CN219411120U - Efficient road drainage structure - Google Patents

Abstract

The utility model provides a high-efficiency road drainage structure, which comprises a road body, wherein main drainage channels are formed in two sides of the road body, first water grates are clamped on the two groups of main drainage channels, dreg filtering mechanisms are arranged in the two groups of main drainage channels, each dreg filtering mechanism comprises a dreg basket and a connecting frame, a plurality of groups of drainage holes are formed in the dreg basket, four groups of connecting grooves are formed in one end of the dreg basket, four groups of connecting columns are arranged on the connecting frame and are respectively clamped in the four groups of connecting grooves in a sliding manner, clamping blocks are arranged on two sides of the connecting frame, clamping grooves are formed in two groups of the two groups of main drainage channels, the two groups of clamping blocks are respectively clamped in the two corresponding groups of clamping grooves, two groups of matching blocks are arranged on a first movable block and respectively pass through the two groups of matching grooves formed in a second movable block; the rubbish in the water flows into the first water grate along with rainwater and enters the filter residue basket, so that the rubbish is prevented from blocking the first water grate or the water draining channel, and the road water draining efficiency is improved.

Description

Efficient road drainage structure

Technical Field

The utility model belongs to the technical field of road drainage, and particularly relates to a high-efficiency road drainage structure.

Background

In rainy days, in the escape canal of road both sides was flowed into through road water comb to the rainwater, discharged the rainwater through the escape canal, prevented that the road surface ponding from leading to the inconvenience of pedestrian's trip. The novel road drainage structure of chinese use of patent number 201922498494.1, including concave U-shaped groove in road surface and a plurality of sump pit that communicate with the U-shaped groove, the U-shaped groove is located the lower one side of road level, sump pit and municipal drainage system intercommunication, and the opening part of sump pit still covers has the well lid, opens on the well lid has a plurality of limbers. The rainwater flows into the water collecting well through the water through holes on the well cover, so that the effect of draining the road is achieved. After retrieval, when the traditional road drainage structure drains under the condition of larger precipitation, the water through holes are easily blocked by the garbage such as leaves and branches caused by rainwater, so that the rainwater flows into the drainage canal slowly, and the road drainage efficiency is reduced.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a high-efficiency road drainage structure, which aims to solve the technical problems that in the prior art, a water through hole is easily blocked by garbage such as leaves and branches caused by rainwater, so that the road drainage efficiency is reduced.

The utility model discloses a high-efficiency road drainage structure, which is realized by the following specific technical means:

the utility model provides an efficient road drainage structure, including the road body, main drainage canal has all been seted up to road body both sides, two sets of all block on the main drainage canal is equipped with first water comb, two sets of all be provided with dregs filtering mechanism in the main drainage canal, dregs filtering mechanism is including filter residue basket and linking frame, a plurality of groups wash port have been seted up in the filter residue basket, four groups spread grooves have been seted up to filter residue basket one end, be provided with four sets of spliced pole slip card respectively and establish in four sets of in the linking groove on the linking frame, the linking frame both sides all are provided with the fixture block, two sets of main drainage canal both sides all have been seted up the draw-in groove, two sets of the fixture block card respectively is established in two sets of corresponding draw-in groove, the linking frame is including first movable block and second movable block, be provided with two sets of cooperation pieces on the first movable block, two sets of cooperation pieces wear to establish respectively in two sets of cooperation grooves of seting up on the second movable block.

In a preferred embodiment, the two sides of the road body are provided with auxiliary drainage channels, and the two groups of auxiliary drainage channels are provided with second water grates in a clamping mode.

In a preferred embodiment, two groups of movable rods are arranged on the connecting frame, the two groups of movable rods are all arranged in the connecting sleeve in a penetrating mode, and a control assembly is arranged in the connecting sleeve.

In a preferred embodiment, the control assembly comprises a locking block and an inclined block, the locking block is arranged in the connecting sleeve in a penetrating manner, the inclined blocks are arranged on two sides of the locking block, and the two groups of inclined blocks are respectively and slidably clamped in the two groups of inclined grooves formed in the movable rod.

In a preferred embodiment, the lock block is provided with a pressing block, the connecting sleeve is provided with a fixing sleeve, and the pressing block is arranged in the fixing sleeve in a penetrating mode.

