CN218911684U - Waterproof waterlogging drainage system - Google Patents

Abstract

The utility model provides a waterproof waterlogging drainage system. The waterproof waterlogging drainage system comprises a water inlet structure, wherein the water inlet structure is arranged in a base layer, the water inlet structure comprises a water inlet and a filtering cover, the water inlet is arranged in the base layer, and the filtering cover is arranged in the water inlet; the cleaning structure is arranged in the base layer; the drainage structure is arranged in the base layer; a driving structure fixed inside the first drain pipe; the valve structure is arranged in the first chute; and the triggering structure is arranged in the second sliding groove. The waterproof waterlogging drainage system provided by the utility model has the advantages of large drainage amount, strong drainage capacity and good waterlogging prevention effect.

Description

Waterproof waterlogging drainage system

Technical Field

The utility model relates to the technical field, in particular to a waterproof waterlogging drainage system.

Background

In the building process, the drainage system of the sewer of the area is usually required to be perfected, so that the occurrence of waterlogging is prevented.

Some sewer pipelines in the prior art generally have only one channel, the drainage amount of one channel is limited, and in rainy days, a large amount of sediment or impurities are often carried by rainwater, so that the sediment and the impurities are accumulated in the sewer pipeline, the sewer pipeline is easy to block under the condition that the sewer pipeline is not cleaned in time, the displacement of the sewer pipeline is reduced, and therefore waterlogging is easy to occur.

Therefore, there is a need to provide a new waterproof waterlogging drainage system that solves the above-mentioned technical problems.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a waterproof waterlogging drainage system with large drainage capacity, strong drainage capacity and good waterlogging prevention effect.

The waterproof waterlogging drainage system provided by the utility model comprises: the water inlet structure is arranged in the base layer and comprises a water inlet and a filtering cover, the water inlet is arranged in the base layer, and the filtering cover is arranged in the water inlet; the cleaning structure is arranged in the base layer and comprises a cleaning bin, a first escalator, a second escalator, a deposition bin, a connecting piece and a first filter screen, wherein the cleaning bin is arranged in the base layer and is fixed on the inner side wall of the cleaning bin, the deposition bin is arranged under the cleaning bin, the connecting piece is fixed on the inner side wall of the top end of the cleaning bin, and the first filter screen is arranged at the bottom end of the connecting piece; the drainage structure is arranged in the base layer and comprises a first drainage pipeline, a connecting channel, a second drainage pipeline, a second filter screen, a clamping groove, a first sliding groove and a second sliding groove, wherein the first drainage pipeline is arranged in the base layer, the connecting channel is arranged on the bottom surface of the first drainage pipeline, the second drainage pipeline is arranged at the bottom end of the first drainage channel, the second filter screen is fixed on the inner side wall of the connecting channel, the clamping groove is arranged on the inner side wall of one end inside the connecting channel, the first sliding groove is arranged on the inner side wall of the other end of the connecting channel, and the second sliding groove is arranged in the inner side wall of the connecting channel; the driving structure comprises a floating block, a sliding tube, a fixing rod, a sleeve, a baffle, a driving rod, a limiting groove and a switch, wherein the sleeve is fixed on the top surface of the interior of the first drainage pipeline, the sliding tube is installed at the bottom end of the sleeve, the floating block is fixed at the bottom end of the sliding tube, the fixing rod is fixed at the middle part of the first drainage pipeline, the baffle is installed on the inner side wall of the sleeve, the driving rod is fixed on the surface of the baffle, the limiting groove is formed in the side wall of the driving rod, and the switch is fixed on the side wall of the top end of the fixing rod; the valve structure is arranged in the first chute and comprises a valve plate, a hydraulic telescopic machine and a waterproof rubber pad, wherein the hydraulic telescopic machine is arranged in the first chute, the valve is fixed at one end of the hydraulic telescopic machine, and the waterproof rubber pad is fixed in the first chute; the trigger structure, trigger structure install in the inside of second spout, trigger structure includes gate, spring, stay cord, mount, fixed pulley, cask and through-hole, the spring install in the inside of second spout, the gate is fixed in the one end of spring, the one end of stay cord is fixed in the one end lateral wall of gate, the mount is fixed in the lateral wall of second drainage pipe one end, the fixed pulley is fixed in the one end of mount, the cask connect in the other end of stay cord, the through-hole is located the lateral wall of cask.

Preferably, the two gates are arranged, one ends of the two gates are clamped with each other, the cleaning bin and the deposition bin are separated by the gates, and the gates slide in the second sliding grooves.

