A structure of a roof gutter of an antique building

By designing a gutter assembly with detachable inner and outer threaded connections, the problem of poor aesthetics and compatibility of eaves gutter structures in antique buildings is solved, enabling low-cost, adaptable installation and maintenance.

CN117758941BActive Publication Date: 2026-06-23THE FIRST COMPARY OF CHINA EIGHTH ENG BUREAU LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
THE FIRST COMPARY OF CHINA EIGHTH ENG BUREAU LTD
Filing Date
2024-01-04
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing eaves gutter structure is not suitable for antique-style buildings, affecting aesthetics and having poor compatibility. It cannot be adjusted according to the distance from the eaves to the wall, and the overall replacement cost is high.

Method used

The design includes a drip connection component, a fixing component, a side connection component, and a flow guiding component. It adopts a detachable threaded connection between the inner and outer textured tubes. The drip connection component matches the drip tile, and the flow guiding component has an adjustable length to accommodate different distances.

Benefits of technology

It achieves aesthetic compatibility between the eaves gutter structure and the antique-style building, reduces replacement costs, and improves the adaptability and ease of installation of the eaves gutter structure.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the technical field of gutters, in particular to an antique building roof gutter structure, which comprises a water dripping connecting assembly, a fixing assembly, a side connecting assembly and a flow guiding assembly. The water dripping connecting assembly comprises a water dripping sleeve, the water dripping sleeve is arranged between a water dripping tile and an antique building roof beam where the water dripping tile is located through the fixing assembly, upper connecting pipes are fixedly arranged on the left and right sides of the upper end of the water dripping sleeve, lower connecting pipes are fixedly arranged on the left and right sides of the lower end of the water dripping sleeve, the other ends of the upper connecting pipes and the lower connecting pipes are connected with the side connecting assembly, the side connecting assembly comprises side connecting pipes, the upper ends of the side connecting pipes are communicated with the upper connecting pipes and the lower connecting pipes, compared with a traditional gutter structure, the antique building roof eave unique structure is prevented from being affected, the appearance is prevented from being affected, each water dripping tile is independently replaced, the replacement cost is saved, different components can be replaced according to the distance from the eave to the wall, and the compatibility of the gutter structure is improved.
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Description

Technical Field

[0001] This invention relates to the field of eaves gutter technology, specifically to an antique-style building roof eaves gutter structure. Background Technology

[0002] Eaves gutters are a type of rainwater drainage system. They are water collection channels along the eaves of a building, collecting rainwater on one side of the channel and allowing overflowing rainwater to flow outdoors. However, due to the differences in roof structure between antique-style buildings and modern buildings, traditional eaves gutter structures are not suitable. A special eaves gutter structure adapted to the eaves of antique-style buildings is needed. This solution specifically involves the eaves gutter structure for antique-style building roofs.

[0003] Due to the unique roof structure of antique-style buildings, rainwater falling on the roof is channeled down through the tips of the drip tiles. Traditional eaves gutters consist of horizontal troughs installed under the eaves, from which water is then drained to the ground via vertical pipes. Therefore, installing traditional eaves gutters under the eaves of antique-style buildings can negatively impact their aesthetics. Currently, there is no eaves gutter structure specifically designed for the unique eaves of antique-style buildings. Furthermore, existing eaves gutters use a single, integrated horizontal trough design; damage to one end requires replacing the entire trough or repairing the damaged section. Replacing the entire section increases costs, and repairing a single section results in a noticeable difference from the surrounding trough structure, also affecting aesthetics. Additionally, the vertical drainage pipes in existing eaves gutters are also integrated, making them unadjustable based on the distance from the eaves to the wall. Different distances require replacing the entire vertical drainage pipe, resulting in poor compatibility and inconvenience. Summary of the Invention

[0004] The purpose of this invention is to provide an antique-style roof eaves gutter structure to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, the present invention provides the following technical solution: an antique-style building roof gutter structure, comprising: a drip connection component, a fixing component, a side connection component, and a flow guiding component. The drip connection component includes a drip kit, which is installed between the drip tile and the antique-style building roof beam where the drip tile is located via the fixing component. Upper connecting pipes are fixedly installed on both the left and right sides of the upper end of the drip kit, and lower connecting pipes are fixedly installed on both the left and right sides of the lower end. The other ends of the upper and lower connecting pipes are connected to the side connection component.