In a preferred embodiment, guide blocks are arranged on two sides of the main drainage channel, and two groups of fixing blocks are fixedly connected to the connecting sleeve.

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

1. when the rainfall is large, rainwater flows into the main drainage canal through the first water grate and the second water grate, the gap of the second water grate is small, most of garbage can be blocked, a large amount of garbage is prevented from flowing into the main drainage canal along the rainwater, the main drainage canal is blocked, the second water grate is vertical to the road surface, when the road ponding is more, the drainage speed is faster, and the road drainage efficiency can be improved; the gap between the first water grate is larger, most garbage can flow into the filter residue fence along with rainwater, the rainwater flows into the main drainage canal from the drainage hole, the first water grate is placed in parallel with the ground surface, the rainwater can be quickly discharged into the main drainage canal at any time, and the drainage efficiency can be effectively improved.

2. When rubbish is more in the filter residue basket, sanitation workers make the fixture block slide in the clamping groove through moving first movable block and second movable block, with fixture block and clamping groove separation, rethread adapter sleeve is mentioned the filter residue basket, after pouring rubbish in the filter residue basket into the garbage bin, put into main water drainage ditch with the filter residue basket again, fix the filter residue basket in main water drainage ditch through moving first movable block and second movable block with the fixture block card established in the clamping groove, rubbish is left in the filter residue fence, prevent that a large amount of rubbish from flowing into main water drainage ditch along the rainwater in, lead to main water drainage ditch to block up, reduce rubbish in the main water drainage ditch, thereby improve the efficiency of road drainage.

Drawings

FIG. 1 is a schematic view of the assembled structure of the present utility model.

Fig. 2 is a schematic diagram of the split structure of the present utility model.

FIG. 3 is a schematic view of the structure of the dross filtering mechanism of the utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a road body; 2. a main drainage channel; 3. an auxiliary drainage channel; 4. a first water grate; 5. a second water grate; 6. a filter residue basket; 7. a guide block; 8. a first movable block; 9. a second movable block; 10. a connection frame; 11. a connecting column; 12. a connecting groove; 13. a mating block; 14. a mating groove; 15. a clamping block; 16. a clamping groove; 17. a movable rod; 18. connecting sleeves; 19. a locking piece; 20. a chute; 21. a sloping block; 22. pressing blocks; 23. a fixed sleeve; 24. a fixed block; 25. and a drain hole.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the technical scheme of the present utility model, but are not intended to limit the scope of the present utility model.

Examples:

as shown in fig. 1 to 3, the utility model provides a high-efficiency road drainage structure, which comprises a road body 1, main drainage channels 2 are respectively arranged at two sides of the road body 1, first water grids 4 are respectively clamped on the two groups of main drainage channels 2, dreg filtering mechanisms are respectively arranged in the two groups of main drainage channels 2, each dreg filtering mechanism comprises a dreg basket 6 and a connecting frame 10, a plurality of groups of drainage holes 25 are respectively arranged in the dreg basket 6, four groups of connecting grooves 12 are respectively arranged at one end of the dreg basket 6, four groups of connecting columns 11 are respectively and slidably clamped in the four groups of connecting grooves 12, clamping blocks 15 are respectively arranged at two sides of the connecting frame 10, clamping grooves 16 are respectively and respectively clamped in the two corresponding groups of clamping grooves 16, each connecting frame 10 comprises a first movable block 8 and a second movable block 9, two groups of matching blocks 13 are respectively arranged on the first movable block 8, and two groups of matching blocks 13 are respectively arranged in two groups of matching grooves 14 respectively arranged on the second movable block 9 in a penetrating manner.