Preferably, the shape of the first filter screen is circular, the diameter of the first filter screen is larger than that of the first drainage pipeline, and the first filter screen is rotationally connected with the connecting piece.

Preferably, the sliding tube slides in the sleeve, the baffle slides on the side wall of the fixed rod, and one end of the switch is in sliding connection with the driving rod through the limit groove.

Preferably, the valve plate slides in the first chute, and the waterproof rubber pad is mounted on the side wall of the valve plate.

Preferably, the first drainage pipeline is communicated with the second drainage pipeline through the connecting channel, the area of the valve plate is larger than that of the connecting channel, and one end of the valve plate is clamped in the clamping groove.

Preferably, the bucket is suspended under the connecting channel, the pull rope penetrates through the spring, and the side wall of the pull rope is abutted against the side wall of the fixed pulley.

Compared with the related art, the waterproof waterlogging drainage system provided by the utility model has the following beneficial effects:

the utility model provides a waterproof waterlogging drainage system, which is characterized in that when a large amount of rainwater is mixed with a large amount of sediment and impurities and enters the interior of a sewage disposal structure through a water inlet structure, most of the sediment and impurities are deposited on the surface of a valve, most of the impurities drifting along with water are filtered by a first filter screen arranged at an inlet of the first drainage pipeline, so that the first drainage pipeline is not blocked by the impurities, and at a low-lying position, the driving structure is pushed to trigger a switch to open the valve structure, so that the first drainage structure is communicated with the second drainage structure, a large amount of water enters the interior of the second drainage pipeline, so that the pressure of the first drainage pipeline is accelerated, the speed of draining the sewage of the drainage structure is avoided, and meanwhile, the triggering structure drives a gate to open, so that the sediment and impurities deposited on the surface of the gate are prevented from being deposited in the interior of a bin, and the drainage system is prevented from being deposited excessively, and the drainage capacity is greatly improved because the sediment and impurities are prevented from being deposited.

Drawings

FIG. 1 is a schematic diagram of a water-logging drainage system according to a preferred embodiment of the present utility model;

FIG. 2 is a schematic diagram of a side view in cross section of FIG. 1;

FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 1;

fig. 4 is an enlarged schematic view of the portion B shown in fig. 1.

Reference numerals in the drawings: 1. base layer, 2, water inlet structure, 21, water inlet, 22, filter cover, 3, cleaning structure, 31, cleaning bin, 32, first staircase, 33, second staircase, 34, depositing bin, 35, connecting piece, 36, first filter screen, 4, drainage structure, 41, first drainage pipe, 42, connecting channel, 43, second drainage pipe, 44, second filter screen, 45, clamping groove, 46, first chute, 47, second chute, 5, driving structure, 51, floating block, 52, slide tube, 53, fixed rod, 54, sleeve, 55, baffle, 56, driving rod, 57, limit groove, 58, switch, 6, valve structure, 61, valve plate, 62, hydraulic telescoping machine, 63, waterproof rubber pad, 7, trigger structure, 71, gate, 72, spring, 73, stay cord, 74, fixing frame, 75, fixed pulley, 76, bucket, 77, through hole.

