CN219491514U - Gutter rain bucket - Google Patents

Abstract

The utility model relates to a gutter rain bucket, which comprises a rain bucket body, a gutter connecting part used for being connected with a gutter and a riser connecting part used for being connected with a riser, wherein the gutter connecting part and the riser connecting part are both communicated with an inner cavity of the rain bucket body, an emission increasing partition plate is arranged in the inner cavity of the rain bucket body, the emission increasing partition plate divides the inner cavity of the rain bucket body into an emission increasing cavity and a general emission cavity, the general emission cavity is communicated with the gutter connecting part and the riser connecting part, the emission increasing cavity is communicated with the riser connecting part, a partition net is arranged in the general emission cavity, and a screen is arranged in the emission increasing cavity. According to the scheme, the drainage increasing cavity is additionally arranged in the rainwater hopper, so that rainwater can be discharged from the drainage increasing cavity when the water level in the rainwater hopper rises to the screen cloth overflowing the top of the drainage increasing cavity. When the partition leaf net is blocked, the water level in the rainwater hopper can be controlled at the height which is flush with the screen of the row increasing cavity, so that the maximum load of the cornice supporting accessory is reduced, the risk of supporting the accessory can be reduced, and the service life of the supporting accessory can be prolonged.

Description

Gutter rain bucket

Technical Field

The utility model relates to the technical field of building materials, in particular to a gutter rain bucket.

Background

The eaves gutter is the water catch bowl on the eaves edge, and when raining, the rainwater on the eaves flows to the eaves inslot, connects through the riser again and draws ground, and the rainwater fill on the eaves gutter is used for connecting eaves gutter and riser. In general, in order to prevent leaves or other impurities from entering the vertical pipe to cause the vertical pipe to be blocked, a leaf-separating net is arranged at the rainwater inlet of the rainwater hopper to prevent the leaves or other impurities from entering the vertical pipe. However, leaves or other debris that fall in the gutter during rain will accumulate on the mesh under the dual action of gravity and water flow, and if they are not cleaned in time, they will clog the mesh, affecting the normal drainage of rain in the gutter. Especially during heavy rain, when the partition leaf net is blocked, rainwater in the eaves gutter can not be discharged in time, and the eaves gutter is in full flow state for a long time, and unnecessary rainwater in the eaves gutter can overflow through the eaves gutter top after full flow, can cause the erosion to the building wall body next to the eaves gutter. In addition, can increase the weight of eaves gutter after the rainwater is full of in the eaves gutter for bear the load increase of the support accessory of eaves gutter, if support accessory is in the operating condition of big load for a long time, can increase the working risk of support accessory, influence the life who supports the accessory.

Disclosure of Invention

The utility model provides a gutter rainwater hopper for solving the problem that in the prior art, rainwater in a gutter cannot be discharged in time after a gutter leaf separating net is blocked, so that the gutter is in a full-flow state for a long time, and the load of a gutter supporting accessory can be increased. The rainwater hopper in this scheme has additionally set up and has increased row's chamber and can carry out the drainage to the eaves gutter of full state and avoid the eaves gutter to be in full state for a long time.

The technical scheme adopted by the utility model is as follows: the utility model provides a eaves gutter rain water bucket, including the rain water bucket body, be used for the eaves gutter connecting portion of being connected with the eaves gutter and be used for the riser connecting portion of being connected with the riser, eaves gutter connecting portion and riser connecting portion all communicate with the rain water bucket body inner chamber, rain water bucket body inner chamber is equipped with increases row's baffle, it divides into the rain water bucket body inner chamber and increases row's chamber to increase row's chamber and general row's chamber, general row's chamber communicates with eaves gutter connecting portion and riser connecting portion, it communicates with riser connecting portion to increase row's chamber bottom is equipped with the spacer leaf net, it is equipped with the screen cloth to increase row's chamber top, the screen cloth is located the inner chamber of rain water bucket body, the spacer leaf net is located the one end that is close to riser connecting portion on increasing row's baffle, the screen cloth is located the one end that keeps away from riser connecting portion on increasing row's baffle, there is the difference in height between spacer leaf net and the screen cloth in vertical direction, the difference in height on the vertical direction of increasing row's baffle.

