CN221941776U - House roof drainage structure - Google Patents

Abstract

The utility model discloses a house roof drainage structure, which comprises: the house comprises a house body, wherein a herringbone roof is fixed at the top end of the house body, a drainage plate is fixed at the edge position of the herringbone roof, and a drainage groove is formed in the top end of the drainage plate; the impurity removing component is arranged at one end of the herringbone roof and at a position corresponding to the drain board and is used for filtering impurities; the water storage component is arranged at the lower position of the impurity removal component and used for collecting rainwater. According to the house roof drainage structure, due to the matching structural design of the impurity removal assembly and the water storage assembly, rainwater can be effectively filtered, so that the drain pipe is prevented from being blocked due to other impurities or leaves, the drainage efficiency is improved, meanwhile, the rainwater can be filtered and recovered, the structure can be used in other aspects, the waste of water resources is avoided, and the practicability of the device is improved.

Description

A drainage structure for a roof of a house

Technical Field

The utility model relates to the technical field related to roof drainage, in particular to a house roof drainage structure.

Background Art

In order to collect rainwater from the roof, many roof rainwater collection devices have appeared in the prior art, which can flow the roof rainwater along the drainage pipe into the collection box for filtering and storage for use.

For example, a Chinese utility model patent (CN211665846U) discloses a novel roof rainwater utilization system, which records: "By arranging a water storage device on the roof to collect rainwater falling on the roof on rainy days, and watering the plants around the house at an appropriate time, the purpose of saving water is achieved, and the rainwater falling on the roof is prevented from being directly discharged to the ground or the rainwater network through the rainwater pipe, and then discharged to the municipal network, increasing the drainage pressure of the municipal network", and it also records; "Rainwater falling on the hard roof is directly discharged to the ground or the rainwater network through the rainwater pipe, and then discharged to the municipal network, increasing the drainage pressure of the municipal network. This not only fails to reduce the runoff increment after urban development from the source, but also is a huge waste of rainwater."

In summary, it can be seen that the following technical problems exist in the prior art: Since roof rainwater is generally mixed with impurities such as leaves, the roof rainwater directly flows into the collection box along the drain pipe. Impurities such as leaves can easily cause blockage in the drain pipe, affecting the drainage efficiency of the drain pipe. For this reason, the present application proposes a roof drainage structure for a house, which provides a new technical solution to solve the technical problems mentioned in the above patents.

Utility Model Content

Based on this, it is necessary to provide a roof drainage structure for a house in response to the above-mentioned technical problems. Through the coordinated structural design of the debris removal component and the water storage component, rainwater can be effectively filtered, thereby avoiding blockage of the drain pipe due to other debris or leaves, affecting the drainage efficiency, and improving the drainage efficiency. At the same time, rainwater can be filtered and recovered and can be used for other purposes, thereby avoiding waste of water resources and improving the practicability of the device.

In order to solve the above technical problems, the utility model adopts the following technical solutions:

The invention discloses a house roof drainage structure, which is applied to house roof drainage.

The house roof drainage structure specifically includes:

A building body, wherein a gable roof is fixed on the top of the building body, a drainage board is fixed at the edge of the gable roof, and a drainage groove is opened on the top of the drainage board;

A debris removal component, which is arranged at one end of the gable roof and at a position corresponding to the drain plate, and is used to filter impurities;

A water storage component is arranged below the impurity removal component and is used for collecting rainwater.

As a preferred embodiment of the house roof drainage structure provided by the utility model, the debris removal component includes a debris removal box, which is arranged at one end of the gable roof and at a position corresponding to the drainage board, and the debris removal box is fixedly connected to the gable roof, water inlets are opened on both sides of the debris removal box and at positions corresponding to the drainage board, a collecting box is slidably connected to the inner side of the debris removal box and at a position corresponding to the water inlet, a first partition is vertically arranged on the inner side of the debris removal box, and a water outlet cavity is opened on the inner side of one end of the debris removal box away from the collecting box.

As a preferred embodiment of the house roof drainage structure provided by the utility model, a first handle is fixed to a side of the collection box away from the debris removal box.

