CN212957793U - Conversion beam, front cross beam and water falling groove connecting structure - Google Patents

Abstract

The utility model belongs to the technical field of the sunshine room, a conversion roof beam and front beam and groove connection structure falls into water is related to, including conversion roof beam, front beam and the groove of falling into water, the conversion roof beam with the riveting of front beam, the groove buckle of falling into water is in on the front beam, it has the baffle to peg graft in one side top of the groove of falling into water, the upper portion of baffle is equipped with the apron flashing, the top of apron flashing is equipped with the eaves mouth and bordures. The utility model discloses can realize switching roof beam, front beam and the firm connection in groove of falling into water, can be effectively waterproof, drainage, the overlap joint of switching roof beam and the arbitrary angle of front beam can be realized in the design of circular arc structure to multiplicable bearing degree, the leakproofness is good, the noise reduction, glass and section bar can realize the flexible coupling, avoid hard connection to glass's damage, have thermal-insulated, heat preservation function, energy-conservation is effectual.

Description

Conversion beam, front cross beam and water falling groove connecting structure

Technical Field

The utility model belongs to the technical field of the sunshine room, concretely relates to conversion roof beam and front beam and groove connection structure falls into water.

Background

The sunlight house top frame is generally formed by enclosing a main beam, an auxiliary beam, a side beam and the like, and a glass top layer or a Deltay top layer is arranged in the enclosed roof frame so as to meet the requirements of daylighting in different degrees.

At present, whole china sunshine room market, the connected mode between the roof beam is mostly carrying out the butt joint through the sub-tapping, and this kind of connected mode is very insecure to the site installation of building site is more complicated, appears the potential safety hazard easily.

At present, aluminium structure sunshine room on the market all is that aluminium side pipe adds the structure of steel core or aluminium frame welds layer upon layer and accumulates, and both add steel core or weld and accumulate and just the supplementary rigidity and the amount of deflection that increases aluminium structure of simple, and the time is of a specified duration, and the steel core rusts easily or the welded junction cracks easily to reduce the intensity of structure self, cause unpredictable danger, cause the waste of manpower and material in the work progress very big moreover.

The mortise and tenon joint is a concave-convex combination connection mode adopted on two wood components. The convex part is called tenon (or tenon); the concave part is called as mortise (or mortise, mortise), and the tenon and the mortise are occluded to play a role in connection. This is the main structure mode of ancient Chinese buildings, furniture and other wooden appliances. The tenon-and-mortise lapping structure is the combination of tenons and mortises, is the ingenious combination of more wood pieces, less wood pieces, high wood pieces, low wood pieces, long wood pieces and short wood pieces, and can effectively limit the wood pieces from twisting in all directions. The most basic mortise and tenon joint structure consists of two components, wherein a tenon of one component is inserted into a mortise of the other component, so that the two components are connected and fixed. The part of the tenon extending into the mortise is called the tenon, and the rest part is called the shoulder.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the connection structure of the conversion beam, the front cross beam and the water falling groove has the advantages of firm connection mode, effective water prevention and drainage, good sealing performance, noise reduction, realization of flexible connection, heat insulation and preservation functions, and good energy-saving effect.

In order to achieve the technical purpose, the utility model adopts the technical scheme that:

a connection structure of a conversion beam, a front cross beam and a water falling groove comprises the conversion beam, the front cross beam and the water falling groove, wherein the conversion beam is riveted with the front cross beam, and the water falling groove is buckled on the front cross beam;

the upper part of the conversion beam is connected with a nylon heat insulation strip in a penetrating manner, a first foaming adhesive tape is arranged between the conversion beam and the nylon heat insulation strip, the other side of the nylon heat insulation strip is connected with a flashing board in a penetrating manner, a second foaming adhesive tape is arranged between the nylon heat insulation strip and the flashing board, the upper part and the lower part of the flashing board are respectively provided with a second adhesive tape notch and a third adhesive tape notch, a second sealing adhesive tape is arranged in the second adhesive tape notch, the second sealing adhesive tape is abutted to glass, and a long-tail adhesive tape is arranged in the third adhesive tape notch;

the water falling groove is connected with the front cross beam through a baffle in an inserting mode, a first rubber strip notch is formed in the upper portion of the baffle, a first sealing rubber strip is arranged in the first rubber strip notch, and the first sealing rubber strip and the long tail rubber strip are extruded mutually.