The rainwater in the cornice can enter the riser connecting end through the partition net after entering the rainwater hopper when the partition net in the common drainage cavity is not blocked, then enter the riser along the riser connecting end and are discharged from the rainwater hopper. When debris such as leaf in the eaves gutter blocks up and separates the leaf net, the rainwater can't be through separating the leaf net and discharge in the rainwater fill, and the rainwater piles up in the rainwater fill, and when the water level in the rainwater fill risees to the overflow in increasing the row chamber and go up the screen cloth, the rainwater can follow the screen cloth and get into to increase row chamber, again from increasing row intracavity relies on self gravity whereabouts to riser link and riser in, discharge in the rainwater fill.

According to the scheme, the drainage increasing cavity and the screen are additionally arranged in the rainwater hopper, so that rainwater in the rainwater hopper can be discharged from the drainage increasing cavity when the water level in the rainwater hopper rises to the screen which overflows the top of the drainage increasing cavity. When the partition leaf net is blocked, the water level in the rainwater hopper can be controlled at the height which is flush with the screen of the row increasing cavity, so that the maximum load of the cornice supporting accessory is reduced, the risk of supporting the accessory can be reduced, and the service life of the supporting accessory can be prolonged.

Preferably, the height difference between the leaf separating net and the screen in the vertical direction is 40mm-60mm. When the water level in the rain water bucket is flush with the screen, the gravity of the rain water bucket is smaller than the maximum load of the support accessory, and the service life of the support accessory is prevented from being influenced by overlarge pressure of the rain water bucket on the support accessory. Experiments show that the gravity of the rainwater hopper can be prevented from being larger than the maximum load of the support accessory when the height of the screen is 40-60 mm compared with that of the leaf-isolating screen, and the specific size can be adjusted according to the maximum load of the support accessory.

Preferably, the bottom edge of the common row cavity coincides with the end surface edge of the vertical pipe connecting part, the edge of the partition net is abutted with the side wall of the common row cavity, and the row increasing cavity is communicated with the side surface of the vertical pipe connecting part. When the end face of the connecting end of the vertical pipe is completely covered by the partition net in the common drainage cavity, the drainage area in the common drainage cavity can be maximized, and the drainage speed in the common drainage cavity is fastest. Meanwhile, the larger area of the leaf-separating net is more difficult to be blocked by sundries such as leaves and the like. When the edge of the bottom surface of the common row cavity is overlapped with the edge of the end surface of the vertical pipe connecting part and the edge of the partition net is abutted against the side wall of the common row cavity, the area of the partition net can be ensured to be maximum, and the drainage effect of the drainage increasing cavity is not influenced because the drainage increasing cavity is communicated with the inner cavity of the vertical pipe connecting part through the side surface of the connecting part.

Preferably, one end of the row increasing partition plate, which is close to the vertical pipe connecting part, is attached to one end of the vertical pipe connecting part, which is close to the row increasing partition plate. The area of the end face of the increasing and discharging cavity is larger, the speed of the increasing and discharging cavity is faster, one end of the increasing and discharging partition plate, which is close to the vertical pipe connecting part, is attached to one end of the vertical pipe connecting part, which is close to the increasing and discharging partition plate, the area of the end face of the increasing and discharging cavity can be further increased, the area of the screen mesh on the increasing and discharging cavity is larger, and the speed of the discharging of the increasing and discharging cavity is faster when the increasing and discharging cavity is needed.