As a preferred embodiment of the house roof drainage structure provided by the utility model, the water storage assembly includes a water tank, the water tank is arranged at a position below the impurity removal box, the water tank is connected to the impurity removal box through a drainage pipe, the drainage pipe extends to the inner side of the water outlet cavity, a second partition is vertically arranged on the inner side of the water tank, the second partition is fixedly connected to the water tank, a first filter plate is fixedly connected to the top end of the second partition, the first filter plate is fixedly connected to the water tank, and a filter assembly is arranged on the inner side of the water tank located on one side of the second partition.

As a preferred embodiment of the house roof drainage structure provided by the utility model, the filter assembly includes a second filter plate, the second filter plate is laterally arranged at the inner side of the water tank, fixed blocks are fixed on both sides of the second filter plate, a slide rail is fixed at the inner side of the water tank and at a position corresponding to the fixed block, the fixed block is slidably connected to the slide rail, a plug-in groove is provided on the outer side of one end of the fixed block close to the water tank, and a plug-in assembly is provided at the position of the slide rail corresponding to the plug-in groove.

As a preferred embodiment of the house roof drainage structure provided by the utility model, the plug-in assembly includes a plug-in block, which is laterally arranged on the inner side of the slide rail and at a position corresponding to the plug-in slot, and the plug-in block is plug-connected to the fixed block through the plug-in slot, and a spring is fixed to one end of the plug-in block away from the fixed block, and one end of the spring away from the fixed block is fixedly connected to the slide rail.

As a preferred embodiment of the house roof drainage structure provided by the utility model, a second handle is fixed to one end of the second filter plate away from the water tank, and a waterproof pad is fixed to the inner side of the second filter plate close to the second handle.

Compared with the prior art, the utility model has the following beneficial effects:

The house roof drainage structure provided by the utility model can effectively filter rainwater through the coordinated structural design of the debris removal component and the water storage component, thereby avoiding clogging of the drainage pipe due to other debris or leaves, affecting the drainage efficiency, and improving the drainage efficiency. At the same time, the rainwater can be filtered and recovered and can be used for other purposes, thereby avoiding the waste of water resources and improving the practicability of the device.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the scheme in the utility model, a brief introduction is given below to the drawings required for use in the description of the embodiments. Obviously, the drawings described below are some embodiments of the utility model. For ordinary technicians in this field, other drawings can be obtained based on these drawings without paying creative work.

FIG1 is a schematic diagram of the overall structure of a house roof drainage structure provided by the utility model;

FIG2 is a schematic structural diagram of a debris removal assembly of a house roof drainage structure provided by the utility model;

FIG3 is a schematic structural diagram of a water storage assembly of a house roof drainage structure provided by the utility model;

FIG4 is a schematic structural diagram of the second filter plate of the house roof drainage structure provided by the utility model;

FIG5 is a schematic structural diagram of a plug-in assembly of a house roof drainage structure provided by the utility model;

FIG6 is a schematic structural diagram of a waterproof pad for a house roof drainage structure provided by the utility model.

The markings in the figure are as follows:

1. House body; 2. Gable roof; 3. Drain board; 4. Debris removal component; 5. Water storage component; 6. Debris removal box; 7. Water inlet; 8. Collection box; 9. First handle; 10. First partition; 11. Water outlet chamber; 12. Water storage tank; 13. Second partition; 14. First filter plate; 15. Slide rail; 16. Second filter plate; 17. Second handle; 18. Water outlet; 19. Fixed block; 20. Plug-in slot; 21. Plug-in block; 22. Spring; 23. Waterproof pad.

DETAILED DESCRIPTION

In order to enable those skilled in the art to better understand the solution of the utility model, the technical solution in the embodiment of the utility model will be clearly and completely described below in conjunction with the drawings in the embodiment of the utility model. Obviously, the described embodiment is only a part of the embodiment of the utility model, not all of the embodiments. Based on the embodiment of the utility model, all other embodiments obtained by ordinary technicians in this field without creative work should fall within the scope of protection of the utility model.

As described in the background art, since roof rainwater is generally mixed with impurities such as leaves, the roof rainwater directly flows into the collection box along the drainage pipe. Impurities such as leaves can easily clog the drainage pipe, affecting the drainage efficiency of the drainage pipe.

In order to solve this technical problem, the utility model provides a house roof drainage structure, which is applied to house roof drainage.