When the rainfall is large, rainwater flows into the main drainage canal 2 through the first water grate 4 and the second water grate 5, the gap of the first water grate 4 is large, most garbage can flow into the filter residue basket 6 along the rainwater, the rainwater flows into the main drainage canal 2 from the drainage holes 25, the first water grate 4 is placed in parallel with the ground surface, and at any time, the rainwater can be quickly discharged into the main drainage canal 2, so that the drainage efficiency can be effectively improved; when rubbish in the filter residue basket 6 is more, sanitation workers move in the connecting groove 12 and the matching groove 14 respectively through moving the first movable block 8 and the second movable block 9, the connecting column 11 and the matching block 13 enable the clamping block 15 to slide in the clamping groove 16, the clamping block 15 is separated from the clamping groove 16, the filter residue basket 6 is lifted through the connecting sleeve 18, rubbish in the filter residue basket 6 is poured into the dustbin and then placed in the main drainage canal 2, the clamping block 15 is clamped in the clamping groove 16 through moving the first movable block 8 and the second movable block 9, the filter residue basket 6 is fixed in the main drainage canal 2, the connecting column 11 is used for connecting the connecting frame 10 with the filter residue basket 6, rubbish is reserved in the filter residue basket 6, a large amount of rubbish is prevented from flowing into the main drainage canal 2 along with rainwater, the main drainage canal 2 is blocked, rubbish in the main drainage canal 2 is reduced, and accordingly the road drainage efficiency is improved.

As shown in fig. 1 and 2, the two sides of the road body 1 are provided with auxiliary drainage channels 3, and the two groups of auxiliary drainage channels 3 are provided with second water grates 5. Rainwater flows into the auxiliary drainage canal 3 through the second water grate 5, the auxiliary drainage canal 3 is communicated with the main drainage canal 2, the gap between the second water grate 5 is smaller, most of garbage can be blocked, a large amount of garbage is prevented from flowing into the main drainage canal 2 along the rainwater, the main drainage canal 2 is blocked, the second water grate 5 is vertical to a road surface, when the road ponding is more, the drainage speed is faster, and the efficiency of road drainage can be improved.

As shown in fig. 3, two groups of movable rods 17 are arranged on the connecting frame 10, the two groups of movable rods 17 are all arranged in the connecting sleeve 18 in a penetrating manner, and a control component is arranged in the connecting sleeve 18. The two groups of movable rods 17 are controlled by the control assembly to slide in the connecting sleeve 18 to drive the first movable block 8 and the second movable block 9 to move, so that the purpose of controlling the clamping block 15 is achieved.

As shown in fig. 3, the control assembly comprises a locking block 19 and an inclined block 21, the locking block 19 is arranged in the connecting sleeve 18 in a penetrating manner, the inclined blocks 21 are arranged on two sides of the locking block 19, and the two groups of inclined blocks 21 are respectively and slidably clamped in the inclined grooves 20 formed in the two groups of movable rods 17. When the control assembly is used, a sanitation worker holds the connecting sleeve 18 and moves the locking block 19, so that the locking block 19 ascends in the connecting sleeve 18 to drive the two groups of inclined blocks 21 to slide in the two groups of inclined grooves 20 respectively, the movable rods 17 move in the connecting sleeve 18 through the inclined surfaces, the step of controlling the clamping blocks 15 is simple, the efficiency of pouring out garbage in the filter residue basket 6 can be improved, the use is more convenient, the two groups of movable rods 17 synchronously move, the first movable block 8 and the second movable block 9 synchronously move, and the two groups of clamping blocks 15 are synchronously separated from the clamping grooves 16 and clamped.

As shown in fig. 3, the lock block 19 is provided with a pressing block 22, the connecting sleeve 18 is provided with a fixing sleeve 23, and the pressing block 22 is arranged in the fixing sleeve 23 in a penetrating manner. When the locking block 19 rises in the connecting sleeve 18, the pressing block 22 is driven to rise in the fixed sleeve 23, and when the clamping block 15 needs to be clamped in the clamping groove 16, the pressing block 22 is pressed, so that the pressing block 22 descends in the fixed sleeve 23, and the first movable block 8 and the second movable block 9 are driven to move.

As shown in fig. 2 and 3, guide blocks 7 are arranged on both sides of the main drainage channel 2, and two groups of fixing blocks 24 are fixedly connected to the connecting sleeve 18. The guide block 7 plays a guiding role, so that the clamping block 15 can be used for Ji Kacao to conveniently fix the filter residue basket 6 in the main drainage channel 2; the fixed block 24 is used to keep the hand of the sanitation worker away from the connecting sleeve 18 when the sanitation worker holds the connecting sleeve 18, and is not covered by the palm when the pressing block 22 is lifted.

