CN214995347U - Roofing stainless steel gutter - Google Patents

Abstract

The utility model relates to the technical field of roof waterproof engineering, in particular to a roof stainless steel gutter, which comprises a plurality of mutually overlapped and spliced gutter pieces, wherein the gutter pieces form a gutter main body for multi-stage drainage; the groove piece comprises a groove body, and the size of the groove from the head end to the tail end of the groove body is gradually increased and is in a diffusion shape; the diffusion angles of two adjacent groove pieces are equal, and the outer size of the tail end of the groove body of the groove piece positioned at the front part is equal to the size of the notch of the head end of the groove body of the groove piece positioned at the rear part and is tightly attached to the notch; the two sides of the tank body are provided with water connecting and retaining structures which are integrally formed with the tank body and incline towards the upper part of the tank body. The gutter structure has the advantages that a plurality of gutter pieces are overlapped and spliced to form the gutter main body, the gutter structure is simplified, the gutter structure is convenient to install, the maintenance is convenient, and the hidden danger of water leakage and water dripping is reduced; the smaller groove piece is more convenient to process and manufacture, the processing and manufacturing quality is improved, and the service life of the gutter main body is longer.

Description

Roofing stainless steel gutter

Technical Field

The utility model relates to a roofing waterproof engineering technical field relates to a gutter structure, concretely relates to roofing stainless steel gutter.

Background

The quadrangle buildings combining the four-side slope roof with the steel structure sunshine shed atrium are quite common in special building areas such as sightseeing and living, and the structure of the stainless steel drainage gutter between the steel structure sunshine shed and the concrete slope roof is particularly important.

Current gutter generally adopts integral rectangular structure, extends to another corner from the one corner of eave, and not only whole size is big, installs inconveniently moreover, because the gutter span is big, and overall structure is difficult to guarantee reliable and stable, has the flaw of partial structure, often appears the gutter and leaks, drips the phenomenon, influences the walking safety and the house immigration experience degree in corridor under the court. In these cases, if the repair is performed, water leakage and dripping may occur again at the repaired portion after a certain period of time, which not only consumes manpower and material resources for repair, but also does not ensure reliability of the gutter.

Therefore, the structure of the existing integral gutter has great defects, and the structure of the gutter should be optimized and improved, so that a more reasonable technical scheme needs to be provided, and the defects in the prior art are overcome.

SUMMERY OF THE UTILITY MODEL

In order to solve the prior art defect mentioned in the above-mentioned content, the utility model provides a roofing stainless steel gutter, the structure through setting up the coincide concatenation reduces the whole manufacturing size of gutter, and convenient construction installation because the size is littleer also conveniently improves the quality of singleton, also conveniently overhauls the maintenance to singleton ditch groove spare in the use, reduces consumeing of manpower and materials.

In order to achieve the above object, the utility model discloses the technical scheme who specifically adopts is:

a stainless steel roof gutter comprises a plurality of mutually overlapped and spliced gutter pieces, wherein the gutter pieces form a multi-stage drainage gutter main body; the groove piece comprises a groove body, and the size of the groove from the head end to the tail end of the groove body is gradually increased and is in a diffusion shape; the diffusion angles of two adjacent groove pieces are equal, and the outer size of the tail end of the groove body of the groove piece positioned at the front part is equal to the size of the notch of the head end of the groove body of the groove piece positioned at the rear part and is tightly attached to the notch; the two sides of the tank body are provided with water connecting and retaining structures which are integrally formed with the tank body and incline towards the upper part of the tank body.

The gutter disclosed by the invention is formed by overlapping and splicing a plurality of gutter pieces, the sizes of the adjacent gutter pieces are closely matched with each other through strict design, and the diffused gutter body structure ensures that the two adjacent gutter pieces can be tightly attached through stretching, so that the water leakage at the overlapped and spliced position is reduced; set up in the both sides of cell body and connect the manger plate structure and can connect the installation to eave below with the ditch piece of ditch to inside introducing the gutter with the drainage of eave, avoid the drainage to drip to corridor or pedestrian region, improve the reliability of gutter.

Furthermore, the structure of the groove bodies is arranged in a diffusion mode, when two adjacent groove pieces are stretched, the tail end of the upper groove body and the head end of the lower groove body slide relatively and are gradually attached and tightened, connection is very close, better water conductivity is achieved, and water leakage accidents are reduced. The utility model discloses in can design the diffusion angle of cell body according to actual demand, the diffusion angle scope that general can adopt is less, specific can adopt following feasible selection: the diffusion angle of the groove body is 1-1.5 degrees.