Specifically, please refer to Figures 1 to 6, the house roof drainage structure specifically includes:

A house body 1, a gable roof 2 is fixed on the top of the house body 1, a drainage board 3 is fixed at the edge of the gable roof 2, and a drainage groove is opened on the top of the drainage board 3;

The impurity removal component 4 is arranged at one end of the gable roof 2 and at a position corresponding to the drainage board 3, and is used to filter impurities;

The water storage component 5 is arranged below the impurity removal component 4 and is used for collecting rainwater.

The house roof drainage structure provided by the utility model can effectively filter rainwater through the coordinated structural design of the debris removal component 4 and the water storage component 5, thereby avoiding clogging of the drainage pipe due to other debris or leaves, affecting the drainage efficiency, and improving the drainage efficiency. At the same time, the rainwater can be filtered and recovered and can be used for other purposes, thereby avoiding the waste of water resources and improving the practicality of the device.

It should be noted that similar reference numerals and letters denote similar items in the following drawings, and therefore, once an item is defined in one drawing, further definition and explanation thereof is not required in subsequent drawings.

Embodiment 1:

Please refer to Figures 1-2, a house roof drainage structure, which includes: a house body 1, a gable roof 2 is fixed on the top of the house body 1, a drainage board 3 is fixed at the edge of the gable roof 2, and a drainage groove is opened on the top of the drainage board 3;

The impurity removal component 4 is arranged at one end of the gable roof 2 and at a position corresponding to the drainage board 3, and is used to filter impurities;

Wherein, the impurity removal component 4 includes an impurity removal box 6, which is arranged at one end of the gable roof 2 and at a position corresponding to the drain plate 3, and the impurity removal box 6 is fixedly connected to the gable roof 2. Water inlets 7 are provided on both sides of the impurity removal box 6 and at positions corresponding to the drain plate 3, so that rainwater can enter the impurity removal box 6. A collecting box 8 is slidably connected to the inner side of the impurity removal box 6 and at a position corresponding to the water inlet 7, so that impurities entering the impurity removal box 6 can be collected through the collecting box 8. A first partition plate 10 is vertically arranged on the inner side of the impurity removal box 6, and a water outlet cavity 11 is provided on the inner side of one end of the impurity removal box 6 away from the collecting box 8 so that it can be separated through the inside of the impurity removal box 6, and the rainwater after impurities are removed flows out to the inside of the water outlet cavity 11 through the top of the first partition plate 10;

Specifically, a first handle 9 is fixed to a side of the collection box 8 away from the impurity removal box 6 , so that the collection box 8 can be easily taken out by pulling the first handle 9 .

It can be seen that when it rains, rainwater flows into the drainage groove of the drainage board 3 through the slope surface of the gable roof 2, and the large-mass impurities are discharged into the interior of the impurity removal box 6 through the drainage groove, and then enter the inner side of the collection box 8. The large-mass impurities can enter the collection box 8 for sedimentation, and then flow into the water outlet cavity 11 through the top of the first partition 10, and then be discharged to the outside of the impurity removal box 6 through the discharge pipe, so as to complete the collection and filtration of the large-mass impurities. The operator pulls the first handle 9, so that the collection box 8 is taken out from the inside of the impurity removal box 6 by the first handle 9, and the impurities settled on the inside of the collection box 8 can be taken out, and then the collection box 8 can be put back into the inner side of the impurity removal box 6, so that the large-mass impurities can be effectively collected and filtered, avoiding blockage of the drainage pipe, affecting the drainage efficiency, and improving the practicality of the device.

Embodiment 2:

The house roof drainage structure provided in Example 1 is further optimized. Specifically, as shown in FIG. 3 to FIG. 6 , a water storage component 5 is provided below the impurity removal component 4 to collect rainwater.