Specific use and action of the embodiment:

when the rainfall is large, rainwater flows into the main drainage canal 2 through the first water grate 4 and the second water grate 5, the gap of the second water grate 5 is small, most of garbage can be blocked, a large amount of garbage is prevented from flowing into the main drainage canal 2 along the rainwater, the main drainage canal 2 is blocked, the second water grate 5 is vertical to a road surface, when the road ponding is more, the drainage speed is faster, and the efficiency of road drainage can be improved; the gap of the first water grate 4 is larger, most garbage can flow into the filter residue basket 6 along with rainwater, the rainwater flows into the main drainage canal 2 from the drainage holes 25, the first water grate 4 is placed in parallel with the ground surface, the rainwater can be quickly discharged into the main drainage canal 2 at any time, and the drainage efficiency can be effectively improved.

When more garbage is contained in the residue basket 6, the sanitation worker holds the connecting sleeve 18, moves the locking piece 19, enables the locking piece 19 to ascend in the connecting sleeve 18, drives the pressing piece 22 to ascend in the fixed sleeve 23, drives the two groups of inclined pieces 21 to slide in the two groups of inclined grooves 20 respectively, enables the movable rod 17 to move in the connecting sleeve 18 through the inclined plane, drives the first movable piece 8 and the second movable piece 9, enables the clamping block 15 to slide in the clamping groove 16, separates the clamping block 15 from the clamping groove 16, lifts the residue basket 6 through the connecting sleeve 18, pours the garbage in the residue basket 6 into the garbage can, then places the residue basket 6 on the two groups of guide pieces 7 in the main drainage channel 2, presses the pressing piece 22, enables the pressing piece 22 to descend in the fixed sleeve 23, drives the first movable piece 8 and the second movable piece 9 to slide in the clamping groove 16, enables the residue basket 6 to be fixed in the main drainage channel 2, and the garbage to remain in the residue basket 6, so that a large amount of garbage is prevented from flowing into the main drainage channel 2 to block the main drainage channel 2, and the garbage drainage efficiency is improved.

While the fundamental and principal features of the utility model and advantages of the utility model have been shown and described, it will be apparent to those skilled in the art that the utility model is not limited to the details of the foregoing exemplary embodiments.

Claims (6)

1. Efficient road drainage structure, its characterized in that: including road body (1), main water drainage canal (2) have all been seted up to road body (1) both sides, two sets of equal card is equipped with first water comb (4) on main water drainage canal (2), two sets of all be provided with dregs filter equipment in main water drainage canal (2), dregs filter equipment is including filter residue basket (6) and connecting frame (10), a plurality of groups wash port (25) have been seted up in filter residue basket (6), four groups spread groove (12) have been seted up to filter residue basket (6) one end, be provided with four sets of spliced pole (11) on connecting frame (10) and slide the card respectively and establish in four sets of spread groove (12), connecting frame (10) both sides all are provided with (15), two sets of draw-in groove (16) have all been seted up to main water drainage canal (2) both sides, two sets of card respectively establish in two sets of draw-in groove (16), connecting frame (10) are including first movable block (8) and second movable block (9), two sets of movable block (9) are in the cooperation sets of two blocks (13).

2. The efficient roadway drainage structure of claim 1, wherein: the road is characterized in that auxiliary drainage channels (3) are respectively arranged on two sides of the road body (1), and second water grates (5) are respectively clamped on the two groups of auxiliary drainage channels (3).

3. The efficient roadway drainage structure of claim 1, wherein: two groups of movable rods (17) are arranged on the connecting frame (10), the two groups of movable rods (17) are all arranged in the connecting sleeve (18) in a penetrating mode, and a control assembly is arranged in the connecting sleeve (18).

4. A high efficiency roadway drainage structure as in claim 3, wherein: the control assembly comprises a locking block (19) and an inclined block (21), wherein the locking block (19) is arranged in the connecting sleeve (18) in a penetrating mode, the inclined blocks (21) are arranged on two sides of the locking block (19), and the two groups of inclined blocks (21) are respectively and slidably clamped in two groups of inclined grooves (20) formed in the movable rods (17).

5. The efficient roadway drainage structure of claim 4, wherein: the lock block (19) is provided with a pressing block (22), the connecting sleeve (18) is provided with a fixing sleeve (23), and the pressing block (22) is arranged in the fixing sleeve (23) in a penetrating mode.

6. A high efficiency roadway drainage structure as in claim 3, wherein: guide blocks (7) are arranged on two sides of the main drainage channel (2), and two groups of fixing blocks (24) are fixedly connected to the connecting sleeve (18).