As an improvement, one side of the flashing plate is provided with a cornice wrapping edge, the upper part of the cornice wrapping edge is bonded on the glass, the lower part of the cornice wrapping edge is provided with a fourth adhesive tape notch, the fourth adhesive tape notch is provided with a third sealing adhesive tape, and the third sealing adhesive tape is abutted to the outer side of the second adhesive tape notch.

As an improvement, the transfer beam comprises a first cavity and a second cavity, the joint of the first cavity and the second cavity is of an arc structure, a first T-shaped bolt notch and a second T-shaped bolt notch are respectively formed in the middle and the lower portion of the first cavity, a fifth adhesive tape notch is formed in the top of the first cavity, and a heat insulation strip notch is formed in one side, opposite to the first T-shaped bolt notch, of the upper portion of the first cavity.

As a further improvement, a first cover plate mounting notch is formed in the position, above the first T-shaped bolt notch, of the upper portion of the first cavity, a second cover plate mounting notch is formed in the top of one end, far away from the first cavity, of the second cavity, and the cover plate is buckled in the first cover plate mounting notch and the second cover plate mounting notch.

As an improvement, the front beam includes interior front beam and outer front beam, the upper portion and the lower part of outer front beam are connected through the heat insulating strip of multi-chamber nylon respectively, interior front beam includes third chamber, fourth cavity and fifth cavity, the third chamber is enclosed construction, the fourth cavity with the fifth cavity communicates with each other, one side of third chamber and fourth cavity is vertical portion, and the opposite side is arc portion, outer front beam includes sixth cavity and seventh cavity, the sixth cavity with the seventh cavity communicates with each other, the outside of sixth cavity with the outside of seventh cavity is equipped with first couple notch and second couple notch respectively.

As a further improvement, a nylon reinforced heat insulation strip is arranged between the middle parts of the inner front cross beam and the outer front cross beam, and the chamber between the inner front cross beam and the outer front cross beam is divided into an eighth chamber and a ninth chamber by the nylon reinforced heat insulation strip.

As an improvement, a U-shaped damping rubber pad is arranged at the joint of the baffle and the water falling groove.

As an improvement, a protective net is arranged between the inner wall of one side of the water falling groove, which is far away from the front cross beam, and the baffle.

As a further improvement, a screw hole is formed in the position, below the protective net, on the inner side of the water falling groove.

As an improvement, the bottom of the downpipe groove is connected with the downpipe through a groove pipe connector.

Due to the adoption of the technical scheme, the beneficial effects of the utility model are that:

1. the conversion beam adopts an L-shaped 2-cavity and arc structural design, the arc structural design can adjust any angle, two T-shaped industrial bolt notches are provided, two cover plate mounting notches are designed to pre-penetrate T-shaped industrial screw rods into the two T-shaped industrial bolt notches, then a processed connecting piece is penetrated on the T-shaped industrial screw rods, and the T-shaped industrial screw rods are adjusted to the designed position and are fastened by nuts; and then putting the tenons of the processed main beam and the side beam on the tenon shoulders of the wall leaning beam, after the tenon-and-mortise lap joint with the wall leaning beam is realized, penetrating the connecting piece and the main beam or the side beam by using an industrial screw, fastening the connecting piece and the main beam or the side beam by using a nut, and finally, fastening a cover plate to hide all matched connecting objects such as the connecting piece, the screw and the like in a cavity.

2. The heat insulation strip notch structural design can penetrate the nylon heat insulation strip into the heat insulation strip notch structural design, and the bridge cut-off structural design of indoor and outdoor can be realized.

3. And a sealing rubber strip is buckled in the sealing rubber strip groove, so that the glass and the section bar are isolated to realize flexible connection, hard connection is avoided, the sealing rubber strip can also realize a sealing function, and rainwater and air are prevented from entering a room.

4. The arc structure design of the conversion beam can be matched with the front cross beam to adjust any angle, and the lap joint structure is fixed by adopting a riveted structure.

5. The front cross beam adopts the design of an arc multi-cavity bridge-cut-off structure, the third cavity and the fourth cavity can be combined with the conversion beam to realize the overlapping adjustment of any angle, the bearing problem can be solved, the fifth cavity, the sixth cavity and the seventh cavity can be matched with the connecting piece to realize the structural connection of other parts, and the connection can be firm.