Further, because the groove body located at the upper part and the groove body located at the lower part are mutually attached in a sliding manner, the shape of the groove body can be reasonably designed according to the structure of the load sliding requirement, the structure is not limited uniquely, and the groove body is optimized and feasible choices are provided: the notch of the groove body is in the shape of arc and polygon, and can also be in the shape of elliptic arc, polygon and arc combination and the like.

Further, for improving water guide safety, reduce and leak and drip hidden danger, can be right the utility model discloses a cell body structure optimizes the improvement, specifically not only limits, and here is optimized and is lifted one of them feasible selection: the water retaining structure is arranged in the tank body along the port of the tank body, extends from one side of the port of the tank body to the other side of the port, is identical to the notch of the tank body in shape, and is attached to and supports the bottom surface of the tank body positioned in the front. When adopting such scheme, can get into the water of this cell body to the tail end row with the cell body that is located upper portion, because the backward flow phenomenon spills over from the head end of this cell body when avoiding the water yield great.

Still further, in order to improve waterproof nature, manger plate limit structure and cell body integrated into one piece.

Further, in order to improve the water conductivity of the tank body and reduce water leakage and water dripping, the structure of the tank body is optimized and improved, and one of the feasible options is as follows: the port of the tail end of cell body be provided with the leading water limit structure outward to the cell body, the leading water limit structure extends to the opposite side of port from one side of port, and the shape of leading water limit structure is the same with the notch shape of cell body, the groove face of the cell body that the leading water limit structure laminating is located the rear portion, and when the tail end of two adjacent cell bodies and head end cooperate, the leading water limit structure is adjusted the laminating with manger plate limit structure and is constituteed waterproof construction well. The structural improvement of the head end and the tail end of the groove body can be arranged at the same time, or only one part can be arranged.

Still further, in order to improve waterproof nature, leading water limit structure and cell body integrated into one piece.

Further, after two adjacent groove bodies are arranged in a laminating mode, the groove bodies are made of rigid materials, air gaps exist in laminating surfaces, and water leakage can occur when the water amount is large, so that the structure of the groove bodies is optimized to improve the waterproof performance, the optimization scheme is not limited uniquely, and one of the feasible options is given out: the diversion edge structure and/or the water retaining edge structure comprise waterproof strips, and the waterproof strips are compressed to seal the fit gaps when the diversion edge structure and the water retaining edge structure are fitted and abutted tightly. When the scheme is adopted, the waterproof strips can be made of waterproof materials such as flexible rubber.

Further, the cell body is through connecting water retaining structure and eave and linking to each other and introduce the cell body with the drainage of eave, the utility model discloses a connect water retaining structure can be optimized and improved to set multiple structure to, and not only inject, here cite one of them feasible selection: the water-blocking connecting structure comprises a connecting transition section connected with the tank body, and the connecting transition section extends upwards and outwards relative to the tank body; the end connection of connecting the changeover portion has the connection fixed section, connects fixed section downwardly extending and is used for being connected with the edge that hangs down of eave.

Still further, for the connection stability who improves the cell body, the utility model discloses continue to optimize connecting the manger plate structure, here cite one of them feasible scheme: the water retaining structure also comprises a clamping plate, the clamping plate comprises a fitting part fitted with the vertical edge, and the upper end of the fitting part is provided with an extending hanging part; the laminating portion with hang down along the laminating and through the locking piece be connected the locking with the fixed section of being connected of cell body, extension joint portion articulate fixedly with eave structure. When the scheme is adopted, the attaching part and the connecting and fixing section clamp the vertical edge so that the vertical edge bears the weight of the groove body; meanwhile, the hanging part is extended to be capable of being additionally hung with an eave structure, certain load can be borne, load bearing of the hanging edge is reduced, and the stability and the reliability of groove body installation are improved.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

the gutter main body is formed by overlapping and splicing a plurality of gutter pieces, the structure is simplified, the installation is convenient, the maintenance is convenient in the use process, the hidden danger of water leakage and dripping is reduced, and the use experience is improved; meanwhile, smaller groove pieces are more convenient to process and manufacture, the processing and manufacturing quality is improved, and the service life of the gutter main body is longer.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only show some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic sectional structure view of a gutter.