[0006] The side connection assembly includes a side connection pipe, the upper end of which is connected to the upper connection pipe and the lower connection pipe respectively, and the lower end is connected to the flow guiding assembly.

[0007] Preferably, the upper layer of the water droplet kit is open, and the interior of the water droplet kit is connected to the upper connecting pipe and the lower connecting pipe. Fixing groove 1 is provided on both the left and right sides of the upper inner port of the water droplet kit, and fixing groove 2 is provided on both the left and right side walls of the lower end of the water droplet kit. Limiting groove is provided on the inner wall of the inner end of fixing groove 2.

[0008] Preferably, the fixing assembly includes an upper snap-fit ​​plate and a lower snap-fit ​​plate. The upper end of the upper snap-fit ​​plate is snapped into a fixing groove one. A limiting block is fixedly installed on the inner side of one end of the lower snap-fit ​​plate, and one end of the lower snap-fit ​​plate is inserted into a fixing groove two. At the same time, the limiting block is inserted into a limiting groove. Several fixing holes are provided on one side wall of both the upper and lower snap-fit ​​plates. The upper and lower snap-fit ​​plates are fixed together by bolts and fixing holes. A fixing plate is provided on one side of the lower snap-fit ​​plate. One end of the fixing plate is fixedly installed on the outer side of the lower snap-fit ​​plate, and an elastic plate is fixedly installed on the other end. An ear plate is fixedly installed on the other end of the elastic plate.

[0009] Preferably, one end of the upper connecting pipe is equipped with an upper ring clamp, one side of the outer ring of the upper ring clamp is provided with an upper inner groove, and the inside of the upper inner groove is provided with an upper sealing ring. One end of the lower connecting pipe is equipped with a lower ring clamp, one side of the outer ring of the lower ring clamp is provided with a lower inner groove, and the inside of the lower inner groove is provided with a lower sealing ring. The inner ring of the upper inner groove and the connection point with the upper ring clamp are provided with an annular groove, and the upper inner groove is movably connected to the upper ring clamp through the annular groove.

[0010] Preferably, an upper side bend is installed at the top of the side connecting pipe, a lower side bend is installed at the bottom of the side connecting pipe, and a second side outer bend is installed at the end of the upper side bend, the end of the lower side bend, and the side of the side connecting pipe near the lower inner bend. The upper side bend and the lower side bend are fixedly welded to the side connecting pipe, and the upper inner bend and the lower inner bend are threadedly connected to a side outer bend.

[0011] Preferably, the flow guiding assembly includes a horizontal flow guiding pipe and a vertical flow guiding pipe. Both ends of the horizontal flow guiding pipe are equipped with flow guiding ring clips. The outer ring of the flow guiding ring clip is provided with an inner flow guiding tube, and the inner flow guiding tube is provided with a flow guiding sealing ring. The top end of the vertical flow guiding pipe is equipped with a flow guiding bend, and the end end of the flow guiding bend is equipped with an outer flow guiding tube.

[0012] Preferably, the outer textured tube of the flow guide is threadedly connected to the inner textured tube of the flow guide located at the rear end of the horizontal flow guide tube, and the inner textured tube of the flow guide located at the front end of the horizontal flow guide tube is threadedly connected to the outer textured tube of the side.

[0013] Preferably, the inner and lower inner grooved tubes have the same structure and dimensions as the upper inner grooved tube, the upper and lower sealing rings have the same structure and dimensions as the flow guiding sealing ring, the flow guiding ring clip and the lower ring clip have the same structure and dimensions as the upper ring clip, the outer diameter of the upper sealing ring is equal to the inner diameter of the upper inner grooved tube, and the inner diameters of the upper sealing ring and the upper ring clip are equal.