6. The inner front cross beam and the outer front cross beam are used after being connected and extruded by the nylon heat insulation strips in a penetrating mode, the eighth chamber and the ninth chamber block indoor and outdoor heat conduction through the nylon heat insulation strips, connection, strengthening, fastening, heat insulation and heat preservation functions are achieved, polyurethane heat insulation materials can be filled in the cavity, the overall heat insulation and heat insulation functions are enhanced, separation of an internal cold bridge and an external cold bridge is achieved, meanwhile, heat loss caused by convection can be avoided, and therefore the energy-saving effect is better, the heat conduction coefficient of the nylon heat insulation strips is 0.25(W/mk), and the heat conduction coefficient of aluminum alloy is 121-151 (W/mk).

7. The outer side of the front cross beam adopts a hook type notch design, and the water falling groove can be clamped into the notch design, so that the tenon-and-mortise joint is realized.

8. The foaming adhesive tape can be combined with two materials together, realizes the internal and external broken bridge, plays thermal-insulated and heat preservation function, solves the indoor easy dewing problem in winter, and the adhesive tape extrudes each other to realize waterproofly and sealedly, and sealing adhesive tape can solve glass and section bar direct contact, realizes the flexible coupling, avoids the damage of hard coupling to glass.

And 9, the U-shaped damping rubber pad can realize firm installation, noise reduction and flexible connection.

10. The edge of the eave can protect the glass edge after the installation is finished, and the glass is damaged by waterproof heavy objects, because the glass has the weakest points of the corners and the edges, the rainwater can be directly led into the flashing board when the top surface has rainwater, then the flashing board guides the rainwater into the water falling groove, all the sunlight room tops are collected together by the water falling groove, and the rainwater is uniformly discharged into a sewer on the ground of the original building through a water falling system (comprising a downpipe, a pipe connector, an elbow, a pipe clamp and the like) or the downpipe, so that the problem of free flowing of the rainwater is effectively solved.

11. The protective screen is arranged in the water falling groove and can be bonded by weather-resistant glue, and the protective screen can effectively filter leaves, paper scraps and other sundries and prevent the sundries from falling into the water falling groove to block the water falling system. The screw hole design can be fixed with the groove closure plate that falls into water of groove both sides with screw rod or brill tail silk.

The utility model provides a conversion roof beam and front beam and groove connection structure falls into water can realize conversion roof beam, front beam and the firm connection in the groove of falling into water, can be effectively waterproof, drainage, and the design of circular arc structure can realize the overlap joint of conversion roof beam and the arbitrary angle of front beam to multiplicable bearing degree, the leakproofness is good, the noise reduction, glass and section bar can realize the flexible coupling, avoid hard connection to glass's damage, have thermal-insulated, heat preservation function, energy-conservation is effectual.

Drawings

Fig. 1 is a schematic structural diagram of a connection structure of a transfer beam, a front cross beam and a sink provided in this embodiment;

fig. 2 is a cross-sectional view of the connection structure of the transfer beam, the front cross beam and the sink gutter provided in this embodiment;

fig. 3 is a schematic structural diagram of a transfer beam provided in this embodiment;

FIG. 4 is a cross-sectional view of a transfer beam provided in the present embodiment;

FIG. 5 is a schematic structural view of a front cross member provided in the present embodiment;

FIG. 6 is a cross-sectional view of the front cross member provided in the present embodiment;

in the attached figure, 1-conversion beam, 2-front beam, 3-water falling groove, 4-cover plate, 5-nylon heat insulation strip, 6-first foaming adhesive tape, 7-flashing, 8-second foaming adhesive tape, 9-glass, 10-baffle, 11-first chamber, 12-second chamber, 13-arc structure, 14-first T-shaped bolt notch, 15-second T-shaped bolt notch, 16-fifth adhesive tape notch, 17-heat insulation strip notch, 18-first cover plate installation notch, 19-second cover plate installation notch, 21-inner front beam, 22-outer front beam, 23-multi-cavity nylon heat insulation strip, 24-third chamber, 25-fourth chamber, 26-fifth chamber, 27-sixth chamber, 28-a seventh chamber, 29-a nylon reinforced heat insulation strip, 30-an eighth chamber, 31-a ninth chamber, 32-a first sealing rubber strip, 33-a cornice edge covering, 34-a third sealing rubber strip, 35-a U-shaped shock absorption rubber pad, 36-a protective net, 37-a screw hole, 38-a duct connector, 39-a downpipe, 71-a second sealing rubber strip, 72-a long tail rubber strip, 101-a first rubber strip notch, 271-a first hook notch, 281-a second hook notch, and 331-a fourth rubber strip notch.

