CN219386486U - A collect and intercept device for groundwater - Google Patents

Abstract

The utility model discloses a collecting and intercepting device for underground water, which structurally comprises a water inlet mechanism, a collecting box, a drain pipe and a purified water outlet pipe, wherein the water inlet mechanism is embedded at the upper end of the collecting box, the drain pipe is arranged at the lower end of the left side of the collecting box and communicated with the collecting box, downward pressure is applied to an opening and closing plate through the weight of rainwater, the opening and closing plate rotates downwards to apply downward extrusion force to a lower pressing plate, the lower pressing plate stably and vertically presses a spraying mechanism to work, a telescopic hose contracts to extrude external air pressure into a connecting pipe to drive a one-way valve downwards, so that the air pressure flows downwards in the connecting pipe, finally the air nozzle sprays out to clean a filtering mechanism, the rainwater falls on a filter plate through rainwater to filter the filtering plate, meanwhile, the swinging frame swings, the filter plate filters the rainwater to effectively remove dust, and the underground water quantity collected in the collecting box is improved.

Description

A collect and intercept device for groundwater

Technical Field

The utility model relates to the field of underground water, in particular to a collecting and intercepting device for underground water.

Background

The main source of groundwater is the water source of natural storage, namely infiltration underground and the water that stores at ordinary times rains, collect the rainwater of raining at ordinary times and intercept at the underground installation and collect the intercepting device, reduce the rainwater infiltration underground, collect the rainwater in advance and deposit, improve the collection effect to groundwater, but because collect the in-process of intercepting device installation to collect the rainwater underground, the earth's surface has more dust to get into to collect intercepting device inside along with the rainwater easily, the rainwater gets into to collect intercepting device inside and need carry out filtration work through the filter, the dust takes place to block up on the filter easily, reduce the filter effect of filter, the entering of dust occupies the water storage space of collecting intercepting device inside simultaneously, reduce the collection intercepting device to the collection intercepting quantity of rainwater.

Disclosure of Invention

In view of the above problems, the present utility model provides a collecting and intercepting device for groundwater.

In order to achieve the above object, the present utility model is realized by the following technical scheme: the utility model provides a collect capture device for groundwater, its structure includes water inlet mechanism, collecting box, blow off pipe, water purification exit tube, water inlet mechanism inlays in the collecting box upper end, collecting box left side lower extreme is equipped with the blow off pipe and link up mutually, collecting box left side upper end is equipped with water purification exit tube and link up mutually, water inlet mechanism includes water inlet tank plate, splitter box, switching board, torsion axle, pushing mechanism, filtering mechanism, water inlet tank plate inlays in the collecting box upper end to the splitter box runs through inside water inlet tank plate, switching board is articulated mutually with water inlet tank plate upper end through torsion axle, switching board is located the splitter box upper end, pushing mechanism upper end is installed inside water inlet tank plate lower extreme to pushing mechanism upper end is located the splitter box below, pushing mechanism is located filtering mechanism top to filtering mechanism is located water inlet tank plate below, filtering mechanism fixed mounting is in the inside upper end of collecting box.

As a further improvement of the present utility model, the shunt grooves, the opening and closing plates and the torsion shaft are all provided with eight, and the eight opening and closing plates are independently installed inside the upper ends of the eight shunt grooves.

As a further improvement of the utility model, the pressing mechanism comprises a pressing plate, a sliding block, a spring rod and a spraying mechanism, wherein the pressing plate is positioned below the opening and closing plate, the sliding block is arranged at the outer side end of the pressing plate, the upper end of the spring rod penetrates through the sliding block in a clearance fit manner, the spring rod is fixedly arranged in the lower end of the water inlet groove plate, the lower end of the pressing plate is fixed with the upper end of the spraying mechanism, and the spraying mechanism is positioned right above the filtering mechanism.

As a further improvement of the utility model, eight lower pressing plates are arranged in total, the eight lower pressing plates are respectively positioned in the eight shunt grooves, and two ends of the outer side of each lower pressing plate are provided with a sliding block.

As a further improvement of the utility model, the injection mechanism comprises an air duct, a telescopic hose, a fixed plate, a connecting pipe, a one-way valve and an air nozzle, wherein the upper end of the air duct is welded with the middle part of the ground of the lower pressing plate, the middle part of the air duct is provided with the telescopic hose, the lower end of the air duct penetrates through the inside of the fixed plate, the lower end of the air duct penetrates through the connecting pipe, the one-way valve is arranged in the connecting pipe, the one-way valve is arranged right above the air nozzle, the air nozzle is embedded at the bottom of the connecting pipe, the air nozzle is positioned right above the filtering mechanism, and the one-way valve is formed by a spring, a lifting plate and a limiting plate and is arranged in the connecting pipe.