[0014] Compared with the prior art, the beneficial effects of the present invention are:

[0015] 1. By setting up drip connection components, the installation of individual drip connection components is facilitated by alloy fixing plates. Rainwater is collected and diverted by designing a drip kit with the same shape as the triangular area at the end of the drip tile, so as to avoid affecting the aesthetics of the eaves of the antique building after the installation of the eaves gutter structure.

[0016] 2. By setting the upper inner grooved tube and the upper ring clamp in the drip connection assembly to be ring-locked, and the lower inner grooved tube and the lower clamping ring to be ring-locked, both the upper inner grooved tube and the lower clamping ring can be rotated. In addition, the other parts of the eaves gutter mechanism are also connected by the inner grooved tube and the outer grooved tube through threaded connection, which makes it easy to disassemble and replace the parts independently when they are damaged, saving replacement costs.

[0017] By setting the inner guide tube in the guide assembly to be threadedly connected to one of the outer guide tubes, and the other inner guide tube to be threadedly connected to either the first or second outer guide tube, the guide tube can be disassembled. This makes it easy to replace the guide tube of appropriate length according to the distance from the eaves to the wall of the antique building, thus making the eaves gutter structure more compatible. Attached Figure Description

[0018] Figure 1 This is a schematic diagram showing the connection between the drip connection component and the fixing component of the present invention;

[0019] Figure 2 This is a schematic diagram of the drip connection component structure of the present invention;

[0020] Figure 3 This is a schematic diagram of the fixed component structure of the present invention;

[0021] Figure 4 This is a schematic diagram showing the connection of the drip connection component, the side connection component, and the flow guiding component of the present invention;

[0022] Figure 5 This is a schematic diagram of the drip connection component and the side connection component of the present invention.

[0023] Figure 6 This is a schematic cross-sectional view of the internally textured tube of the present invention;

[0024] Figure 7 This is a schematic diagram of the flow guiding component of the present invention.

[0025] In the diagram: 1. Drip connection assembly; 2. Fixing assembly; 3. Side connection assembly; 4. Flow guiding assembly; 101. Drip kit; 102. Fixing groove one; 103. Upper connecting pipe; 104. Upper ring clamp; 105. Fixing groove two; 106. Upper inner textured tube; 107. Upper sealing ring; 108. Lower connecting pipe; 109. Lower ring clamp; 110. Limiting groove; 111. Lower sealing ring; 112. Lower inner textured tube; 113. Ring groove; 201. Upper snap-fit ​​plate; 2 02. Lower clamping plate; 203. Limiting block; 204. Fixing hole; 205. Fixing plate; 206. Nut; 207. Elastic plate; 208. Ear plate; 301. Side connecting pipe; 302. Upper side bend; 303. Lower side bend; 304. Side external textured pipe; 401. Flow guide horizontal pipe; 402. Flow guide ring clamp; 403. Flow guide internal textured pipe; 404. Flow guide sealing ring; 405. Flow guide external textured pipe; 406. Flow guide bend; 407. Flow guide vertical pipe. Detailed Implementation

[0026] To make the objectives, technical solutions, and advantages of the present invention clear and complete, the embodiments of the present invention will be further described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are only some, not all, embodiments of the present invention, and are merely illustrative of the embodiments of the present invention. They are not intended to limit the embodiments of the present invention. All other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0027] In the description of this invention, it should be noted that the terms "center," "middle," "upper," "lower," "left," "right," "inner," "outer," "top," "bottom," "side," "vertical," and "horizontal," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing the invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the invention. Furthermore, the terms "a," "first," "second," "third," "fourth," "fifth," and "sixth" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0028] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.

