CN212689424U - Siphon type drainage channel with trapezoidal vault structure for efficiently collecting and utilizing rainwater - Google Patents

Abstract

The utility model discloses a high-efficient collection of rainwater utilizes trapezoidal vault structure hydrocone type water drainage tank, including water drainage tank body, horizontal strengthening rib, vertical strengthening rib, water inlet, drainage channel, inside slot and connecting groove, the water inlet quantity of both sides equals, and mutual symmetry, one side of both sides water inlet all is equipped with the grid hole, the water drainage tank body is the vault structure, inside slot can insert the picture peg, the water inlet communicates with each other with drainage channel, the water inlet is the trapezium structure. The utility model has the advantages of simple structural design, reasonable in design uses with drain bar collocation, can concentrate the rainwater collection in the drain bar and handle, and the trapezoidal structure of the grid hole that water inlet one side specially was equipped with and water inlet has increaseed the drainage rate, more is favorable to the collection of rainwater, and the water economy resource improves the high-efficient collection utilization of rainwater.

Description

Siphon type drainage channel with trapezoidal vault structure for efficiently collecting and utilizing rainwater

Technical Field

The utility model relates to a comprehensive utilization technical field is collected to the rainwater, in particular to rainwater is high-efficient to be collected and is utilized trapezoidal vault structure hydrocone type water drainage tank.

Background

The siphon principle is that in a certain closed space, the highest-point liquid in the U-shaped pipe moves towards the low-position pipe opening under the action of gravity, negative pressure is generated inside the U-shaped pipe, and the liquid at the high-position pipe opening is sucked into the highest point to form a water flow phenomenon.

The drainage performance of the existing drainage channel is poor, accumulated water cannot be drained in time, the drainage effect is poor, the moisture seepage of a roof is easily caused, and the house structure and the service life are influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is poor that its drainage performance of water drainage tank solves prior art, leads to ponding can not in time discharge, and the drainage effect is not good, causes the infiltration tide of roofing easily, influences building structure and life's technical problem, provides the rainwater high efficiency and collects and utilizes trapezoidal vault structure hydrocone type water drainage tank.

For realizing the purpose of the utility model, the utility model adopts the technical scheme that: comprises a drainage channel body 1, a transverse reinforcing rib 2, a longitudinal reinforcing rib 3, a water inlet 4, a drainage channel 5, an internal slot 6 and a connecting slot 7, the transverse reinforcing ribs 2 are divided into two types of A-shaped transverse reinforcing ribs 9 and B-shaped reinforcing ribs 10, the internal slots 6 are connected with the water inlet 4 and are positioned at the inner side of the drainage channel body 1, the inner slot 6 can be inserted into the inserting plate 11, the drainage channel body 1 is of a vault structure, the water inlets 4 are arranged at two sides of the drainage channel body 1, the quantity of the water inlets 4 arranged at the two sides is equal and mutually symmetrical, the openings of the water inlets 4 face the direction of water inflow, the water inlets 4 on both sides of the water drainage tank body 1 are provided with grid holes 8 on the same side, the grid holes on both sides are symmetrical with each other, the water inlet 4 is communicated with the drainage channel 5, the water inlet 4 is of a trapezoidal structure, and the width of one end, communicated with the drainage channel 5, of the water inlet 4 is larger than that of the other end of the water inlet.

Further, B type strengthening rib 10 is located the corresponding water inlet 4 in both sides, and it transversely runs through the top surface and two sides of water drainage tank body 1, and the vertical strengthening rib 3 of B type strengthening rib 10 perpendicular to that contacts with the top surface of water drainage tank body 1 is located B type strengthening rib 10 above water inlet 4 and horizontal direction's contained angle for the acute angle, and the B type strengthening rib 10 that contacts with two sides of water drainage tank body 1 is the acute angle with horizontal direction's contained angle, water inlet 4 is the acute angle with horizontal direction's contained angle.