Preferably, the row-increasing partition plate is provided with a convex rib, the convex rib is provided with a first mounting hole, the screen is provided with a first mounting protrusion, and when the screen is mounted on the row-increasing cavity, the first mounting protrusion is positioned in the first mounting hole and is clamped with the first mounting hole. The first installation bulge and the first installation hole are arranged, so that the screen mesh can be conveniently positioned on the row increasing cavity.

Preferably, the row increasing partition board is provided with a second filter screen, and the second filter screen is positioned at one end of the row increasing partition board, which is close to the leaf separating net. The second filter screen is arranged on the drainage increasing partition board, when the partition board is blocked, drainage can be conducted to the drainage increasing cavity through the second filter screen, rainwater in the common drainage cavity is discharged from the rainwater hopper through the drainage increasing cavity, and the probability of accumulated water in the rainwater hopper can be further reduced.

Preferably, the screen also comprises a sensor, wherein the sensor is positioned on the screen, and the sensor is electrically connected with the alarm device. When the water level in the rain water bucket overflows the sensor, the sensor sends a signal to the alarm device, and the alarm device reminds a user to clean the leaf-separating net in the rain water bucket, so that the leaf-separating net in the rain water bucket is prevented from being blocked for a long time.

Preferably, the rainwater hopper is provided with a clamping groove for clamping the cornice, and the clamping groove is a U-shaped groove. Set up the draw-in groove on the rainwater fill, when the rainwater fill is connected with the eaves gutter, insert the eaves gutter in the draw-in groove, prevent that the eaves gutter after the connection from taking place to rotate on the rainwater fill.

Preferably, one side of keeping away from the riser link on the eaves gutter link is equipped with the holding tank, is equipped with the rubber strip in the holding tank, and when the eaves gutter was connected with the eaves gutter link, the rubber strip closely laminated with the eaves gutter. The rubber strip is arranged to block the gap between the cornice and the rain water bucket, so that the sealing performance between the cornice and the rain water bucket can be further enhanced when the cornice is arranged on the rain water bucket, and rainwater is prevented from flowing out of the gap between the cornice and the rain water bucket.

Preferably, the gutter connecting end is provided with a bracket limiting protrusion, the bracket limiting protrusion is positioned on the outer surface of the gutter connecting end, the accommodating groove protrudes out of the outer surface of the gutter connecting end, a bracket limiting groove is formed between the accommodating groove and the bracket limiting protrusion, and the bracket limiting groove is used for accommodating a bracket for supporting the rainwater hopper in the fitting. After the bracket limiting protrusions are arranged, the bracket limiting protrusions and the containing groove form a bracket limiting groove, when the fixing bracket is installed on the rainwater hopper, the fixing bracket is placed in the bracket limiting groove, the fixing bracket is prevented from sliding on the rainwater hopper, and the limiting effect of the fixing bracket on the rainwater hopper is better.

Compared with the prior art, the utility model has the beneficial effects that: set up in the rainwater fill and increase row's chamber and screen cloth, when the rainwater fill interior water level risees to the screen cloth that overflows row's chamber top that increases, the rainwater can be followed and increased row's chamber discharge, avoids in the rainwater fill rainwater too much to make the eaves gutter support accessory's load grow, can improve the life who supports the accessory. The sensor and the alarm device are arranged to remind a user of timely cleaning sundries blocking the leaf-isolating net. The rubber strip is arranged to block the gap between the cornice and the rainwater hopper, so that the tightness between the cornice and the rainwater hopper is further enhanced, and rainwater is prevented from flowing out of the gap between the cornice and the rainwater hopper.

Drawings

FIG. 1 is a schematic view of the structure of a gutter rain hopper of the present utility model;

FIG. 2 is a schematic view of a rain fly body of a gutter rain fly according to the present utility model;

FIG. 3 is a cross-sectional view of a rain fly body of a gutter rain fly of the present utility model;

FIG. 4 is a schematic view of the screen of a gutter rain hopper of the present utility model;

fig. 5 is an exploded view of a gutter rain hopper according to the present utility model.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for better illustration of the present embodiment, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the actual product size; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The positional relationship depicted in the drawings is for illustrative purposes only and is not to be construed as limiting the present patent.