[0029] For purposes of simplicity and illustration, the principles of the embodiments are described primarily by way of example. In the following description, numerous specific details are set forth to provide a thorough understanding of the embodiments. However, it will be apparent to those skilled in the art that these embodiments may not be limited to these specific details in practice. In some instances, well-known methods and structures have not been described in detail to avoid unnecessarily obscuring these embodiments. Furthermore, all embodiments can be used in combination with each other.

[0030] Please see Figures 1 to 7 This invention provides a technical solution: an antique-style building roof eaves gutter structure, comprising a drip connection component 1, a fixing component 2, a side connection component 3, and a flow guiding component 4. The drip connection component 1 includes a drip kit 101, the upper end of which is open. Upper connecting pipes 103 are fixedly installed on both the left and right sides of the upper end of the drip kit 101, and lower connecting pipes 108 are fixedly installed on both the left and right sides of the lower end. The other ends of the upper connecting pipes 103 and 108 are connected to the side connection component 3. The interior of the drip kit 101 communicates with the upper connecting pipes 103 and 108. Fixing grooves 102 are provided on both the left and right sides of the upper inner port of the drip kit 101, and fixing grooves 105 are provided on the side walls of both the left and right sides of the lower end of the drip kit 101. Limiting grooves 110 are provided on the inner walls of the inner ends of fixing grooves 105. An upper ring is installed at one end of the upper connecting pipe 103. Card 104, the outer ring of the upper ring card 104 is provided with an upper inner groove tube 106, the upper inner groove tube 106 is provided with an upper sealing ring 107, one end of the lower connecting pipe 108 is installed with a lower ring card 109, the top view of the upper ring card 104 and the lower ring card 109 is T-shaped, the outer ring of the lower ring card 109 is provided with a lower inner groove tube 112, the lower inner groove tube 112 is provided with a lower sealing ring 111, the inner ring of the upper inner groove tube 106 is connected to the upper ring card 109. A groove 113 is provided at the connection of the ring clamp 104. A groove 113 is also provided at the connection of the inner ring of the lower inner groove tube 112 and the lower ring clamp 109. The upper inner groove tube 106 is movably connected to the upper ring clamp 104 through the groove 113. The lower inner groove tube 112 is movably connected to the lower ring clamp 109 through the groove 113. The upper inner groove tube 106 is clamped to the outside of the upper connecting tube 103, and the lower inner groove tube 112 is clamped to the outside of the lower connecting tube 108.

[0031] The water droplet kit 101 is installed between the drip tiles and the roof beams of the antique-style building by means of the fixing component 2. The fixing component 2 includes an upper snap-fit ​​plate 201 and a lower snap-fit ​​plate 202. The upper end of the upper snap-fit ​​plate 201 is snapped into the fixing groove 102. A limiting block 203 is fixedly installed on the inner side of one end of the lower snap-fit ​​plate 202, and one end of the lower snap-fit ​​plate 202 is inserted into the fixing groove 205. At the same time, the limiting block 203 is inserted into the limiting groove 110. Several fixing holes 204 are opened on the side wall of one end of the upper snap-fit ​​plate 201 and the lower snap-fit ​​plate 202. The upper snap-fit ​​plate 201 and the lower snap-fit ​​plate 202 are fixed by bolts and fixing holes 204. The distance between the upper snap-fit ​​plate 201 and the lower snap-fit ​​plate 202 can be adjusted by using bolts and different fixing holes 204, which makes it easy to fix water droplet kits 101 of different sizes.