The water storage component 5 includes a water storage tank 12, which is arranged at a lower position of the impurity removal box 6. The water storage tank 12 is connected to the impurity removal box 6 through a drainage pipe, and the drainage pipe extends to the inner side of the water outlet chamber 11. A second partition 13 is vertically arranged on the inner side of the water storage tank 12, and the second partition 13 is fixedly connected to the water storage tank 12. A first filter plate 14 is fixed on the top of the second partition 13, so that the first filter plate 14 can prevent rainwater from splashing into the other side of the second partition 13 when it falls into the water storage tank 12. The first filter plate 14 is fixedly connected to the water storage tank 12, and a filter assembly is arranged on the inner side of the water storage tank 12 on one side of the second partition 13, so that fine impurities and floating objects in the rainwater can be filtered through the filter assembly;

Specifically, the filter assembly includes a second filter plate 16, which is laterally arranged at the inner side of the water storage tank 12, and fixed blocks 19 are fixed on both sides of the second filter plate 16. A slide rail 15 is fixed at a position corresponding to the fixed block 19 on the inner side of the water storage tank 12, so that the second filter plate 16 can be limited by the fixed block 19 and the slide rail 15, and the fixed block 19 is slidably connected to the slide rail 15. A plug-in groove 20 is opened on the outer side of one end of the fixed block 19 close to the water storage tank 12, and the slide rail 15 and the plug-in groove 20 are connected. A plug-in assembly is provided at a corresponding position, and the fixed block 19 can be limited by the plug-in assembly to prevent the fixed block 19 from sliding out from the inner side of the water storage tank 12; wherein, a second handle 17 is fixed to one end of the second filter plate 16 away from the water storage tank 12, so that the second filter plate 16 can be moved by pulling the second handle 17, and a waterproof pad 23 is fixed to the inner side of the side of the second filter plate 16 close to the second handle 17, so that the waterproof pad 23 can prevent rainwater from flowing out from the gap between the second filter plate 16 and the water storage tank 12;

Furthermore, the plug-in assembly includes a plug-in block 21, which is laterally arranged on the inner side of the slide rail 15 and at a position corresponding to the plug-in slot 20. The plug-in block 21 is plug-connected to the fixed block 19 through the plug-in slot 20. A spring 22 is fixed to one end of the plug-in block 21 away from the fixed block 19, and one end of the spring 22 away from the fixed block 19 is fixedly connected to the slide rail 15.

With the above-mentioned structural design, when rainwater enters the inner side of the water storage tank 12 from the impurity removal box 6 through the drainage pipe, the rainwater will first fall into the inner side of the end of the water storage tank 12 away from the second filter plate 16. In the process of the rainwater reaching the first filter plate 14, some impurities will be precipitated. Then, when the rainwater reaches the first filter plate 14, the first filter plate 14 can effectively block the floating objects to prevent them from entering the other side. Then, when the rainwater flows into the second filter plate 16, the second filter plate 16 can filter the rainwater more finely, thereby improving the purity of the rainwater. Finally, the rainwater in the water storage tank 12 is discharged through the water outlet 18. When replacing or cleaning, first pull the second handle 17 in the direction away from the water storage tank 12, so that the second handle 17 drives the fixing block 19 to move through the second filter plate 16. When the fixing block 19 moves, it squeezes the plug-in block 21 so that the plug-in block 21 moves toward the direction close to the spring 22. When the spring 22 is disengaged from the plug-in slot 20, the spring 22 cancels the limit on the fixing block 19, and the fixing block 19 can be slid from the inner side of the slide rail 15, so that the second filter plate 16 can be taken out. When installing, the reverse operation can be performed, so that the rainwater can be effectively filtered and recovered, and can be used for other purposes, thereby avoiding the waste of water resources and improving the practicality of the device.