Further, the connecting clamping grooves 7 are arranged at two ends of the drainage groove body 1.

Furthermore, the drainage channel bodies 1 are mutually fixed and extended through the connecting clamping grooves 7.

Further, horizontal strengthening rib 9 of A type is located the intermediate position of two adjacent water inlets 4, and it transversely runs through the top surface and two sides of water drainage tank body 1, the top surface contact part and the vertical strengthening rib 3 mutually perpendicular of horizontal strengthening rib 9 of A type and water drainage tank body 1, the perpendicular and horizontal direction of the side contact part of horizontal strengthening rib 9 of A type and water drainage tank body 1.

Further, the number of the water inlets 4 is 2 times of the number of the B-shaped reinforcing ribs 10.

Further, there are two longitudinal reinforcing ribs 3.

Further, the number of the A-type transverse reinforcing ribs 9 is one less than that of the B-type reinforcing ribs 10.

Further, the drainage channel body 1 and the insertion plate 11 are made of plastic materials.

Compared with the prior art, the utility model has the advantages that: the transverse and longitudinal reinforcing ribs arranged on the drainage channel body improve the pressure resistance of the drainage channel body, so that the drainage channel body is firm and durable, the trapezoidal water inlets and the grating holes which are mutually symmetrical are specially arranged at two sides of the drainage channel body, the water inflow rate of rainwater can be increased in the rainwater drainage process, the drainage efficiency of the rainwater is improved, the rainwater can be drained in the same direction, the internal slot is designed in the actual use process, whether the internal slot is inserted into the plugboard or not can be selected according to the drainage flow and the drainage direction of the rainwater, for example, if only one side is required for drainage, the internal slot at one side for drainage can be selected not to be inserted into the plugboard, the plugboard is inserted into the internal slot at the other side, one side can be ensured for drainage, if both sides are required for drainage, the plugboards can not be inserted into the internal slots at both sides, both sides can be used for drainage, if, it may become a water channel. Horizontal strengthening rib on the water drainage tank body and water drainage tank's vault design can also play the effect of rainwater water conservancy diversion, makes the rainwater that will collect at water inlet and grid hole, has further increaseed the inflow rate of rainwater, has improved the drainage efficiency of rainwater, and the drainage effect is more smooth and easy, effective, improves the high-efficient collection utilization of rainwater.

Drawings

FIG. 1 is a schematic structural view of a siphon-type drainage channel of the present invention with a trapezoidal vault structure for efficiently collecting rainwater;

FIG. 2 is a bottom view of the siphon-type drainage channel with a trapezoidal vault structure for efficiently collecting rainwater;

FIG. 3 is a front view of the siphon-type drainage channel with a trapezoidal dome structure for efficiently collecting rainwater;

FIG. 4 is a right side view of the siphon-type drainage channel of the present invention with a trapezoidal dome structure for efficiently collecting rainwater;

FIG. 5 is a top view of the siphon-type drainage channel with a trapezoidal dome-shaped structure for efficiently collecting rainwater;

FIG. 6 is a structural diagram of the plug board of the siphon drainage channel for efficiently collecting rainwater and utilizing the trapezoidal vault structure of the utility model;

in the figure: 1. a drainage channel body; 2, transverse reinforcing ribs; 3. longitudinal reinforcing ribs; 4. a water inlet; 5. a drainage channel; 6. an internal slot; 7. a connecting clamping groove; 8. grid holes; 9. a-type transverse reinforcing ribs; 10. b-type reinforcing ribs; 11. and (4) inserting plates.

Detailed Description

In view of the deficiencies in the prior art, the technical solution of the present invention can be provided through long-term research and a large amount of practice. The technical solution in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention.