[0032] A fixing plate 205 is provided on one side of the lower snap-fit ​​plate 202. One end of the fixing plate 205 is fixedly installed on the outer side of the lower snap-fit ​​plate 202, and an elastic plate 207 is fixedly installed on the other end. An ear plate 208 is fixedly installed on the other end of the elastic plate 207. Several bolt holes are provided on the side walls of both the ear plate 208 and the fixing plate 205. Nuts 206 are fixedly welded to the inner side walls of the bolt holes on the fixing plate 205. By snapping the upper end of the upper snap-fit ​​plate 201 into the fixing groove 102 at the upper end of the teardrop kit 101, one end of the lower snap-fit ​​plate 202 and the limiting block 203 are respectively inserted into the fixing groove 105 and the limiting groove 110, and then... By passing bolts through the fixing holes 204 on the upper clamping plate 201 and the lower clamping plate 202, the upper clamping plate 201 and the lower clamping plate 202 are fixed to one side of the drip kit 101. In use, the drip kit 101 in the drip connection assembly 1 is placed outside the inverted triangular area at the front end of the drip tile of the antique building roof. Then, one end of the elastic plate 207 is inserted between the drip tile and the roof beam of the antique building where the drip tile is located, and the elastic plate 207 is bent. Then, a long bolt is passed through the ear plate 208 and threadedly connected with the nut 206, so that the drip connection assembly is hung on the roof beam of the antique building, thus completing the installation of a single drip connection assembly 1.

[0033] The side connection assembly 3 includes a side connection tube 301. An upper side bend 302 is installed at the top end of the side connection tube 301, and a lower side bend 303 is installed at the bottom end of the side connection tube 301. A side outer bend 304 is installed at the end of the upper side bend 302, the end of the lower side bend 303, and the side of the side connection tube 301 near the lower inner bend 112. The upper side bend 302 and the lower side bend 303 are fixedly welded to the side connection tube 301. The upper inner bend 106 and the lower inner bend 112 are threadedly connected to a side outer bend 304 respectively.

[0034] To facilitate the disassembly and installation of the side connection assembly 3, the upper side bend 302 and the lower side bend 303 are both fixedly welded to the side connection pipe 301. The upper inner grooved pipe 106 and the lower inner grooved pipe 112 are respectively threaded to a side outer grooved pipe 304. When installing and disassembling the side connection assembly 3, simply rotate the upper inner grooved pipe 106 and the lower inner grooved pipe 112.

[0035] The flow guiding assembly 4 includes a flow guiding horizontal tube 401 and a flow guiding vertical tube 407. Both ends of the flow guiding horizontal tube 401 are equipped with flow guiding rings 402. The outer ring of the flow guiding rings 402 is provided with a flow guiding inner textured tube 403. The inside of the flow guiding inner textured tube 403 is provided with a flow guiding sealing ring 404. The top end of the flow guiding vertical tube 407 is equipped with a flow guiding bend 406. The end of the flow guiding bend 406 is equipped with a flow guiding outer textured tube 405. The flow guiding outer textured tube 405 is threadedly connected to the flow guiding inner textured tube 403 located at the rear end of the flow guiding horizontal tube 401. The flow guiding inner textured tube 403 located at the front end of the flow guiding horizontal tube 401 is threadedly connected to the side outer textured tube 304.

[0036] To ensure the connection between the inner and outer textured tubes and to guarantee the sealing performance after the connection, the inner textured tube 403 and the lower inner textured tube 112 have the same structure and dimensions as the upper inner textured tube 106. The upper sealing ring 107, the lower sealing ring 111, and the flow guiding sealing ring 404 have the same structure and dimensions. The flow guiding ring clip 402 and the lower ring clip 109 have the same structure and dimensions as the upper ring clip 104. The outer diameter of the upper sealing ring 107 is equal to the inner diameter of the upper inner textured tube 106, and the inner diameters of the upper sealing ring 107 and the upper ring clip 104 are equal.

[0037] In use, the dripping fitting 101 in the dripping connection component 1 is placed outside the inverted triangular area at the front end of the dripping tile of the antique building roof. Then, one end of the elastic plate 207 is inserted between the dripping tile and the roof beam of the antique building where the dripping tile is located, and the elastic plate 207 is bent. Then, the long bolt is passed through the ear plate 208 and threadedly connected with the nut 206, so that the dripping connection component is hung on the roof beam of the antique building, thus completing the installation of a single dripping connection component 1.