The use process of the house roof drainage structure provided by the utility model is as follows: when it rains, rainwater flows into the drainage groove of the drainage board 3 through the slope surface of the gable roof 2, and the impurities containing large mass are discharged into the interior of the debris removal box 6 through the drainage groove, and then enter the inner side of the collection box 8. The large mass of debris can enter the interior of the collection box 8 for sedimentation, and then flow into the interior of the water outlet cavity 11 through the top of the first partition plate 10, and then be discharged to the outside of the debris removal box 6 through the discharge pipe, so as to complete the collection and filtration of the large mass of impurities. The operator pulls the first handle 9 so that the collection box 8 is taken out from the inner side of the debris removal box 6 by the first handle 9, and the impurities deposited in the inner side of the collection box 8 can be taken out, and then the collection box 8 can be put back into the inner side of the debris removal box 6. When the rainwater enters the inner side of the water storage tank 12 from the debris removal box 6 through the drainage pipe, the rainwater will first fall into the inner side of the end of the water storage tank 12 away from the second filter plate 16, and when the height of the rainwater reaches the first filter In the process of filtering the first filter plate 14, some impurities will be precipitated. Then, when the height of rainwater reaches the first filter plate 14, the first filter plate 14 can effectively block the floating objects and prevent them from entering the other side. Then, when it flows into the second filter plate 16, the second filter plate 16 can filter the rainwater more finely, thereby improving the purity of the rainwater. Finally, the rainwater in the water storage tank 12 is discharged through the water outlet 18. When the second filter plate 16 is to be replaced or cleaned, first pull the second handle 17 in the direction away from the water storage tank 12, so that the second handle 17 drives the fixed block 19 to move through the second filter plate 16. When the fixed block 19 moves, it will squeeze the plug-in block 21 so that the plug-in block 21 moves in the direction close to the spring 22. When the spring 22 is disengaged from the plug-in slot 20, the spring 22 cancels the limit on the fixed block 19, and the fixed block 19 can be slid from the inside of the slide rail 15, thereby taking out the second filter plate 16. The reverse operation can be performed when installing.

Claims (3)

1. A house roof drainage structure, characterized in that it comprises: A building body (1), wherein a gable roof (2) is fixed on the top of the building body (1), a drainage board (3) is fixed at the edge of the gable roof (2), and a drainage groove is provided on the top of the drainage board (3); An impurity removal component (4), which is arranged at one end of the gable roof (2) and at a position corresponding to the drainage board (3) and is used to filter impurities; A water storage component (5), the water storage component (5) being arranged below the impurity removal component (4) and being used for collecting rainwater; The debris removal component (4) comprises a debris removal box (6), the debris removal box (6) being arranged at one end of the gable roof (2) and at a position corresponding to the drain plate (3), the debris removal box (6) being fixedly connected to the gable roof (2), water inlets (7) being provided on both sides of the debris removal box (6) and at positions corresponding to the drain plate (3), a collection box (8) being slidably connected to the inner side of the debris removal box (6) and at a position corresponding to the water inlet (7), a first partition plate (10) being vertically arranged on the inner side of the debris removal box (6), and a water outlet cavity (11) being provided on the inner side of one end of the debris removal box (6) away from the collection box (8); The water storage assembly (5) comprises a water storage tank (12), the water storage tank (12) is arranged at a position below the impurity removal box (6), the water storage tank (12) is connected to the impurity removal box (6) through a drainage pipe, the drainage pipe extends to the inside of the water outlet chamber (11), a second partition plate (13) is vertically arranged inside the water storage tank (12), the second partition plate (13) is fixedly connected to the water storage tank (12), a first filter plate (14) is fixedly connected to the top of the second partition plate (13), and the first filter plate (14) is fixedly connected to the water storage tank (12), and a filter assembly is arranged on the inner side of the water storage tank (12) located on one side of the second partition plate (13); The filter assembly comprises a second filter plate (16), the second filter plate (16) being arranged transversely at an inner position of the water storage tank (12), a fixing block (19) being fixed on both sides of the second filter plate (16), a slide rail (15) being fixed at a position inside the water storage tank (12) and corresponding to the fixing block (19), the fixing block (19) being slidably connected to the slide rail (15), a plug-in groove (20) being provided on the outer side of one end of the fixing block (19) close to the water storage tank (12), and a plug-in assembly being provided at a position of the slide rail (15) corresponding to the plug-in groove (20); The plug-in assembly comprises a plug-in block (21), the plug-in block (21) being transversely arranged on the inner side of the slide rail (15) and at a position corresponding to the plug-in slot (20), the plug-in block (21) being plug-connected with the fixed block (19) via the plug-in slot (20), a spring (22) being fixed to one end of the plug-in block (21) away from the fixed block (19), and the end of the spring (22) away from the fixed block (19) being fixedly connected to the slide rail (15). 2. The house roof drainage structure according to claim 1, characterized in that a first handle (9) is fixed to a side of the collection box (8) away from the debris removal box (6). 3. The house roof drainage structure according to claim 1 is characterized in that a second handle (17) is fixed to one end of the second filter plate (16) away from the water storage tank (12), and a waterproof pad (23) is fixed to the inner side of the second filter plate (16) close to the second handle (17).