The same or similar reference numerals in the drawings of the embodiments of the present utility model correspond to the same or similar components; in the description of the present utility model, it should be understood that, if there are orientations or positional relationships indicated by terms "upper", "lower", "left", "right", "long", "short", etc., based on the orientations or positional relationships shown in the drawings, this is merely for convenience in describing the present utility model and simplifying the description, and is not an indication or suggestion that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, so that the terms describing the positional relationships in the drawings are merely for exemplary illustration and are not to be construed as limitations of the present patent, and that it is possible for those of ordinary skill in the art to understand the specific meaning of the terms described above according to specific circumstances.

The technical scheme of the utility model is further specifically described by the following specific embodiments with reference to the accompanying drawings:

example 1

An embodiment 1 of a gutter rain bucket is shown in fig. 1-3, and comprises a rain bucket body 1, a gutter connecting portion 2 for connecting with a gutter, and a riser connecting portion 3 for connecting with a riser, wherein the gutter connecting portion 2 and the riser connecting portion 3 are communicated with an inner cavity of the rain bucket body 1. The rainwater hopper body 1 inner chamber is equipped with increases row baffle 4, increases row baffle 4 and divide into rainwater hopper body 1 inner chamber and increases row's chamber 102 and the chamber of arranging 101, and the chamber of arranging 101 communicates with eaves gutter connecting portion 2 and riser connecting portion 3, increases row's chamber 102 and riser connecting portion 3 intercommunication. The bottom of the common row cavity 101 is provided with a leaf separating net 5, the top of the row increasing cavity 102 is provided with a screen 6, and the screen 6 is positioned in the inner cavity of the rainwater hopper body 1. The partition net 5 is located on the row-increasing partition plate 4 and is close to one end of the vertical pipe connecting portion 3, the screen 6 is located on the row-increasing partition plate 4 and is far away from one end of the vertical pipe connecting portion 3, the partition net 5 and the screen 6 are in height difference in the vertical direction, and the height difference between the partition net 5 and the screen 6 is the height of the row-increasing partition plate 4 in the vertical direction.

The working principle or working process of the embodiment: the rainwater in the cornice can enter the riser connecting end through the leaf-separating net 5 after entering the rainwater hopper when the leaf-separating net 5 in the common row cavity 101 is not blocked, then enter the riser along the riser connecting end and are discharged from the rainwater hopper. When debris such as leaf in the eaves gutter blocks up and separates leaf net 5, the rainwater can't pass through and separates leaf net 5 and discharge in the rainwater fill, and the rainwater piles up in the rainwater fill, and when the water level in the rainwater fill risees to the overflow in increasing row chamber 102 screen cloth 6, the rainwater can follow screen cloth 6 and get into and increase row chamber 102, again relies on self gravity to fall to riser link and riser in increasing row chamber 102, discharges in the rainwater fill.

The beneficial effects of this embodiment are: this scheme additionally sets up in the rainwater fill and increases row's chamber 102 and screen cloth 6 for when the water level risees to the screen cloth 6 that overflows row's chamber 102 top in the rainwater fill, the rainwater in the rainwater fill can follow row's chamber 102 that increases and discharge. When the partition leaf net 5 is blocked, the water level in the rainwater hopper can be controlled at the height which is flush with the screen 6 of the row increasing cavity 102, so that the maximum load of the gutter support accessory is reduced, the risk of supporting the accessory can be reduced, and the service life of the support accessory can be prolonged.

Example 2

Embodiment 2 of gutter rain hopper as shown in fig. 1-4, the structure of the spacer 5 and the row-increasing spacer 4 is further defined on the basis of embodiment 1.