[0038] When installing the side connection assembly 3, in order to facilitate the disassembly and installation of the side connection assembly 3, the upper side bend 302 and the lower side bend 303 are fixedly welded to the side connection pipe 301. The upper inner threaded pipe 106 and the lower inner threaded pipe 112 are respectively threaded to a side outer threaded pipe 304. When installing and disassembling the side connection assembly 3, simply rotate the upper inner threaded pipe 106 and the lower inner threaded pipe 112.

[0039] When installing the flow guiding assembly 4, first select a suitable length of horizontal flow guiding pipe 401 based on the distance between the eaves and the wall. Then, connect the horizontal flow guiding pipe 401 to the external flow guiding pipe 405 via the internal flow guiding pipe 403 at its rear end. Rotate and tighten the internal flow guiding pipe 403 to complete the connection between the horizontal flow guiding pipe 401 and the vertical flow guiding pipe 407. Connect the two internal flow guiding pipes 403 at the front end of the two flow guiding assemblies 4 to the external flow guiding pipe 304 at the end of the lower side bend 303. Then, rotate and tighten the two internal flow guiding pipes 403 to complete the flow guiding assembly. After installing component 4, fix the external pipe fixing ring to the guide vertical pipe 407. Finally, paint the water droplet kit 101 with textured paint of the same color as the drip tile. Paint the exposed parts of the eaves gutter structure other than the water droplet kit 101 with textured paint of the same color as the roof beam under the eaves. The guide vertical pipe 407 is painted with textured paint of the same color as the antique building wall. When a component in the eaves gutter structure is damaged, the damaged component can be replaced by rotating and loosening the corresponding inner grooved pipe to detach it from the outer grooved pipe.

[0040] When the amount of rainwater is small on rainy days, the rainwater from the roof of the antique building flows into the drip tile along the triangular area into the drip kit 101, and then flows down the inner pipe 112 through the lower connecting pipe 108 in the drip kit 101. After that, the rainwater flows into the lower connecting pipe 108 in the side connecting component 3, and then flows into the guide component 4 through the side connecting component 3. The rainwater flows into the guide vertical pipe 407 through the guide horizontal pipe 401, and finally flows to the ground through the guide vertical pipe 407.

[0041] When the amount of rainwater is large on a rainy day, the amount of rainwater entering the water droplet assembly 101 is also large. At this time, when the rainwater height reaches the position of the upper connecting pipe 103, the rainwater below the lowest point of the inner diameter of the upper connecting pipe 103 flows through the lower connecting pipe 108, and the rainwater above the lowest point of the inner diameter of the upper connecting pipe 103 flows through the upper connecting pipe 103 towards the upper inner grooved pipe 106 and the lower inner grooved pipe 112. Then the rainwater flows into the side connecting assembly 3 and finally flows into the guide assembly 4 to be guided to the ground.

