CN214034015U - Shunting escape canal structure - Google Patents

Abstract

The utility model belongs to the technical field of the technique in escape canal and specifically relates to a shunting escape canal structure is related to, and it includes road surface layer, clear water ditch, sewer and runner assembly, the clear water ditch upper surface is located to the road surface layer, the clear water ditch lower surface is located to the sewer, certainly the road surface layer has seted up the outlet to clear water ditch and sewer direction in proper order, runner assembly includes first pivot, breakwater and supporting seat, the supporting seat is located in the drainage mouth, first pivot is rotated and is located on the supporting seat, the breakwater rotates through the pivot and seals in clear water ditch bottom. The water baffle is rotated to abut against the supporting seat, rainwater flows to the clear water ditch, the water baffle is rotated to abut against the bottom wall of the clear water ditch, and sewage flows to the sewage ditch. This application has the effect of improving the distribution of rain and sewage.

Description

Shunting escape canal structure

Technical Field

The utility model relates to a field in escape canal especially relates to a shunting escape canal structure.

Background

The road drainage ditch is a drainage facility constructed by soil, masonry, brick and reinforced concrete for dredging or removing water flowing to two sides of a road due to a road surface, and the shed area is a concentrated area of a simple house and a shed building.

At present, the garshed house district drainage system is mixed and disorderly and the drainage function is low, and the garshed house district population number is numerous simultaneously, and the escape canal is gushed into in a large number to resident daily life rubbish and sewage, and the escape canal still needs the flood discharge during rainy season.

With respect to the related art, the inventors consider that: rainwater and same escape canal of sewage sharing make the escape canal block up easily, and then make the dirty separation of rain difficult to make the dirty underground piping that is difficult to discharge of rain after the separation.

SUMMERY OF THE UTILITY MODEL

Arrange into underground piping in order to improve rain and sewage, this application provides a shunting escape canal structure.

The application provides a shunting escape canal structure adopts following technical scheme:

the utility model provides a shunting escape canal structure, its includes road surface layer, clear water ditch, sewer and runner assembly, the clear water ditch upper surface is located to the road surface layer, the sewer lower surface is located to the sewer, certainly the road surface layer has seted up the outlet to clear water ditch and sewer direction, runner assembly includes first pivot, breakwater and supporting seat, the supporting seat is located in the drainage mouth, first pivot is rotatory to be located on the supporting seat, the breakwater rotates to seal in clear water ditch bottom through first pivot.

Through above-mentioned technical scheme, rotate the butt with the breakwater in clear water ditch bottom upper wall, rainwater flow direction clear water ditch, and rotate the butt with the breakwater in the supporting seat, sewage flow direction sewage ditch, and then make this scheme have the effect of rain and sewage reposition of redundant personnel.

Optionally, the road surface layer rotates one end of the filter plate, and the other end of the filter plate rotates and abuts against the upper wall of the bottom of the clear water ditch.

Through adopting above-mentioned technical scheme, when sewage flow direction sewage ditch, or rainwater flow direction clear water ditch, the filter plate rotates and closes in clear water ditch to make the impurity separation of rainwater in filter plate department, and the rainwater can flow to clear water ditch.

Optionally, a clamping groove is formed in the end portion of the filter plate, a groove is formed in the road surface layer, the inner wall of the groove is far away from the water drainage port and is provided with a containing groove, an elastic piece is arranged in the containing groove, one end, far away from the inner wall of the containing groove, of the elastic piece is connected with a rolling ball, and the inner wall of the groove is abutted to the outer wall of the rolling ball.

Through above-mentioned technical scheme, when the escape canal is in the non-drainage state, sink into the recess through the elastic component with the spin in to rotate from the clear water ditch to road surface layer direction and seal the outlet, because the resilience of elastic component, draw-in groove inner wall parcel spin outer wall this moment, thus make the filter plate seal the outlet.

Optionally, the supporting seat includes two parallel first side plates and two second side plates, two first side plates butt against the side wall of the water outlet to the back side, the second side plate is connected to the opposite side faces of the two first side plates, and the water blocking plate rotates and is connected to the second side plate.