Fig. 2 is a cross-sectional structural view of the channel member in a side view.

Fig. 3 is a structural diagram of the groove member at the notch.

Fig. 4 is a schematic top view of the gutter.

Fig. 5 is a schematic structural view of the gutter arranged at the eave.

In the above drawings, the meanings of the respective symbols are: 1. a trough body; 2. a water retaining edge structure; 3. a waterproof strip; 4. a water leading edge structure; 5. connecting a water retaining structure; 501. connecting the transition sections; 502. connecting the fixed sections; 6. a vertical edge; 7. a splint; 8. and a locking member.

Detailed Description

The present invention will be further explained with reference to the drawings and the embodiments.

It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. Specific structural and functional details disclosed herein are merely illustrative of example embodiments of the invention. The present invention may, however, be embodied in many alternate forms and should not be construed as limited to the embodiments set forth herein.

Examples

The gutter has large integral size and inconvenient processing and installation in the prior art, so that the quality of the actual gutter has hidden troubles, water leakage and water dripping accidents are easy to occur after the gutter is installed, and the gutter is difficult to realize long-time stable and reliable use in an overhauling mode. Therefore, the present embodiment provides a gutter structure to solve the above-mentioned problems.

Specifically, the technical solution disclosed in this embodiment is as follows:

as shown in fig. 1 and 2, a stainless steel roof gutter includes a plurality of mutually overlapped and spliced gutter members, and the gutter members form a gutter main body for multi-stage drainage; the groove piece comprises a groove body 1, and the size of the notch from the head end to the tail end of the groove body 1 is gradually increased and is in a diffusion shape; the diffusion angles of two adjacent groove pieces are equal, and the outer size of the tail end of the groove body 1 of the groove piece positioned at the front part is equal to the size of the notch at the head end of the groove body 1 of the groove piece positioned at the rear part and is tightly attached to the notch; the water-retaining structure is characterized in that the two sides of the tank body 1 are respectively provided with a water-retaining connecting structure 5, and the water-retaining connecting structures 5 and the tank body 1 are integrally formed and incline towards the upper part of the tank body 1.

Preferably, the tank body 1 in this embodiment is made of 304 stainless steel.

The gutter disclosed by the invention is formed by overlapping and splicing a plurality of gutter pieces, the sizes of the adjacent gutter pieces are closely matched with each other through strict design, and the diffused gutter body 1 structure ensures that the adjacent two gutter pieces can be tightly attached through stretching, so that the water leakage at the overlapped and spliced position is reduced; set up in the both sides of cell body 1 and connect manger plate structure 5 and can connect the installation to eave below with the ditch piece to inside introducing the gutter with the drainage of eave, avoid the drainage to drip to corridor or pedestrian's region, improve the reliability of gutter.

The structure of the trough body 1 is arranged in a diffusion shape, when two adjacent trough pieces are stretched, the tail end of the upper trough body 1 and the head end of the lower trough body 1 slide relatively and are gradually attached and tightened, the connection is very close, so that better water conductivity is achieved, and water leakage accidents are reduced. As shown in fig. 3 and 4, the diffusion angle of the tank body 1 in this embodiment can be designed according to actual requirements, and a general applicable diffusion angle range is small, and in some embodiments, the following feasible options can be specifically adopted: the diffusion angle of the tank body 1 is 1-1.5 degrees.

Preferably, the divergence angle is set to 1 ° in the present embodiment.

Because the tank body 1 positioned at the upper part and the tank body 1 positioned at the lower part are mutually in sliding fit, the shape of the tank body 1 can be reasonably designed according to the structure of the load sliding requirement, the structure is not limited uniquely, and the tank body 1 is optimized in some embodiments and can adopt various feasible choices: the shape of the notch of the tank body 1 comprises an arc shape and a polygon, and can also adopt an elliptic arc shape, a shape combining the polygon and the arc shape and the like.

Preferably, the notch structure of the tank body 1 is configured to be semicircular in the present embodiment. In some embodiments, the slot structure of the tank body 1 may be configured as a square, V-shaped, or the like.