[0042] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A roof eaves gutter structure for an antique-style building, characterized in that: include: The drip connection assembly (1), the fixing assembly (2), the side connection assembly (3) and the flow guiding assembly (4) are provided. The drip connection assembly (1) includes a drip kit (101). The drip kit (101) is installed between the drip tile and the roof beam of the antique building where the drip tile is located through the fixing assembly (2). The upper connecting pipe (103) is fixedly installed on both the left and right sides of the upper end of the drip kit (101), and the lower connecting pipe (108) is fixedly installed on both the left and right sides of the lower end. The other ends of the upper connecting pipe (103) and the lower connecting pipe (108) are connected to the side connection assembly (3). The side connection assembly (3) includes a side connection pipe (301), the upper end of which is connected to the upper connection pipe (103) and the lower connection pipe (108) respectively, and the lower end is connected to the flow guide assembly (4); The upper layer of the water droplet kit (101) is open, and the interior of the water droplet kit (101) is connected to the upper connecting pipe (103) and the lower connecting pipe (108). Fixing groove 1 (102) is provided on both the left and right sides of the upper inner port of the water droplet kit (101), and fixing groove 2 (105) is provided on both the left and right side walls of the lower end of the water droplet kit (101). Limiting groove (110) is provided on the inner wall of the inner end of fixing groove 2 (105). The fixing component (2) includes an upper snap-fit ​​plate (201) and a lower snap-fit ​​plate (202). The upper end of the upper snap-fit ​​plate (201) is snapped into the first fixing groove (102). A limiting block (203) is fixedly installed on the inner side of one end of the lower snap-fit ​​plate (202), and one end of the lower snap-fit ​​plate (202) is inserted into the second fixing groove (105). At the same time, the limiting block (203) is inserted into the limiting groove (110). The upper snap-fit ​​plate (201) and the lower snap-fit ​​plate (202) are fixed into the first fixing groove (105). Several fixing holes (204) are provided on one side wall of each plate. The upper snap-fit ​​plate (201) and the lower snap-fit ​​plate (202) are fixed by bolts and fixing holes (204). A fixing plate (205) is provided on one side of the lower snap-fit ​​plate (202). One end of the fixing plate (205) is fixedly installed on the outside of the lower snap-fit ​​plate (202), and an elastic plate (207) is fixedly installed on the other end. An ear plate (208) is fixedly installed on the other end of the elastic plate (207). One end of the upper connecting pipe (103) is equipped with an upper ring clamp (104), and an upper inner groove tube (106) is provided on one side of the outer ring of the upper ring clamp (104). An upper sealing ring (107) is provided inside the upper inner groove tube (106). One end of the lower connecting pipe (108) is equipped with a lower ring clamp (109), and a lower inner groove tube (112) is provided on one side of the outer ring of the lower ring clamp (109). A lower sealing ring (111) is provided inside the lower inner groove tube (112). An annular groove (113) is provided at the connection between the inner ring of the upper inner groove tube (106) and the upper ring clamp (104). The upper inner groove tube (106) is movably connected to the upper ring clamp (104) through the annular groove (113).

2. The antique-style building roof eaves gutter structure according to claim 1, characterized in that: The top end of the side connecting pipe (301) is equipped with an upper side bend (302), and the bottom end of the side connecting pipe (301) is equipped with a lower side bend (303). The ends of the upper side bend (302), the ends of the lower side bend (303), and the side of the side connecting pipe (301) near the lower inner bend (112) are all equipped with a second side outer bend (304). The upper side bend (302) and the lower side bend (303) are fixedly welded to the side connecting pipe (301). The upper inner bend (106) and the lower inner bend (112) are threadedly connected to a second side outer bend (304).

3. The antique-style building roof eaves gutter structure according to claim 2, characterized in that: The flow guiding assembly (4) includes a flow guiding horizontal tube (401) and a flow guiding vertical tube (407). Both ends of the flow guiding horizontal tube (401) are equipped with flow guiding ring clips (402). The outer ring of the flow guiding ring clip (402) is provided with a flow guiding inner textured tube (403). The inside of the flow guiding inner textured tube (403) is provided with a flow guiding sealing ring (404). The top end of the flow guiding vertical tube (407) is equipped with a flow guiding bend (406), and the end of the flow guiding bend (406) is equipped with a flow guiding outer textured tube (405).

4. The antique-style building roof eaves gutter structure according to claim 3, characterized in that: The outer textured tube (405) is threadedly connected to the inner textured tube (403) located at the rear end of the horizontal tube (401), and the inner textured tube (403) located at the front end of the horizontal tube (401) is threadedly connected to the second outer textured tube (304).

5. The antique-style building roof eaves gutter structure according to claim 3, characterized in that: The inner grooved tube (403) and the lower grooved tube (112) have the same structure and size as the upper grooved tube (106). The upper sealing ring (107), the lower sealing ring (111), and the flow guiding sealing ring (404) have the same structure and size. The flow guiding ring clip (402) and the lower ring clip (109) have the same structure and size as the upper ring clip (104). The outer diameter of the upper sealing ring (107) is equal to the inner diameter of the upper grooved tube (106). The inner diameters of the upper sealing ring (107) and the upper ring clip (104) are equal.