Fig. 1 is the embodiment of the utility model provides a rainwater is high-efficient to be collected and utilizes trapezoidal vault structure hydrocone type water drainage tank structure schematic diagram, fig. 2 is the utility model discloses a rainwater is high-efficient to be collected and utilizes trapezoidal vault structure hydrocone type water drainage tank bottom-view, fig. 3 is the utility model discloses a rainwater is high-efficient to be collected and utilizes trapezoidal vault structure hydrocone type water drainage tank front-view, fig. 4 is the utility model discloses a rainwater is high-efficient to be collected and utilizes trapezoidal vault structure hydrocone type water drainage tank right side view, fig. 5 is the utility model discloses a rainwater is high-efficient to be collected and utilizes trapezoidal vault structure hydrocone type water drainage tank picture peg structure view, fig. 6 is the utility model discloses a rainwater is high-. As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the embodiment of the present invention provides a rainwater high-efficiency collecting siphon drainage channel with trapezoidal vault structure: comprises a drainage channel body 1, a transverse reinforcing rib 2, a longitudinal reinforcing rib 3, a water inlet 4, a drainage channel 5, an internal slot 6 and a connecting slot 7, the transverse reinforcing ribs 2 are divided into two types of A-shaped transverse reinforcing ribs 9 and B-shaped reinforcing ribs 10, the internal slots 6 are connected with the water inlet 4 and are positioned at the inner side of the drainage channel body 1, the inner slot 6 can be inserted into the inserting plate 11, the drainage channel body 1 is of a vault structure, the water inlets 4 are arranged at two sides of the drainage channel body 1, the quantity of the water inlets 4 arranged at the two sides is equal and mutually symmetrical, the openings of the water inlets 4 face the direction of water inflow, the water inlets 4 on both sides of the water drainage tank body 1 are provided with grid holes 8 on the same side, the grid holes on both sides are symmetrical with each other, the water inlet 4 is communicated with the drainage channel 5, the water inlet 4 is of a trapezoidal structure, and the width of one end, communicated with the drainage channel 5, of the water inlet 4 is larger than that of the other end of the water inlet.

Preferably, B type strengthening rib 10 is located the corresponding water inlet 4 in both sides, and it transversely runs through the top surface and two sides of water drainage tank body 1, and the vertical strengthening rib 3 of B type strengthening rib 10 perpendicular to that contacts with the top surface of water drainage tank body 1 is located B type strengthening rib 10 above water inlet 4 and horizontal direction's contained angle for the acute angle, and the B type strengthening rib 10 that contacts with two sides of water drainage tank body 1 is the acute angle with horizontal direction's contained angle, water inlet 4 is the acute angle with horizontal direction's contained angle.

Preferably, the connecting clamping grooves 7 are arranged at two ends of the drainage channel body 1.

Preferably, the drainage channel bodies 1 are fixed and extended with each other through a connecting clamping groove 7.

Preferably, the horizontal strengthening rib 9 of A type is located the intermediate position of two adjacent water inlets 4, and it transversely runs through the top surface and two sides of water drainage tank body 1, the top surface contact part and the vertical strengthening rib 3 mutually perpendicular of horizontal strengthening rib 9 of A type and water drainage tank body 1, the perpendicular and horizontal direction of the side contact part of horizontal strengthening rib 9 of A type and water drainage tank body 1.

Preferably, the number of the water inlets 4 is 2 times of the number of the B-shaped reinforcing ribs 10.

Preferably, there are two longitudinal ribs 3.

Preferably, the number of the a-type transverse ribs 9 is one less than the number of the B-type ribs 10.