In order to improve the water guide safety and reduce the hidden danger of water leakage and water dripping, the structure of the tank body 1 disclosed in the embodiment can be optimized and improved, particularly but not exclusively limited, the port structure of the tank body 1 can be improved in some embodiments, for example, structures such as a water retaining ring and a waterproof slope are arranged, and the embodiment is optimized and adopts one of the feasible options: the water retaining structure is characterized in that a water retaining edge structure 2 is arranged in the head end of the tank body 1 along the port of the tank body 1 to the tank body 1, the water retaining edge structure 2 extends from one side of the port of the tank body 1 to the other side of the port, the shape of the water retaining edge structure 2 is the same as that of the notch of the tank body 1, and the water retaining edge structure 2 is attached to and supports the bottom surface of the tank body 1 in front. When adopting such scheme, can get into this cell body 1's of cell body 1 water that is located upper portion to the tail end row, because the backward flow phenomenon spills over from this cell body 1's head end when avoiding the water yield great.

In this embodiment, in order to improve the waterproof performance, the water retaining structure 2 is integrally formed with the tank body 1.

Preferably, the head end of the trough body 1 of the trough member positioned at the first sequence of the gutter body changes the water retaining edge structure 2, so that the size of the water retaining edge structure 2 is increased and the notch of the trough body 1 is completely closed. When the device is arranged in this way, the water in the tank body 1 can be prevented from overflowing from the head end of the tank body 1.

In order to improve the water conductivity of the tank body 1, reduce water leakage and water dripping, the structure of the tank body 1 is optimized and improved, in some embodiments, the tail end structure of the tank body 1 can be optimized and provided with a waterproof ring, a waterproof slope and other structures, and the embodiment is optimized and adopts one of the feasible options: the port of the tail end of cell body 1 be provided with leading water limit structure 4 outside cell body 1, leading water limit structure 4 extends to the opposite side of port from one side of port, and the shape of leading water limit structure 4 is the same with the notch shape of cell body 1, leading water limit structure 4 laminating is located the cell body 1's at rear portion groove face, and when the tail end of two adjacent cell bodies 1 and head end cooperate, leading water limit structure 4 and manger plate limit structure 2 are adjusted the laminating well and are constituteed waterproof construction. The structural improvement of the head end and the tail end of the tank body 1 can be arranged at the same time, or only one part can be arranged.

In this embodiment, in order to improve the waterproof performance, the water leading edge structure 4 is integrally formed with the tank body 1.

Preferably, the gutter body 1 tail end of the gutter member at the last order of the gutter body is modified to have the gutter edge structure 4 at the tail end sized and inclined to extend square toward the gutter body 1 for drainage. The arrangement can discharge water in the tank body 1 to a farther position, avoid backflow at the tank body 1 and avoid wetting the area below the gutter.

After two adjacent tank bodies 1 are laminated and arranged, because the tank body 1 is made of rigid materials, an air gap exists on a laminating surface, and a water leakage phenomenon possibly occurs when the water amount is large, the structure of the tank body 1 is optimized to improve the waterproof performance, the optimization scheme is not limited uniquely, and one of the feasible choices is optimized and adopted in the embodiment: diversion edge structure 4 and/or manger plate edge structure 2 include waterproof strip 3, compress waterproof strip 3 when diversion edge structure 4 and manger plate edge structure 2 laminating support tightly in order to seal the laminating clearance. When the scheme is adopted, the waterproof strips 3 can be made of waterproof materials such as flexible rubber.

The groove body 1 is connected with the eave through the connecting water retaining structure 5 and introduces the drainage of the eave into the groove body 1, the connecting water retaining structure 5 disclosed by the embodiment can be optimized, improved and set into various structures, is not limited uniquely, can be set into a structure which inclines upwards and is attached to the bottom surface of the eave in some embodiments, and can also be set into a structure which is hung at a certain position below the eave, and the embodiment is optimized and adopts one of the feasible options: as shown in fig. 3 and 5, the water-blocking structure 5 includes a connecting transition section 501 connected to the tank body 1, and the connecting transition section 501 extends upward and outward relative to the tank body 1; the end of the connecting transition section 501 is connected with a connecting and fixing section 502, and the connecting and fixing section 502 extends downwards and is used for being connected with the vertical edge 6 of the eave.