As a further improvement of the utility model, the filter mechanism comprises a swinging frame, a filter plate, a positioning shaft, a guide elastic groove, a sliding shaft and a limiting groove plate, wherein the filter plate is arranged in the swinging frame, the positioning shaft is arranged in the center of the filter plate, the outer side end of the swinging frame is provided with the sliding shaft, the sliding shaft is slidably arranged in the guide elastic groove, the guide elastic groove is arranged in the limiting groove plate, the outer side end of the swinging frame is arranged in the limiting groove plate in a clearance fit manner, and the guide elastic groove, the sliding shaft and the limiting groove plate are symmetrically arranged at the outer side two ends of the swinging frame.

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

1. according to the utility model, downward pressure is applied to the opening and closing plate through the weight of rainwater, downward extrusion force is applied to the lower pressing plate when the opening and closing plate rotates downwards, the lower pressing plate stably and vertically presses to drive the injection mechanism to work, the telescopic hose contracts to extrude external air pressure into the connecting pipe to drive the one-way valve downwards, so that the air pressure flows downwards in the connecting pipe, finally the air nozzle sprays out to clean the filtering mechanism, the rainwater falls on the filtering plate to be filtered, meanwhile, the rainwater causes certain extrusion force to the filtering plate, the swinging frame swings, the filtering plate filters the rainwater to effectively remove dust, and the underground water quantity collected in the collecting box is improved.

Drawings

Fig. 1 is a schematic structural view of a collecting and intercepting device for groundwater according to the present utility model.

FIG. 2 is a schematic diagram of the internal structure of the water inlet mechanism of the present utility model.

Fig. 3 is a schematic structural view of the pressing mechanism of the present utility model.

Fig. 4 is a schematic view of a partial enlarged structure at a of fig. 3 according to the present utility model.

FIG. 5 is a schematic view of a partial cross-sectional structure of the filtering mechanism of the present utility model.

In the figure: the water inlet mechanism 1, the collection tank 2, the drain pipe 3, the purified water outlet pipe 4, the water inlet groove plate 11, the diversion groove 12, the opening and closing plate 13, the torsion shaft 14, the pressing mechanism 15, the filtering mechanism 16, the pressing plate 15a, the sliding block 15b, the spring rod 15c, the injection mechanism 15d, the air duct d1, the telescopic hose d2, the fixed plate d3, the connecting pipe d4, the one-way valve d5, the air nozzle d6, the swinging frame 16a, the filter plate 16b, the positioning shaft 16c, the guiding elastic groove 16d, the sliding shaft 16e and the limiting groove plate 16f.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Examples

As shown in fig. 1 and 5, the utility model provides a collecting and intercepting device for groundwater, which structurally comprises a water inlet mechanism 1, a collecting box 2, a drain pipe 3 and a purified water outlet pipe 4, wherein the water inlet mechanism 1 is embedded at the upper end of the collecting box 2, the drain pipe 3 is arranged at the lower end of the left side of the collecting box 2 and communicated with the collecting box, the purified water outlet pipe 4 is arranged at the upper end of the left side of the collecting box 2 and communicated with the collecting box, the water inlet mechanism 1 comprises a water inlet groove plate 11, a split-flow groove 12, an opening and closing plate 13, a torsion shaft 14, a pressing mechanism 15 and a filtering mechanism 16, the water inlet groove plate 11 is embedded at the upper end of the collecting box 2, the split-flow groove 12 penetrates through the water inlet groove plate 11, the opening and closing plate 13 is hinged with the upper end of the water inlet groove plate 11 through the torsion shaft 14, the opening and closing plate 13 is arranged at the upper end of the split-flow groove 12, the upper end of the pressing mechanism 15 is arranged inside the lower end of the water inlet groove plate 11, the upper end of the pressing mechanism 15 is arranged below the split-flow groove 12, the pressing mechanism 15 is arranged above the filtering mechanism 16, the filtering mechanism 16 is arranged below the filtering mechanism 16, and the filtering mechanism is arranged below the upper end of the collecting box 2.

Wherein, splitter box 12, shutter 13 and torsion axle 14 all are equipped with eight to eight shutter 13 are independently installed inside eight splitter boxes 12 upper ends, do benefit to through eight splitter boxes 12 to carry out the reposition of redundant personnel with outside rainwater and discharge to filter mechanism 16 on carrying out the dispersion filtration, and drive shutter 13 automatic switching through torsion axle 14 and can separate outside dust, reduce dust entering collection box 2 inside.