Through above-mentioned technical scheme, supporting seat bottom butt in the sewer bottom, two blocks of first curb plates back of the body one side on the back of the body do not butt in the sewer inner wall this moment, and then the breakwater can rotate and cover on clear water ditch to make the rainwater flow direction clear water ditch.

Optionally, a sliding block is arranged on one side of the first side plate facing the back, a sliding groove is formed in the side wall of the water outlet, and the sliding block abuts against the sliding groove.

Through the technical scheme, the sliding block is abutted to the sliding groove, so that the first side plate is not easy to move, and the supporting seat can be taken out from the drainage port when the sliding block is far away from the sliding groove.

Optionally, the lower surface of the water baffle is provided with a first water-blocking layer, the upper wall of the bottom of the clear water ditch is provided with a second water-blocking layer, and the first water-blocking layer is abutted against the second water-blocking layer.

Through the technical scheme, when the first waterproof layer is abutted against the second waterproof layer, rainwater flowing to the clear water ditch is not easy to flow to the sewage ditch.

Optionally, a filter box with an upper opening is arranged on one side of the second side plate facing the water outlet, the opening is opposite to the water outlet, the filter box is located below the clear water ditch, and a plurality of filter holes are formed in the peripheral wall of the filter box.

Through above-mentioned technical scheme, sewage passes through the filtration pore flow direction sewer ditch, and impurity in the sewage stops to the filter box in owing to blockking of filter box to along with taking out the supporting seat, impurity in the filter box can be taken out the clearance.

Optionally, the filter box is provided with a bolt piece, and the bolt piece sequentially penetrates through the side wall of the filter box and the second side plate and fixes the filter box on the second side plate.

Through above-mentioned technical scheme, the filter box takes out from the drain outlet along with taking out the supporting seat, takes out bolt spare, and then separation filter box and supporting seat to make the impurity in the filter box more easily cleared up.

In summary, the present application includes at least one of the following beneficial technical effects:

1. sewage flows to the sewage ditch, and rainwater flows to the clear water ditch;

2. the supporting seat is taken out, the filter box can be taken out, and impurities in the filter box are cleaned;

3. through the elastic piece in the holding tank, the spin in the recess and the draw-in groove on the filter plate for the filter plate rotates and seals in road surface layer.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a schematic cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 2;

FIG. 4 is a schematic structural diagram of a support base and a filter box in an embodiment of the present application.

Description of reference numerals: 1. a road surface layer; 11. a groove; 12. accommodating grooves; 13. an elastic member; 14. rolling a ball; 2. a clear water ditch; 3. a sewage ditch; 4. a water outlet; 5. a rotating assembly; 51. a first rotating shaft; 52. a water baffle; 521. an upper notch; 522. a first water resistant layer; 53. a supporting seat; 531. a first side plate; 5311. a slider; 5312. a chute; 532. a second side plate; 533. a lower notch; 534. a second water resistant layer; 535. a filter box; 5351. filtering holes; 5352. a bolt member; 54. filtering the plate; 541. a card slot; 55. a second rotating shaft.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses shunting escape canal structure, refer to fig. 1, 2, it includes road surface layer 1, clear water ditch 2, sewer 3 and runner assembly 5, 2 upper surface connections in road surface layer 1 lower surfaces of clear water ditch, 2 lower surfaces connections in sewer 3 upper surfaces of clear water ditch, from 1 upper surface of road surface layer to the vertical outlet 4 of having seted up of 2 lower surfaces of clear water ditch, and escape canal intercommunication clear water ditch 2 and sewer 3, runner assembly 5 locates in the outlet 4, and runner assembly 5 can rotate and close or open outlet 4.

Constitute the escape canal jointly through making clear water ditch 2 and sewage ditch 3 to and install runner assembly 5 in clear water ditch 2 and escape canal 3, thereby make this scheme have the effect of rain and sewage reposition of redundant personnel.

The rotating assembly 5 includes a first rotating shaft 51, a water guard 52, a support base 53, a filter plate 54 and a second rotating shaft 55.

Referring to fig. 2 and 3, the second shaft 55 is rotatably connected to the road surface 1 at the water outlet 4, one end of the filter plate 54 is rotatably connected to the road surface 1 by the second shaft, and the other end of the filter plate 54 is rotatably connected to the upper wall abutting against the bottom of the clear water channel 2.