In order to improve the connection stability of the tank body 1, the present embodiment further optimizes the water blocking structure 5, which is one of the possible solutions: the water blocking connecting structure 5 further comprises a clamping plate 7, the clamping plate 7 comprises a fitting part fitted with the vertical edge 6, and an extending hanging part is arranged at the upper end of the fitting part; the attaching part is attached to the vertical edge 6 and is connected and locked with the connecting and fixing section 502 of the groove body 1 through the locking piece 8, and the extending hanging part is fixedly hung with the eave structure. When the scheme is adopted, the attaching part and the connecting and fixing section 502 clamp the vertical edge 6, so that the vertical edge 6 bears the weight of the tank body 1; meanwhile, the hanging part is extended to be capable of being additionally hung with an eave structure, certain load can be borne, load bearing of the hanging edge 6 is reduced, and the stability and the reliability of installation of the groove body 1 are improved.

The above embodiments are just exemplified in the present embodiment, but the present embodiment is not limited to the above alternative embodiments, and those skilled in the art can obtain other various embodiments by arbitrarily combining with each other according to the above embodiments, and any other various embodiments can be obtained by anyone in light of the present embodiment. The above detailed description should not be construed as limiting the scope of the present embodiments, which should be defined in the claims, and the description should be used for interpreting the claims.

Claims (10)

1. A roofing stainless steel gutter which characterized in that: the gutter piece is mutually overlapped and spliced to form a multi-stage drainage gutter main body; the groove piece comprises a groove body (1), and the size of the notch from the head end to the tail end of the groove body (1) is gradually increased and is in a diffusion shape; the diffusion angles of two adjacent groove pieces are equal, and the outer size of the tail end of the groove body (1) of the groove piece positioned at the front part is equal to the size of the notch at the head end of the groove body (1) of the groove piece positioned at the rear part and is tightly attached to the notch; the water-retaining structure is characterized in that the two sides of the tank body (1) are respectively provided with a connecting water-retaining structure (5), and the connecting water-retaining structures (5) and the tank body (1) are integrally formed and incline to the upper part of the tank body (1).

2. The roofing stainless steel gutter of claim 1, wherein: the diffusion angle of the tank body (1) is 1-1.5 degrees.

3. The roofing stainless steel gutter of claim 1, wherein: the notch shape of the groove body (1) comprises an arc shape and a polygon.

4. The roofing stainless steel gutter of claim 1, wherein: the water-retaining side structure is characterized in that a water-retaining side structure (2) is arranged in the head end of the tank body (1) along a port of the tank body (1) to the tank body (1), the water-retaining side structure (2) extends to the other side of the port from one side of the port of the tank body (1), the shape of the water-retaining side structure (2) is the same as the shape of a notch of the tank body (1), and the water-retaining side structure (2) is attached to and supports the bottom surface of the tank body (1) located in the front portion.

5. The roofing stainless steel gutter of claim 4, wherein: the water retaining side structure (2) and the tank body (1) are integrally formed.

6. The roofing stainless steel gutter of claim 4, wherein: the port of the tail end of cell body (1) be provided with diversion edge structure (4) outward to cell body (1), diversion edge structure (4) extend to the opposite side of port from one side of port, and the shape of diversion edge structure (4) is the same with the notch shape of cell body (1), the groove face of the cell body (1) that the laminating of diversion edge structure (4) is located the rear portion, and when the tail end of two adjacent cell bodies (1) and head end cooperate, diversion edge structure (4) are adjusted the laminating with manger plate edge structure (2) and are constituteed waterproof construction well.

7. The roofing stainless steel gutter of claim 6, wherein: the water leading edge structure (4) and the groove body (1) are integrally formed.

8. The roofing stainless steel gutter of claim 6 or 7, wherein: diversion limit structure (4) and/or manger plate limit structure (2) include waterproof strip (3), compress waterproof strip (3) when diversion limit structure (4) and manger plate limit structure (2) laminating support tightly in order to seal the laminating clearance.

9. The roofing stainless steel gutter of claim 1, wherein: the water-retaining connecting structure (5) comprises a connecting transition section (501) connected with the tank body (1), and the connecting transition section (501) extends upwards and outwards relative to the tank body (1); the tail end of the connecting transition section (501) is connected with a connecting and fixing section (502), and the connecting and fixing section (502) extends downwards and is used for being connected with a vertical edge (6) of an eave.

10. The roofing stainless steel gutter of claim 9, wherein: the water retaining structure (5) further comprises a clamping plate (7), the clamping plate (7) comprises a fitting part fitted with the vertical edge (6), and an extending hanging part is arranged at the upper end of the fitting part; the laminating portion with hang down along (6) laminating and through retaining member (8) and cell body (1) be connected fixed section (502) and lock, extension articulate portion and eave structure articulate fixedly.

Images