Specifically, the height difference between the spacer 5 and the screen 6 in the vertical direction was 50mm. The bottom edge of the common row cavity 101 is overlapped with the end surface edge of the vertical pipe connecting part 3, the edge of the partition net 5 is abutted with the side wall of the common row cavity 101, and the row increasing cavity 102 is communicated with the side surface of the vertical pipe connecting part 3. One end of the row increasing partition plate 4, which is close to the vertical pipe connecting part 3, is attached to one end of the vertical pipe connecting part 3, which is close to the row increasing partition plate 4.

Specifically, the row-increasing partition board 4 is provided with a convex rib 401, the convex rib 401 is provided with a first mounting hole 411, the screen 6 is provided with a first mounting protrusion 601, and when the screen 6 is mounted on the row-increasing cavity 102, the first mounting protrusion 601 is located in the first mounting hole 411 and is clamped with the first mounting hole 411. The row increasing partition board 4 is provided with a second filter screen 7, and the second filter screen 7 is positioned at one end of the row increasing partition board 4 close to the leaf separating net 5.

The beneficial effects of this embodiment are: the screen 6 is 50mm higher than the spacer 5 to prevent the gravity of the rain bucket from being greater than the maximum load of the support fittings. When the bottom surface of the common cavity 101 is overlapped with the end surface of the vertical pipe connecting part 3, the leaf-separating net 5 in the common cavity 101 completely covers the end surface of the vertical pipe connecting end, so that the drainage area in the common cavity 101 is the largest, the drainage speed in the common cavity 101 is the fastest, and in addition, the leaf-separating net 5 with a larger area is more difficult to be blocked by sundries such as leaves. The drainage increasing cavity 102 is communicated with the inner cavity of the vertical pipe connecting part 3 through the side surface of the connecting part, and the drainage effect of the drainage increasing cavity 102 is not affected. One end of the row increasing partition board 4 close to the vertical pipe connecting part 3 is attached to one end of the vertical pipe connecting part 3 close to the row increasing partition board 4, so that the area of the end face of the row increasing cavity 102 can be further enlarged, and the drainage speed of the row increasing cavity 102 can be improved. The provision of the first mounting projection 601 and the first mounting hole 411 facilitates positioning of the screen 6 on the drainage increasing chamber 102. The second filter screen 7 is arranged on the row increasing partition board 4, when the partition board 5 is blocked, water can be discharged into the row increasing cavity 102 through the second filter screen 7, rainwater in the common row cavity 101 is discharged from the rainwater hopper through the row increasing cavity 102, and the probability of accumulated water in the rainwater hopper can be further reduced.

Example 3

An embodiment 3 of a gutter rain hopper further defines other structures of the rain hopper body 1 on the basis of embodiments 1 and 2.

Specifically, the screen cloth screen washing device further comprises a sensor 8, wherein the sensor 8 is positioned on the screen cloth 6, and the sensor 8 is electrically connected with an alarm device. The rainwater hopper is provided with a clamping groove 9 for clamping the cornice, and the clamping groove 9 is a U-shaped groove. One side of keeping away from riser link on the eaves gutter link is equipped with holding tank 201, is equipped with rubber strip 10 in the holding tank 201, when the eaves gutter is connected with the eaves gutter link, rubber strip 10 closely laminates with the eaves gutter. Be equipped with spacing protruding 202 of bracket on the eaves gutter link, the spacing protruding surface that is located the eaves gutter link of bracket, holding tank 201 protrusion in the surface of eaves gutter link forms the spacing groove 221 of bracket between holding tank 201 and the spacing protruding 202 of bracket, and the spacing groove 221 of bracket is arranged to hold the bracket that supports the block rainwater fill in the accessory.