Detailed Description

The present invention will be further described with reference to the following embodiments. Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if there are the terms "upper", "lower", "left", "right", etc. indicating the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of the description, but it is not intended to indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and those skilled in the art can understand the specific meanings of the terms according to specific situations.

As shown in fig. 1 and 2, the structure for connecting the conversion beam with the front cross beam and the water falling groove comprises a conversion beam 1, a front cross beam 2 and a water falling groove 3, wherein the conversion beam 1 is connected with the front cross beam 2 through rivets and rivet nuts.

As shown in fig. 3 and 4, the transfer beam 1 includes a first chamber 11 and a second chamber 12, a joint of the first chamber 11 and the second chamber 12 is an arc-shaped structure 13, a first T-shaped bolt notch 14 and a second T-shaped bolt notch 15 are respectively formed in the middle and the lower portion of the first chamber 11, a fifth glue strip notch 16 is formed in the top of the first chamber 11, and a heat insulation strip notch 17 is formed in one side of the upper portion of the first chamber 11, which is opposite to the first T-shaped bolt notch 14.

The upper portion of the first cavity 11 is provided with a first cover plate mounting notch 18 at a position above the first T-shaped bolt notch 14, the top of the end of the second cavity 12 far away from the first cavity is provided with a second cover plate mounting notch 19, and the cover plate 4 is buckled in the first cover plate mounting notch 18 and the second cover plate mounting notch 19.

As shown in fig. 5 and 6, the front beam 2 includes an inner front beam 21 and an outer front beam 22, the upper portion and the lower portion of the outer front beam 22 are connected by a multi-cavity nylon heat insulation strip 23, the inner front beam 21 includes a third chamber 24, a fourth chamber 25 and a fifth chamber 26, the third chamber 24 is a closed structure, the fourth chamber 25 is communicated with the fifth chamber 26, one side of the third chamber 24 and one side of the fourth chamber 25 are vertical portions, the other side of the third chamber 24 and the other side of the fourth chamber 25 are arc portions, the outer front beam 22 includes a sixth chamber 27 and a seventh chamber 28, the sixth chamber 27 is communicated with the seventh chamber 28, the outer side of the sixth chamber 27 and the outer side of the seventh chamber 28 are provided with a first hook notch 271 and a second hook notch 281, respectively, and the sink 3 is fastened on the first hook 271 and the second hook notch 281 of the front beam 2.

A nylon reinforced heat insulation strip 29 is arranged between the middle parts of the inner front cross beam 21 and the outer front cross beam 22, and the chamber between the inner front cross beam 21 and the outer front cross beam 22 is divided into an eighth chamber 30 and a ninth chamber 31 by the nylon reinforced heat insulation strip 29.

As shown in fig. 1 and 2, the thermal insulation strip notch 17 of the conversion beam 1 is internally provided with a nylon thermal insulation strip 5 in a penetrating manner, a first foaming adhesive tape 6 is arranged between the conversion beam 1 and the nylon thermal insulation strip 5, the other side of the nylon thermal insulation strip 5 is connected with a flashing 7 in a penetrating manner, a second foaming adhesive tape 8 is arranged between the nylon thermal insulation strip 5 and the flashing 7, the upper part and the lower part of the flashing 7 are respectively provided with a second adhesive tape notch and a third adhesive tape notch, a second sealing adhesive tape 71 is arranged in the second adhesive tape notch, the second sealing adhesive tape 73 is abutted to glass 9, and a long tail adhesive tape 72 is arranged in the third adhesive tape notch.

The baffle 10 is inserted and connected above one side of the water falling groove 3 connected with the front cross beam 2, the upper part of the baffle 10 is provided with a first rubber strip notch 101, a first sealing rubber strip 32 is arranged in the first rubber strip notch 101, and the first sealing rubber strip 32 and the long tail rubber strip 74 are mutually extruded. A U-shaped damping rubber pad 35 is arranged at the joint of the baffle 10 and the water falling groove 3, a protective screen 36 is arranged between the inner wall of the water falling groove 3, which is far away from the front cross beam 2, and the baffle 10, a screw hole 37 is arranged at the position, which is positioned below the protective screen 36, on the inner side of the water falling groove 3, and the bottom of the water falling groove 3 is connected with a water falling pipe 39 through a groove pipe connector 38.

One side of apron 7 is equipped with eaves mouth and bordures 33, and the upper portion that eaves mouth bordures 33 bonds on glass 9, and the lower part that eaves mouth bordures 33 is equipped with fourth adhesive tape notch 331, and fourth adhesive tape notch 331 is equipped with third joint strip 34, and third joint strip 34 offsets with second joint strip 71.