Detailed Description

The utility model will be further described with reference to the drawings and embodiments.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4 in combination, fig. 1 is a schematic structural diagram of a preferred embodiment of a waterproof waterlogging drainage system according to the present utility model; FIG. 2 is a schematic diagram of a side view in cross section of FIG. 1; FIG. 3 is an enlarged schematic view of the portion A shown in FIG. 1; FIG. 4 is an enlarged schematic view of the portion B of FIG. 1, the waterproof waterlogging drainage system including; the water inlet structure 2 is arranged in the base layer 1, the water inlet structure 2 comprises a water inlet 21 and a filter cover 22, the water inlet 21 is arranged in the base layer 1, and the filter cover 22 is arranged in the water inlet 21; the cleaning structure 3, the cleaning structure 3 is arranged in the base layer 1, the cleaning structure 3 comprises a cleaning bin 31, a first escalator 32, a second escalator 33, a deposition bin 34, a connecting piece 35 and a first filter screen 36, the cleaning bin 31 is arranged in the base layer 1, the first escalator 32 is fixed on the inner side wall of the cleaning bin 31, the deposition bin 34 is arranged under the cleaning bin 31, the connecting piece 35 is fixed on the inner side wall at the top end of the cleaning bin 31, and the first filter screen 36 is arranged at the bottom end of the connecting piece 35; the drainage structure 4 is erected in the base layer 1, the drainage structure 4 comprises a first drainage pipeline 41, a connecting channel 42, a second drainage channel 43, a second filter screen 44, a clamping groove 45, a first sliding groove 46 and a second sliding groove 47, the first drainage pipeline 41 is built in the base layer 1, the connecting channel 42 is arranged on the bottom surface of the first drainage pipeline 41, the second drainage channel 43 is built at the bottom end of the first drainage channel, the second filter screen 44 is fixed on the inner side wall of the connecting channel 42, the clamping groove 45 is arranged on the inner side wall of one end in the connecting channel 42, the first sliding groove 46 is arranged on the inner side wall of the other end of the connecting channel 42, and the second sliding groove 47 is arranged in the inner side wall of the connecting channel 42; the driving structure 5, the driving structure 5 is fixed in the first drainage pipe 41, the driving structure 5 comprises a floating block 51, a slide pipe 52, a fixed rod 53, a sleeve 54, a baffle 55, a driving rod 56, a limit groove 57 and a switch 58, the sleeve 54 is fixed on the top surface in the first drainage pipe 41, the slide pipe 52 is installed at the bottom end of the sleeve 54, the floating block 51 is fixed at the bottom end of the slide pipe 52, the fixed rod 53 is fixed at the middle part of the first drainage pipe 41, the baffle 55 is installed on the inner side wall of the sleeve 54, the driving rod 56 is fixed on the surface of the baffle 55, the limit groove 57 is arranged on the side wall of the driving rod 56, and the switch 58 is fixed on the side wall at the top end of the fixed rod 53; a valve structure 6, wherein the valve structure 6 is installed inside the first chute 46, the valve structure 6 comprises a valve plate 61, a hydraulic telescopic machine 62 and a waterproof rubber pad 63, the hydraulic telescopic machine 62 is installed inside the first chute 46, the valve is fixed at one end of the hydraulic telescopic machine 62, and the waterproof rubber pad 63 is fixed inside one end of the first chute 46; the trigger structure 7, the trigger structure 7 is installed in the inside of second spout 47, the trigger structure 7 includes gate 71, spring 72, stay cord 73, mount 74, fixed pulley 75, cask 76 and through-hole 77, the spring 72 install in the inside of second spout 47, the gate 71 is fixed in one end of spring 72, the one end of stay cord 73 is fixed in the one end lateral wall of gate 71, mount 74 is fixed in the lateral wall of second drain pipe one end, fixed pulley 75 is fixed in one end of mount 74, cask 76 is connected in the other end of stay cord 73, through-hole 77 is located the lateral wall of cask 76.

In the implementation process, as shown in fig. 1, the two gates 71 are arranged, one ends of the two gates 71 are clamped with each other, the cleaning bin 31 and the deposition bin 34 are separated by the gates 71, and the gates 71 slide in the second chute 47, so that when heavy rain falls into the second drain pipeline 43 through the first drain pipeline 41, the gates 71 are opened, and sediment accumulated in the cleaning bin 31 falls into the deposition bin 34, so that a larger space is reserved for accumulating sediment, and the sediment is prevented from blocking the first drain pipeline 41.

In the implementation process, as shown in fig. 1 and 2, the shape of the first filter screen 36 is circular, the diameter of the first filter screen 36 is larger than that of the first drainage pipe 41, and the first filter screen 36 is rotatably connected with the connecting piece 35, so that the first filter screen 36 is convenient to intercept the entered impurities, and the water entering the first drainage pipe 41 can not cause blockage to the pipe.

In the implementation process, as shown in fig. 1, 2 and 3, the sliding tube 52 slides inside the sleeve 54, the baffle 55 slides on the side wall of the fixed rod 53, and one end of the switch 58 is slidably connected with the driving rod 56 through the limit groove 57, so that the floating block 51 can control the sliding tube 52 to slide upwards through the water entering the first drainage pipeline 41, and the switch 58 is opened or closed.

In the specific implementation process, as shown in fig. 1 and 2, the valve plate 61 slides inside the first chute 46, and the waterproof rubber pad 63 is mounted on the side wall of the valve plate 61, so that the waterproof rubber pad 63 seals the gap between the valve plate 61 and the first chute 46.

In the implementation process, as shown in fig. 1 and 2, the first drainage pipe 41 and the second drainage pipe 43 are communicated through the connection channel 42, the area of the valve plate 61 is larger than that of the connection channel 42, and one end of the valve plate 61 is clamped in the clamping groove 45, so that the hydraulic telescopic machine 62 can control the valve plate 61 to close or open the connection channel 42.