The beneficial effects of this embodiment are: the sensor 8 and the alarm device are arranged to remind a user of timely cleaning sundries blocking the leaf-separating net 5 on the leaf-separating net 5. The clamping groove 9 is arranged to prevent the connected gutter from rotating on the rainwater hopper. The rubber strip 10 can block the gap between the cornice and the rainwater hopper, further strengthen the tightness between the cornice and the rainwater hopper, and prevent rainwater from flowing out of the gap between the cornice and the rainwater hopper. After the bracket limiting protrusion 202 is arranged, the bracket limiting protrusion 202 and the accommodating groove 201 form a bracket limiting groove 221, when the fixing bracket is installed on the rainwater hopper, the fixing bracket is placed in the bracket limiting groove 221, and the fixing bracket is prevented from sliding on the rainwater hopper, so that the limiting effect of the fixing bracket on the rainwater hopper is better.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. The utility model provides a eaves gutter rain water bucket, its characterized in that, including rain water bucket body (1), be used for with eaves gutter connecting portion (2) and be used for with riser connecting portion (3) that the eaves gutter is connected, eaves gutter connecting portion (2) with riser connecting portion (3) all with rain water bucket body (1) inner chamber intercommunication, rain water bucket body (1) inner chamber is equipped with increases row baffle (4), increase row baffle (4) will rain water bucket body (1) inner chamber divide into increases row chamber (102) and common row chamber (101), common row chamber (101) with eaves gutter connecting portion (2) with riser connecting portion (3) intercommunication, increase row chamber (102) with riser connecting portion (3) intercommunication, still include be located separate leaf net (5) in common row chamber (101) and be located increase row intracavity screen cloth (6), separate leaf net (5) and be located increase row baffle (4) and go up to be close to connecting portion (3) and be located riser (3) one end of connecting portion (4) is located riser (4).

2. A gutter rainwater hopper according to claim 1, characterized in that the height difference between the screen (6) and the spacer mesh (5) in the vertical direction is 40-60 mm.

3. A gutter rainwater hopper according to claim 1, characterized in that the bottom edge of the row cavity (101) coincides with the end edge of the riser connection (3), the edge of the spacer mesh (5) abuts against the side wall of the row cavity (101), and the row increasing cavity (102) communicates with the side face of the riser connection (3).

4. A gutter rainwater hopper according to claim 3, wherein the end of the row-increasing partition (4) adjacent to the riser connection (3) is attached to the end of the riser connection (3) adjacent to the row-increasing partition (4).

5. The gutter rainwater hopper according to claim 4, wherein the row-increasing partition plate (4) is provided with a protruding rib (401), the protruding rib (401) is provided with a first mounting hole (411), the screen (6) is provided with a first mounting protrusion (601), and when the screen (6) is mounted on the row-increasing cavity (102), the first mounting protrusion (601) is located in the first mounting hole (411).

6. A gutter rainwater hopper according to claim 1, characterized in that the row increasing partition (4) is provided with a second filter screen (7), and the second filter screen (7) is located at one end of the row increasing partition (4) close to the partition screen (5).

7. A gutter rainwater hopper according to claim 1, further comprising a sensor (8), the sensor (8) being located on the screen (6), the sensor (8) being electrically connected with an alarm device.

8. The gutter rain hopper according to claim 1, wherein the rain hopper is provided with a clamping groove (9) for clamping the gutter, and the clamping groove (9) is a U-shaped groove.

9. The gutter rainwater hopper as claimed in claim 8, wherein a receiving groove (201) is provided on a side of the inner cavity of the gutter connecting end, which is far away from the riser connecting end, and a rubber strip (10) is provided in the receiving groove (201), and when the gutter is connected with the gutter connecting end, the rubber strip (10) is tightly attached to the gutter.

10. The gutter rainwater hopper according to claim 9, wherein a bracket limiting protrusion (202) is arranged on the gutter connecting end, the bracket limiting protrusion is located on the outer surface of the gutter connecting end, the accommodating groove (201) protrudes out of the outer surface of the gutter connecting end, a bracket limiting groove (221) is formed between the accommodating groove (201) and the bracket limiting protrusion (202), and the bracket limiting groove (221) is used for accommodating a bracket for clamping the rainwater hopper in a supporting accessory.