The end of the filter plate 54 away from the road surface 1 is provided with a clamping groove 541, and the clamping groove 541 is arc-shaped. A groove 11 is formed in one side, away from the second rotating shaft 55, of the road surface layer 1 at the water outlet 4, the groove 11 is arc-shaped and matched with the clamping groove 541, and a square accommodating groove 12 is formed in one side, away from the water outlet 4, of the inner wall of the groove 11. The inner wall of the accommodating groove 12 away from the groove 11 is fixedly connected with an elastic piece 13, and the elastic piece 13 is a spring. One end of the elastic piece 13 close to the groove 11 is connected with a rolling ball 14, one part of the rolling ball 14 is abutted to the groove 11, the other part of the outer wall of the rolling ball 14 is abutted to the clamping groove 541, and the restoring capacity of the spring can enable the rolling ball 14 to move towards the direction far away from the spring and sink into the clamping groove 541.

Can distribute a plurality of draw-in grooves 541 along filter plate 54 width direction, correspond a plurality of draw-in grooves 541 and can follow road surface layer 1 width direction distribution recess 11, correspond a plurality of recesses 11 and follow road surface layer 1 width direction distribution holding tank 13 to correspond an elastic component 13 of all installing in each holding tank 13, each elastic component 13 all connects in spin 14.

The gap exists between the end of the filter plate 54 outside the groove 11 and the end of the road surface layer 1 outside the clamping groove 541, so that an operator can conveniently reverse the action of the elastic piece 13 to the rolling ball 14, and the rolling ball 14 is separated from the clamping groove 541.

Referring to fig. 1 and 4, the supporting seat 53 includes a first side plate 531 and a second side plate 532, the first side plate 531 is provided with two pieces and is arranged in parallel, the end of the second side plate 532 is respectively fixedly connected to the end of one side of the two pieces of the first side plate 531, and the upper end surfaces of the first side plate 531 and the second side plate 532 are arranged in parallel. Meanwhile, the opposite surfaces of the two first side plates 531 are respectively abutted against the side walls of the water outlet 4.

The first rotating shaft 51 is rotatably connected to the upper end of the second side plate 532, one end of the water baffle 52 is rotatably connected to the second side plate 532 through the first rotating shaft 51, the other end of the water baffle 52 is rotatably abutted to the upper wall of the bottom of the clear water ditch 2, at this time, the rainwater flows to the clear water ditch 2, and the sewage ditch 3 is in a closed state.

Referring to fig. 1 and 2, the lower surface of the water guard 52 away from the first shaft 51 is provided with an upper notch 521, and the opening direction of the upper notch 521 extends along the width direction of the water guard 52. The upper surface of the clear water ditch 2 on one side opposite to the water outlet 4 is provided with a lower notch 533, and the opening direction of the lower notch 533 extends along the width direction of the clear water ditch 2. The inner wall of the upper notch 521 is fixedly connected with a first water-blocking layer 522, the inner wall of the lower notch 533 is fixedly connected with a second water-blocking layer 534, and when the first water-blocking layer 522 abuts against the second water-blocking layer 534, the water baffle 52 is located on the upper wall of the bottom of the clear water ditch 2 and the water baffle 52 closes the water outlet 4.

The two first side plates 531 are fixedly provided with sliding blocks 5311 towards the back, the sliding blocks 5311 are arranged along the height direction of the first side plates 531, meanwhile, sliding grooves 5312 are formed in the side walls of the water outlet 4 corresponding to the sliding blocks 5311, the forming direction of the sliding grooves 5312 is the same as the height direction of the sliding blocks 5311, and the two sliding blocks 5311 are respectively abutted against the sliding grooves 5312.

Referring to fig. 2 and 4, a filter box 535 is installed in the drain 4, the upper part of the filter box 535 is opened and the opening is opposite to the drain 4, and the filter box 535 is installed below the clear water ditch 2 and is used for receiving impurities in the filtered sewage after the sewage is treated. The three side walls of the circumference of the filtering box 535 are all provided with a plurality of filtering holes 5351.