The transfer beam 1 and the front cross beam 2 in the embodiment are both made of aluminum alloy sections.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications made according to the technical idea of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. A connection structure of a conversion beam, a front cross beam and a water falling groove is characterized by comprising the conversion beam, the front cross beam and the water falling groove, wherein the conversion beam is riveted with the front cross beam, and the water falling groove is buckled on the front cross beam;

the upper part of the conversion beam is connected with a nylon heat insulation strip in a penetrating manner, a first foaming adhesive tape is arranged between the conversion beam and the nylon heat insulation strip, the other side of the nylon heat insulation strip is connected with a flashing board in a penetrating manner, a second foaming adhesive tape is arranged between the nylon heat insulation strip and the flashing board, the upper part and the lower part of the flashing board are respectively provided with a second adhesive tape notch and a third adhesive tape notch, a second sealing adhesive tape is arranged in the second adhesive tape notch, the second sealing adhesive tape is abutted to glass, and a long-tail adhesive tape is arranged in the third adhesive tape notch;

the water falling groove is connected with the front cross beam through a baffle in an inserting mode, a first rubber strip notch is formed in the upper portion of the baffle, a first sealing rubber strip is arranged in the first rubber strip notch, and the first sealing rubber strip and the long tail rubber strip are extruded mutually.

2. The connection structure of the transfer beam, the front cross beam and the sink is characterized in that one side of the flashing is provided with a cornice covering edge, the upper part of the cornice covering edge is adhered to the glass, the lower part of the cornice covering edge is provided with a fourth adhesive tape notch, the fourth adhesive tape notch is provided with a third sealing adhesive tape, and the third sealing adhesive tape abuts against the outer side of the second adhesive tape notch.

3. The structure for connecting a conversion beam with a front cross beam and a sink body as claimed in claim 1, wherein the conversion beam comprises a first chamber and a second chamber, the joint of the first chamber and the second chamber is of an arc-shaped structure, the middle part and the lower part of the first chamber are respectively provided with a first T-shaped bolt notch and a second T-shaped bolt notch, the top of the first chamber is provided with a fifth adhesive tape notch, and one side of the upper part of the first chamber, which is opposite to the first T-shaped bolt notch, is provided with a heat insulation strip notch.

4. The transfer beam, front cross beam and sink connecting structure according to claim 3, wherein a first cover plate mounting notch is formed in a position, above the first T-bolt notch, of the upper portion of the first chamber, a second cover plate mounting notch is formed in a top portion of an end, away from the first chamber, of the second chamber, and the cover plates are fastened in the first cover plate mounting notch and the second cover plate mounting notch.

5. The transfer beam and front beam and sink connecting structure according to claim 1, wherein the front beam comprises an inner front beam and an outer front beam, the upper part and the lower part of the outer front beam are respectively connected by a multi-cavity nylon heat insulating strip, the inner front beam comprises a third cavity, a fourth cavity and a fifth cavity, the third cavity is a closed structure, the fourth cavity is communicated with the fifth cavity, one side of the third cavity and one side of the fourth cavity are vertical parts, the other side of the third cavity and the other side of the fourth cavity are arc-shaped parts, the outer front beam comprises a sixth cavity and a seventh cavity, the sixth cavity is communicated with the seventh cavity, and the outer side of the sixth cavity and the outer side of the seventh cavity are respectively provided with a first hook notch and a second hook notch.

6. The transfer beam, front cross beam and sink connection structure of claim 5, wherein a nylon reinforced heat insulation strip is disposed between the middle portions of the inner front cross beam and the outer front cross beam, and the nylon reinforced heat insulation strip divides the chamber between the inner front cross beam and the outer front cross beam into an eighth chamber and a ninth chamber.

7. The structure for connecting a transfer beam with a front cross beam and a sink tank as claimed in claim 1, wherein a U-shaped shock-absorbing rubber pad is arranged at the joint of the baffle and the sink tank.

8. The connecting structure of the transfer beam, the front cross beam and the downpipe groove of claim 1, wherein a protective net is arranged between an inner wall of one side of the downpipe groove, which is far away from the front cross beam, and the baffle.

9. The structure for connecting a transfer beam with a front cross beam and a sink tank as claimed in claim 8, wherein a screw hole is formed at a position below the protection net inside the sink tank.

10. The transfer beam to front cross member and downspout connection structure of any of claims 1 to 9, wherein a bottom of the downspout is connected to a downspout by a channel pipe connector.

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