The beneficial effects of the utility model include: the transverse and longitudinal reinforcing ribs arranged on the drainage channel body improve the pressure resistance of the drainage channel body, so that the drainage channel body is firm and durable, the trapezoidal water inlets and the grating holes which are mutually symmetrical are specially arranged at two sides of the drainage channel body, the water inflow rate of rainwater can be increased in the rainwater drainage process, the drainage efficiency of the rainwater is improved, the rainwater can be drained in the same direction, the internal slot is designed in the actual use process, whether the internal slot is inserted into the plugboard or not can be selected according to the drainage flow and the drainage direction of the rainwater, for example, if only one side is required for drainage, the internal slot at one side for drainage can be selected not to be inserted into the plugboard, the plugboard is inserted into the internal slot at the other side, one side can be ensured for drainage, if both sides are required for drainage, the plugboards can not be inserted into the internal slots at both sides, both sides can be used for drainage, if, it may become a water channel. Horizontal strengthening rib on the water drainage tank body and water drainage tank's vault design can also play the effect of rainwater water conservancy diversion, makes the rainwater that will collect at water inlet and grid hole, has further increaseed the inflow rate of rainwater, has improved the drainage efficiency of rainwater, and the drainage effect is more smooth and easy, effective, improves the high-efficient collection utilization of rainwater.

The utility model provides a high-efficient collection of rainwater utilizes trapezoidal vault structure hydrocone type water drainage tank, should understand, above-mentioned embodiment is only for the explanation the utility model discloses a technical conception and characteristics, its aim at let the personage of familiar with this technique can understand the utility model discloses an according to in order to implement, can not restrict with this the utility model discloses a protection scope. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (9)

1. High-efficient collection of rainwater utilizes trapezoidal vault structure hydrocone type water drainage tank, its characterized in that: comprises a drainage tank body (1), a transverse reinforcing rib (2), a longitudinal reinforcing rib (3), a water inlet (4), a drainage channel (5), an internal slot (6) and a connecting clamping groove (7), wherein the transverse reinforcing rib (2) is divided into two types, namely an A-type transverse reinforcing rib (9) and a B-type reinforcing rib (10), the internal slot (6) is connected with the water inlet (4) and is positioned at the inner side of the drainage tank body (1), the internal slot (6) can be inserted into a plugboard (11), the drainage tank body (1) is of a vault structure, the water inlet (4) is arranged at two sides of the drainage tank body (1), the quantity of the water inlets (4) arranged at two sides is equal and symmetrical to each other, the opening of the water inlet (4) faces to the water inflow direction, the water inlets (4) at two sides of the drainage tank body (1) are respectively provided with a grid hole (8) and the, the water inlet (4) is communicated with the drainage channel (5), the water inlet (4) is of a trapezoidal structure, and the width of one end, communicated with the drainage channel (5), of the water inlet (4) is larger than that of the other end of the water inlet.

2. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: b type strengthening rib (10) are located both sides corresponding water inlet (4), and it transversely runs through the top surface and two sides of water drainage tank body (1), and the vertical strengthening rib of B type strengthening rib (10) perpendicular to (3) that contact with the top surface of water drainage tank body (1), B type strengthening rib (10) that are located above water inlet (4) are the acute angle with the contained angle of horizontal direction, and B type strengthening rib (10) that contact with two sides of water drainage tank body (1) are the acute angle with the contained angle of horizontal direction, water inlet (4) are the acute angle with the contained angle of horizontal direction.

3. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: the connecting clamping grooves (7) are arranged at two ends of the drainage channel body (1).

4. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: the drainage channel body (1) is mutually fixed and extended through the connecting clamping groove (7).

5. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: the horizontal strengthening rib of A type (9) are located the intermediate position of two adjacent water inlets (4), and it transversely runs through the top surface and two sides of water drainage tank body (1), the top surface contact site and vertical strengthening rib (3) mutually perpendicular of the horizontal strengthening rib of A type (9) and water drainage tank body (1), the side contact site perpendicular and the horizontal direction of the horizontal strengthening rib of A type (9) and water drainage tank body (1).

6. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: the number of the water inlets (4) is 2 times of that of the B-shaped reinforcing ribs (10).

7. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: two longitudinal reinforcing ribs (3) are arranged.

8. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: the number of the A-shaped transverse reinforcing ribs (9) is one less than that of the B-shaped reinforcing ribs (10).

9. The efficient rainwater collection siphon-type drainage channel with the trapezoidal arch crown structure according to claim 1, is characterized in that: the drainage channel body (1) and the plugboard (11) are made of plastic materials.

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