Four corners of the remaining sidewall of the circumferential surface of the filter box 535 are provided with bolt members 5352, the bolt members 5352 are fastening bolts, and four bolt members 5352 pass through the filter box 535 and the second side plate 532 in sequence to fix the filter box 535 to the second side plate 532.

The implementation principle of the embodiment of the application is as follows:

when the filter plate 54 is not in use, the filter plate rotates through the second rotating shaft 55 to close the water outlet 4, at this time, the inner wall of the groove 11 abuts against one part of the outer wall of the rolling ball 14, and the clamping groove 541 abuts against the other part of the outer wall of the rolling ball 14.

When sewage is discharged, the filter plate 54 is rotated and opened by utilizing the gap between the filter plate 54 and the road surface layer 1, so that the filter plate 54 abuts against the upper wall of the bottom of the clear water ditch 2, at the moment, the water baffle plate 52 is rotated and opened and abuts against the second side plate 532, and sewage is discharged into the sewage ditch 3 along with the water discharge port 4.

The support base 53 can be taken out through the slider 5311 and the chute 5312, and the filter box 535 is taken out and cleaned of impurities in the filter box 535, and then put into the drain port 4 again.

When rainwater is drained, the filter plate 54 is rotated to open and abut against the upper wall of the bottom of the clear water ditch 2, and the water baffle plate 52 is rotated to abut against the upper wall of the bottom of the clear water ditch 2, so that the rainwater enters the clear water ditch 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a shunting escape canal structure which characterized in that: including road surface layer (1), clear water ditch (2), sewer ditch (3) and runner assembly (5), clear water ditch (2) upper surface is located in road surface layer (1), sewer ditch (2) lower surface is located in sewer ditch (3), certainly outlet (4) have been seted up to clear water ditch (2) and sewer ditch (3) direction in road surface layer (1), runner assembly (5) include first pivot (51), breakwater (52) and supporting seat (53), in outlet (4) are located in supporting seat (53), first pivot (51) are rotated and are located on supporting seat (53), breakwater (52) rotate through first pivot (51) and seal in clear water ditch (2) bottom.

2. A split-flow drain structure according to claim 1, wherein: the road surface layer (1) is rotatably arranged at one end of the filter plate (54), and the other end of the filter plate (54) is rotatably abutted against the upper wall of the bottom of the clear water ditch (2).

3. A split-flow drain structure according to claim 2, wherein: draw-in groove (541) have been seted up to filter plate (54) tip, road surface layer (1) is seted up flutedly (11), holding tank (12) have been seted up to outlet (4) department of keeping away from to recess (11) inner wall, be equipped with elastic component (13) in holding tank (12), the one end that holding tank (12) inner wall was kept away from in elastic component (13) is connected with spin (14), recess (11) inner wall butt in spin (14) outer wall.

4. A split-flow drain structure according to claim 1, wherein: the supporting seat (53) comprises two parallel first side plates (531) and two second side plates (532), the first side plates (531) are abutted to the side walls of the water outlet (4) towards the back side, the second side plates (532) are connected to the opposite side faces of the two first side plates (531), and the water baffle (52) is rotatably connected to the second side plates (532).

5. The split-flow drain structure of claim 4, wherein: the first side plate (531) is provided with a sliding block (5311) towards the back side, the side wall of the water outlet (4) is provided with a sliding groove (5312), and the sliding block (5311) abuts against the inside of the sliding groove (5312).

6. The split-flow drain structure of claim 4, wherein: the lower surface of the water baffle (52) is provided with a first water-resistant layer (522), the upper wall of the bottom of the clear water ditch (2) is provided with a second water-resistant layer (534), and the first water-resistant layer (522) is abutted against the second water-resistant layer (534).

7. The split-flow drain structure of claim 4, wherein: one side of the second side plate (532) facing the water outlet (4) is provided with a filter box (535) with an upper opening, the opening is opposite to the water outlet (4), the filter box (535) is positioned below the clear water ditch (2), and the peripheral wall of the filter box (535) is provided with a plurality of filter holes (5351).

8. The split-flow drain structure of claim 7, wherein: the filter box (535) is provided with bolt pieces (5352), the bolt pieces (5352) sequentially penetrate through the side wall of the filter box (535) and the second side plate (532), and the filter box (535) is fixed on the second side plate (532).

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