In the implementation process, as shown in fig. 1 and 2, the water bucket 76 is suspended under the connection channel 42, the pull rope 73 penetrates through the spring 72, and the side wall of the pull rope 73 abuts against the side wall of the fixed pulley 75, so that when water enters the second drainage pipeline 43 through the connection channel 42, the water bucket 76 can be accessed into the introduced water at the first time, and the gate 71 is opened.

The working principle of the waterproof waterlogging drainage system provided by the utility model is as follows:

in rainy days, a large amount of rainwater is mixed with sediment, impurities and the like and enters the cleaning bin 31 through the water inlet 21, excessive impurities are blocked by the filtering cover 22, sediment entering the cleaning bin 31 is firstly accumulated on the surface of the gate 71, meanwhile, when the rainwater reaches a certain depth in the cleaning bin 31, water enters the first drainage pipeline 41 to drain the first drainage pipeline 41, the first filter screen 36 arranged at the opening of the first drainage pipeline 41 filters out part of sediment and impurities to prevent the first drainage pipeline 41 from being blocked, the water level rises faster in a low-lying section, in order to prevent excessive water logging, the floating block 51 arranged in the first drainage pipeline 41 floats along with the rising of the water level in the first drainage pipeline 41, the floating block 51 is pushed to vertically fixed slide tube 52 to slide upwards along fixed rod 53, so that slide tube 52 slides towards the inside of sleeve 54, when floating block 51 floats to a certain height, slide tube 52 is driven to push baffle 55 installed inside sleeve 54, baffle 55 slides upwards, driving rod 56 slides along one end of switch 58 through limit slot 57 provided on side wall, when driving rod 56 reaches a certain height, one end of switch 58 is pushed to rotate upwards, power is turned on, power is driven to drive hydraulic telescopic machine 62 to shrink, valve plate 61 is pulled by hydraulic telescopic machine 62 to slide towards the inside of first chute 46, connecting channel 42 is opened, the water in the first drainage pipeline 41 enters the second drainage pipeline 43 through the communication pipeline, so that the second drainage pipeline 43 shares the drainage pressure of the first drainage pipeline 41, the drainage speed of the low-lying part is increased, when the water enters the second drainage pipeline 43, a large amount of water is firstly introduced into the water bucket 76 arranged right below the connection channel 42, the weight of the water bucket 76 is increased, at the moment, the water bucket 76 pulls the pull rope 73, the pull rope 73 guides and pulls the gate 71 through the fixed pulley 75 to compress the spring 72, the spring is slid into the second chute 47, the upper end of the deposition bin 34 is unfolded, sediment and impurities accumulated on the gate 71 fall into the interior of the accumulation bin, the volume for collecting the sediment and the impurities is increased, so that the first filter screen 36 is prevented from being blocked by excessive sediment and impurities, the drainage speed of the first drainage pipeline 41 is affected, and the system has the advantages of large volume, strong drainage capacity and good water logging prevention effect.

Compared with the related art, the waterproof waterlogging drainage system provided by the utility model has the following beneficial effects:

the utility model provides a waterproof waterlogging drainage system, when a large amount of rainwater is mixed with a large amount of sediment and impurities and enters the interior of a sewage disposal structure 3 through a water inlet structure 2, most of sediment and impurities settle and accumulate on the surface of a valve, most of impurities drifting along with water can be filtered by a first filter screen 36 installed at the inlet of a first drainage pipeline 41, so that the first drainage pipeline 41 is not blocked by the impurities, at a low-lying position, when the water level of the first drainage pipeline 41 rises to a certain height, the driving structure 5 is pushed to trigger a switch 58, so that the valve structure 6 is opened, the first drainage structure 4 is communicated with the second drainage structure 4, a large amount of water can enter the interior of the second drainage pipeline 43, so that the pressure shared by the first drainage pipeline 41 accelerates the drainage structure 4, the drainage speed is avoided, meanwhile, the triggering structure 7 drives the gate 71 to open, so that the sediment and sediment accumulated on the surface of the gate 71 is well deposited on the surface of the first drainage structure 34, the sediment and the drainage system is not accumulated and the drainage system is greatly influenced by the excessive accumulation of the impurities and impurities.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. A waterproof waterlogging drainage system, comprising:

the water inlet structure (2), the water inlet structure (2) is arranged in the base layer (1), the water inlet structure (2) comprises a water inlet (21) and a filter cover (22), the water inlet (21) is arranged in the base layer (1), and the filter cover (22) is arranged in the water inlet (21);