The pressing mechanism 15 includes a pressing plate 15a, a sliding block 15b, a spring rod 15c, and a spraying mechanism 15d, where the pressing plate 15a is located below the opening and closing plate 13, the sliding block 15b is disposed at the outer end of the pressing plate 15a, the upper end of the spring rod 15c is inserted into the sliding block 15b by clearance fit, the spring rod 15c is fixedly mounted inside the lower end of the water inlet groove plate 11, the lower end of the pressing plate 15a is fixed with the upper end of the spraying mechanism 15d, and the spraying mechanism 15d is located right above the filtering mechanism 16.

Wherein, eight lower pressure plates 15a are provided, and eight lower pressure plates 15a are respectively positioned in eight shunt grooves 12, and two sliding blocks 15b are respectively arranged at two ends of the outer side of each lower pressure plate 15a, and vertical elastic sliding is performed on a spring rod 15c through the sliding blocks 15b at two sides, so that the lower pressure plates 15a stably and vertically press down to drive the injection mechanism 15d to work.

The injection mechanism 15d comprises an air duct d1, a telescopic hose d2, a fixed plate d3, a connecting pipe d4, a one-way valve d5 and an air nozzle d6, wherein the upper end of the air duct d1 is welded with the middle part of the ground of the lower pressing plate 15a, the telescopic hose d2 is arranged in the middle of the air duct d1, the lower end of the air duct d1 penetrates through the fixed plate d3, the lower end of the air duct d1 penetrates through the connecting pipe d4, the one-way valve d5 is arranged in the connecting pipe d4, the one-way valve d5 is positioned right above the air nozzle d6, the air nozzle d6 is embedded at the bottom of the connecting pipe d4, the air nozzle d6 is positioned above the filter mechanism 16, the one-way valve d5 is arranged in the connecting pipe d4 by a spring, a lifting plate and a limiting plate, after air pressure is extruded into the connecting pipe d4 through the air duct d1, the lifting plate can move downwards, so that the air pressure is conducted from the inside the air nozzle d6, and is sprayed out of the connecting pipe d6, otherwise, the air nozzle d6 is prevented from moving upwards through the limiting plate, the lifting plate and the air nozzle d6 is prevented from being blocked by the connecting pipe d6, and the filter mechanism is prevented from being blocked by the air nozzle d 6.

The filtering mechanism 16 comprises a swinging frame 16a, a filter plate 16b, a positioning shaft 16c, a guiding elastic groove 16d, a sliding shaft 16e and a limiting groove plate 16f, wherein the filter plate 16b is arranged in the swinging frame 16a, the positioning shaft 16c is installed at the center of the inside of the filter plate 16b, the outer side end of the swinging frame 16a is provided with the sliding shaft 16e, the sliding shaft 16e is slidably installed in the guiding elastic groove 16d, the guiding elastic groove 16d is arranged in the limiting groove plate 16f, the outer side end of the swinging frame 16a is installed in the limiting groove plate 16f in a clearance fit mode, the guiding elastic groove 16d, the sliding shaft 16e and the limiting groove plate 16f are symmetrically installed at the two ends of the outer side of the swinging frame 16a, elastic guiding is facilitated at the two ends of the outer side of the swinging frame 16a, the swinging frame 16a drives the filter plate 16b to swing and filter, and the filtering effect of the filter plate 16b on rainwater is improved.

Specific use and action of the embodiment:

the utility model embeds the collecting box 2 into the ground lower end, the water inlet mechanism 1 is in a horizontal position with the ground, when the water inlet mechanism is not raining initially, the torsion shaft 14 applies elastic torsion to the opening and closing plate 13, the upper end of the diversion trench 12 is sealed, so that external dust is blocked, the dust is reduced to enter the collecting box 2, when the water is raining, the rainwater falls into the water inlet trench plate 11, the opening and closing plate 13 is applied with downward pressure by the weight of the rainwater, so that the opening and closing plate 13 rotates downwards to open the diversion trench 12, at the moment, the rainwater flows downwards from the inside of the diversion trench 12 to contact with the filtering mechanism 16, at the same time, the opening and closing plate 13 rotates downwards to apply downward extrusion force to the lower pressing plate 15a, at the moment, the sliding blocks 15b at two sides of the lower pressing plate 15a slide vertically and elastically on the spring rod 15c, so that the lower pressing plate 15a drives the spraying mechanism 15d to work stably and vertically, when the filter mechanism is pressed down, the expansion hose d2 is extruded through the air duct d1, at the moment, the expansion hose d2 contracts to extrude external air pressure into the connecting pipe d4 to drive the one-way valve d5 downwards, so that the air pressure flows downwards in the connecting pipe d4, finally, the inside of the air nozzle d6 is sprayed out to clean the filter mechanism 16, otherwise, the lifting plate is prevented from moving upwards through the limiting plate, the inside of the connecting pipe d4 is sealed through the lifting plate and the limiting plate, rainwater during filtration is prevented from entering the inside of the connecting pipe d4 from the air nozzle d6 to cause blockage, the cleaning effect of the filter mechanism 16 is improved, when the rainwater is filtered by the filter mechanism 16, the rainwater falls on the filter plate 16b to filter, meanwhile, the rainwater causes a certain extrusion force on the filter plate 16b, so that the swinging frame 16a outside the filter plate 16b swings, the sliding shaft 16e is elastically guided by the guide elastic groove 16d in the swinging process, so that the filter plate 16b continuously swings to filter rainwater, effectively remove dust and improve the underground water quantity collected in the collecting box 2.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A collect and intercept device for groundwater, its structure includes water inlet mechanism (1), collection box (2), blow off pipe (3), water purification exit tube (4), water inlet mechanism (1) inlay in collection box (2) upper end, collection box (2) left side lower extreme is equipped with blow off pipe (3) and link up mutually, collection box (2) left side upper end is equipped with water purification exit tube (4) and link up mutually, its characterized in that:

