back timber, can realize smooth quick discharge to the rainwater, avoid ponding entering section bar inside or harm glass room roof, through the second guiding gutter that forms after installing first sunshine room glass board 7 on the back timber between first, the second section bar spare, realized collecting and the drainage of rainwater by sunshine room glass board installation border position infiltration, avoided the rainwater to get into inside sunshine room and accumulate in the back timber inside.

Example 2

As shown in fig. 3, the built-in drainage structure of the top beam of the sunlight room is arranged in the same structure as that of the embodiment 1, except that an auxiliary secondary beam is further arranged outside the top beam, the auxiliary secondary beam is arranged at intervals with the top beam body, and the auxiliary secondary beam is arranged in an arc-shaped supporting manner consistent with the top beam body.

The auxiliary secondary beam comprises a third section bar 13, which comprises a hollow inner frame, and a top arc plate 15 is supported at the top end of the hollow inner frame through a middle supporting plate 14; and a second sunlight room glass plate 16 is arranged in the space between the top arc plate and the hollow inner frame, and the height of the second sunlight room glass plate is higher than that of the first sunlight room glass plate.

Clamping grooves are formed in two sides of the top end of the hollow inner frame, lower sealing rubber strips are clamped in the clamping grooves, the second sunlight room glass plate is arranged above the lower sealing rubber strips, and upper sealing rubber strips are clamped and fixed between the second sunlight room glass plate and the end parts of the top arc plates.

The drainage structure is also provided with the auxiliary secondary beam, so that rainwater near the position of the auxiliary secondary beam flows to the outer side of the top beam more easily, and the rainwater enters the second water guide groove 8 more conveniently through the position of the glass plate 7 of the first sunlight room, thereby realizing convenient and timely drainage.

Example 3

As shown in fig. 4, the built-in drainage structure of the top beam is provided with double layers, namely, the support for the push-pull open-close type sunlight room roof comprises an upper top beam 17 for supporting the outside sunlight room roof and a lower top beam 18 for supporting the inside sunlight room roof, and the upper top beam and the lower top beam are horizontally matched in a sliding manner to realize the opening and closing of the sunlight room; the built-in drainage structures of the upper and lower roof rails are in this embodiment arranged in a horizontal mirror symmetry. The structure shown in the figure is a schematic diagram when the sunlight room glass plate roofs connected with two top beams are pulled to the maximum in opposite separation, in this state, the bottom end of the triangular sealing rubber strip 10 arranged on the upper top beam 17 is in sealing contact with the top end surface of the lower top beam, and the top end of the triangular sealing rubber strip 10 arranged on the lower top beam 18 is in sealing contact with the bottom end surface of the upper top beam.

The above embodiments are not to be taken as limiting the scope of the utility model, and any alternatives or modifications to the embodiments of the utility model will be apparent to those skilled in the art and fall within the scope of the utility model.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (7)

1. The utility model provides a built-in drainage structures of sunshine roof beam, its characterized in that, includes the back timber body that arc supported, the back timber body is assembled by first section bar spare and the second section bar spare that blocks with first section bar spare one side upper portion, set up first guiding gutter at first section bar spare opposite side top, the inside cavity of first section bar spare of first guiding gutter below, set up the backup pad frame in the first section bar outside of second section bar spare below, the space between backup pad frame and the second section bar spare is used for installing first sunshine room glass board, form the second guiding gutter between first section bar spare and the second section bar spare after the installation of first sunshine room glass board, set up upwards the indent at the backup pad frame bottom and lead to the triangle joint strip in the indent bottom joint triangle.

2. The roof beam built-in drain structure of sunshine of claim 1, wherein a reinforcing support member is provided inside the first section member; the reinforcing support piece is a hollow support tube.

3. The built-in drainage structure of the roof beam of the sunlight room according to claim 1, wherein the outer side of the top end of the supporting plate frame is bent upwards by 90 degrees to form a baffle, a groove body for accommodating a lower sealing rubber strip is arranged at the top end of the baffle, the first glass plate of the sunlight room is arranged above the lower sealing rubber strip, and an upper sealing rubber strip is clamped and fixed between the first glass plate of the sunlight room and the second profile piece.

4. The built-in drainage structure of a roof beam of a sunlight house according to claim 1, wherein the top beam body comprises a double layer or a plurality of layers which are arranged up and down, and two top beam bodies adjacent up and down are horizontally matched in a sliding way; the top beam body arranged on the upper layer is horizontally and mirror-symmetrical with the top beam body arranged on the lower layer.

5. The roof beam built-in drainage structure of a sunlight house according to any one of claims 1 to 4, further comprising an auxiliary secondary beam, wherein the auxiliary secondary beam is arranged at a distance from the top beam body, and the auxiliary secondary beam is arranged in an arc-shaped supporting manner consistent with the top beam body.

6. The roof beam built-in drain structure for sunlight of claim 5, wherein said auxiliary secondary beam comprises a third section member comprising a hollow inner frame, a top arc plate being supported at the top end of the hollow inner frame via a middle support plate; and a second sunlight room glass plate is arranged in the space between the top arc plate and the hollow inner frame, and the height of the second sunlight room glass plate is higher than that of the first sunlight room glass plate.

7. The built-in drainage structure of a roof beam of a sunlight house according to claim 6, wherein clamping grooves are formed in two sides of the top end of the hollow inner frame, a lower sealing rubber strip is clamped in the clamping grooves, the second sunlight house glass plate is arranged above the lower sealing rubber strip, and an upper sealing rubber strip is clamped and fixed between the second sunlight house glass plate and the end part of the top arc plate.