the trash cleaning structure (3), trash cleaning structure (3) is located the inside of basic unit (1), trash cleaning structure (3) include cleaning bin (31), first staircase (32), second staircase (33), deposit storehouse (34), connecting piece (35) and first filter screen (36), cleaning bin (31) are located the inside of basic unit (1), first staircase (32) are fixed in the inside wall of cleaning bin (31), deposit storehouse (34) are located under cleaning bin (31), connecting piece (35) are fixed in the inside wall at cleaning bin (31) top, first filter screen (36) install in the bottom of connecting piece (35);

the drainage structure (4), drainage structure (4) erect in the inside of basic unit (1), drainage structure (4) include first drainage pipe (41), connecting channel (42), second drainage pipe (43), second filter screen (44), draw-in groove (45), first spout (46) and second spout (47), first drainage pipe (41) establish in the inside of basic unit (1), connecting channel (42) are located the bottom surface of first drainage pipe (41), second drainage pipe (43) establish in the bottom of first drainage pipe (41), second filter screen (44) are fixed in the inside wall of connecting channel (42), draw-in groove (45) are located the inside wall of connecting channel (42) inside one end, first spout (46) are located the inside wall of connecting channel (42) other end, second spout (47) are located the inside wall of connecting channel (42).

The driving structure (5), the driving structure (5) is fixed in the inside of the first drainage pipeline (41), the driving structure (5) comprises a floating block (51), a slide tube (52), a fixing rod (53), a sleeve (54), a baffle plate (55), a driving rod (56), a limit groove (57) and a switch (58), the sleeve (54) is fixed on the top surface in the inside of the first drainage pipeline (41), the slide tube (52) is installed at the bottom end of the sleeve (54), the floating block (51) is fixed at the bottom end of the slide tube (52), the fixing rod (53) is fixed at the center of the first drainage pipeline (41), the baffle plate (55) is installed on the inner side wall of the sleeve (54), the driving rod (56) is fixed on the surface of the baffle plate (55), the limit groove (57) is arranged on the side wall of the driving rod (56), and the switch (58) is fixed on the side wall of the top end of the fixing rod (53).

The valve structure (6), the valve structure (6) is installed in the first chute (46), the valve structure (6) comprises a valve plate (61), a hydraulic telescopic machine (62) and a waterproof rubber pad (63), the hydraulic telescopic machine (62) is installed in the first chute (46), the valve is fixed at one end of the hydraulic telescopic machine (62), and the waterproof rubber pad (63) is fixed in the first chute (46);

trigger structure (7), trigger structure (7) install in the inside of second spout (47), trigger structure (7) include gate (71), spring (72), stay cord (73), mount (74), fixed pulley (75), cask (76) and through-hole (77), spring (72) install in the inside of second spout (47), gate (71) are fixed in one end of spring (72), one end of stay cord (73) is fixed in one end lateral wall of gate (71), mount (74) are fixed in the lateral wall of second drainage pipe one end, fixed pulley (75) are fixed in one end of mount (74), cask (76) connect in the other end of stay cord (73), through-hole (77) are located the lateral wall of cask (76).

2. The water-and-waterlogging drainage system according to claim 1, characterized in that said gates (71) are two, and in that one end of two said gates (71) are mutually clamped, and in that said cleaning bin (31) and said deposition bin (34) are separated by said gates (71), and in that said gates (71) slide inside said second chute (47).

3. The water-resistant and waterlogging drainage system according to claim 1, characterized in that the first filter screen (36) is circular in shape, the diameter of the first filter screen (36) is larger than the diameter of the first drainage pipe (41), and the first filter screen (36) is in rotational connection with the connection piece (35).

4. The water-resistant and waterlogging drainage system according to claim 1, wherein the slide tube (52) slides inside the sleeve (54), the baffle plate (55) slides on the side wall of the fixed rod (53), and one end of the switch (58) is slidably connected with the driving rod (56) through the limit groove (57).

5. The waterproof waterlogging drainage system according to claim 1, wherein the valve plate (61) slides inside the first runner (46) and the waterproof rubber pad (63) is mounted to a side wall of the valve plate (61).

6. The water-resistant and waterlogging drainage system according to claim 1, wherein the first drainage pipeline and the second drainage pipeline (43) are communicated through the connecting channel (42), the area of the valve plate (61) is larger than that of the connecting channel (42), and one end of the valve plate (61) is clamped inside the clamping groove (45).

7. The waterproof waterlogging drainage system according to claim 1, wherein the water bucket (76) is suspended directly below the connecting channel (42), the pull rope (73) penetrates through the spring (72), and the side wall of the pull rope (73) abuts against the side wall of the fixed pulley (75).

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