the utility model provides a feed mechanism (1) is including inlet channel board (11), splitter box (12), switching board (13), torsion axle (14), push down mechanism (15), filtering mechanism (16), inlet channel board (11) inlay in collection box (2) upper end to splitter box (12) run through in inlet channel board (11) inside, switching board (13) are articulated mutually with inlet channel board (11) upper end inside through torsion axle (14), switching board (13) are located splitter box (12) upper end, push down mechanism (15) upper end is installed in inlet channel board (11) lower extreme inside to push down mechanism (15) upper end is located splitter box (12) below, push down mechanism (15) are located filtering mechanism (16) top to filtering mechanism (16) are located inlet channel board (11) below, filtering mechanism (16) fixed mounting is in collection box (2) inside upper end.

2. A collecting and intercepting device for groundwater according to claim 1, wherein: the split-flow grooves (12), the opening and closing plates (13) and the torsion shaft (14) are all provided with eight, and the eight opening and closing plates (13) are independently arranged inside the upper ends of the eight split-flow grooves (12).

3. A collecting and intercepting device for groundwater according to claim 1, wherein: the pressing mechanism (15) comprises a pressing plate (15 a), a sliding block (15 b), a spring rod (15 c) and a spraying mechanism (15 d), wherein the pressing plate (15 a) is located below the opening and closing plate (13), the sliding block (15 b) is arranged at the outer side end of the pressing plate (15 a), the upper end of the spring rod (15 c) penetrates through the sliding block (15 b) in a clearance fit mode, the spring rod (15 c) is fixedly installed inside the lower end of the water inlet groove plate (11), the lower end of the pressing plate (15 a) is fixed with the upper end of the spraying mechanism (15 d), and the spraying mechanism (15 d) is located right above the filtering mechanism (16).

4. A collecting and intercepting device for groundwater according to claim 3, wherein: eight lower pressure plates (15 a) are arranged in total, the eight lower pressure plates (15 a) are respectively positioned in the eight shunt grooves (12), and two sliding blocks (15 b) are arranged at the two ends of the outer side of each lower pressure plate (15 a).

5. A collecting and intercepting device for groundwater according to claim 3, wherein: injection mechanism (15 d) are including air duct (d 1), flexible hose (d 2), fixed plate (d 3), connecting pipe (d 4), check valve (d 5), air nozzle (d 6), air duct (d 1) upper end welds with holding down plate (15 a) ground middle part mutually to air duct (d 1) middle part is equipped with flexible hose (d 2), air duct (d 1) lower extreme runs through in fixed plate (d 3) inside to air duct (d 1) lower extreme link up with connecting pipe (d 4) mutually, connecting pipe (d 4) inside is equipped with check valve (d 5), check valve (d 5) are located air nozzle (d 6) directly over to air nozzle (d 6) are inlayed in connecting pipe (d 4) bottom, air nozzle (d 6) are located filtering mechanism (16) directly over.

6. The collecting and intercepting device for groundwater according to claim 5, wherein: the filter mechanism (16) comprises a swinging frame (16 a), a filter plate (16 b), a positioning shaft (16 c), a guiding elastic groove (16 d), a sliding shaft (16 e) and a limiting groove plate (16 f), wherein the filter plate (16 b) is arranged inside the swinging frame (16 a), the positioning shaft (16 c) is arranged at the center inside the filter plate (16 b), the sliding shaft (16 e) is arranged at the outer side end of the swinging frame (16 a), the sliding shaft (16 e) is slidably arranged inside the guiding elastic groove (16 d), the guiding elastic groove (16 d) is arranged inside the limiting groove plate (16 f), and the outer side end of the swinging frame (16 a) is arranged inside the limiting groove plate (16 f) in a clearance fit mode.