CN114288751A - Underground water resource recycling device with filtering function - Google Patents

Abstract

The invention provides an underground water resource recycling device with a filtering function, which comprises a recycling cylinder, wherein a first bevel gear is arranged in a first support frame on the recycling cylinder, a transmission pipe is arranged at the bottom of the first bevel gear, three groups of roller brushes which are installed through shafts are arranged at two ends of the transmission pipe, a first installation ring and a fluted disc are arranged at the bottom of a second bevel gear in a second support frame, a filter screen cylinder is arranged at the bottom of the first installation ring, a transmission gear at one end of each roller brush is meshed with the fluted disc, a third bevel gear in a third support frame is simultaneously meshed with the first bevel gear and the second bevel gear, and a transmission motor is arranged at one end of the third bevel gear. The steerable filter screen section of thick bamboo of the device rotates simultaneously with the driving pipe, and the filter screen section of thick bamboo will thoughtlessly have groundwater and the separation of impurities of impurity such as silt pasture and water at the pivoted in-process through centrifugal force, improves the holistic water efficiency of crossing of device, and the driving pipe drives three group's cylinder brushes at the pivoted in-process and rotates the inner wall of filter screen section of thick bamboo and clean, avoids filter screen section of thick bamboo to take place to block up.

Description

Underground water resource recycling device with filtering function

Technical Field

The invention belongs to the technical field of water resource recovery, and particularly relates to an underground water resource recycling device with a filtering function.

Background

The underground water resource is a water resource which exists underground and can be utilized by human beings, occupies one third of the total amount of global water resources, is a part of global water resources, and is increasingly high in the recycling speed of underground water in order to meet the increasing water demand.

For example, the chinese patent application No. 202110043973.3 provides a groundwater resource recycling device with a filtering mechanism, the device utilizes a driving motor to provide power output, controls a sliding block to reciprocate on the inner surface of a sliding groove, further pushes a first filter screen and a second filter screen to move up and down, recycles and filters groundwater resources through the first filter screen and the second filter screen, and can reduce the blocking speed of the first filter screen and the second filter screen.

However, the most current groundwater resource recycle device filters through the flow of rivers self, and inconvenient impurity with the aquatic carries out comparatively thorough separation, leads to the inside impurity of device to persist the water passing performance of easy influence device when too much, can't carry out comparatively thorough recovery to remaining water resource in the impurity, and only filters through simple and easy filter screen, can't carry out the automatically cleaning to the filter assembly of device inside, has reduced the filter effect when retrieving groundwater.

Disclosure of Invention

In order to solve the technical problems, the invention provides an underground water resource recycling device with a filtering function, which aims to solve the technical problems that in the prior art, most common water resource recycling devices are inconvenient to separate impurities in water more thoroughly, the water passing performance of the device is easily affected when the impurities in the device are stored too much, and the filtering components in the device cannot be automatically cleaned.

The invention relates to an underground water resource recycling device with a filtering function, which has the purpose and the effect and is achieved by the following specific technical means:

a groundwater resource recycling device with a filtering function comprises a recycling drum, wherein a first support frame, a second support frame and a third support frame are arranged on the recycling drum, a first bevel gear which is installed through a first installation wheel is arranged in the first support frame, a transmission pipe is arranged at the bottom of the first bevel gear, three groups of installation frames are arranged at two ends of the transmission pipe, a group of roller brushes which are installed through a shaft are arranged in each two groups of installation frames, a transmission gear is arranged at one end of each roller brush, a second bevel gear which is installed through a second installation wheel is arranged in the second support frame, one end of the transmission pipe penetrates through the second installation wheel, a first installation ring and a fluted disc are arranged at the bottom of the second bevel gear, and a second installation ring which is connected through two groups of connecting plates is arranged at the bottom of the first installation ring, a filter screen cylinder is arranged between the first mounting ring and the second mounting ring, three groups of roller brushes are in contact with the inner side of the filter screen cylinder, three groups of transmission gears are meshed with the fluted disc, a third bevel gear in the third support frame is meshed with the first bevel gear and the second bevel gear at the same time, and one end of the third bevel gear is provided with a transmission motor.

According to a preferred embodiment, the two ends of the transmission pipe are provided with connecting rings, the connecting rings are internally provided with third installation wheels in a clamped mode, the third installation wheels are connected through a lead screw, one end of the lead screw is provided with a transmission motor, the transmission motor is fixedly arranged on the inner side of one end of each connecting ring, the lead screw is sleeved with a transmission plate, the transmission plate is clamped in two groups of positioning grooves formed in the connecting rings, scraping rings are arranged on the transmission plate, and the scraping rings are in contact with the top end of the inner side of the filter screen cylinder.

According to a preferred embodiment, be provided with into water shell in the recovery section of thick bamboo, the multiunit inlet opening has been seted up to into water shell bottom, be provided with the top cap through the hub connection on the recovery section of thick bamboo, the one end of top cap with the recovery section of thick bamboo is connected through the hasp, the top cap bottom is provided with out the water shell, it is provided with three water inlet seats of group on the shell to go out, one side of recovery section of thick bamboo is provided with the fixing base, the one end of fixing base is provided with the suction pump, the drainage pipe of suction pump one end is connected with the three-way pipe, the three-way pipe with three the three group the water inlet seat is connected.

According to a preferred embodiment, one end of the water inlet shell is in contact with one end of the water outlet shell, a first anti-seepage gasket is arranged at a gap between the water inlet shell and the water outlet shell, a second anti-seepage gasket is arranged at a gap between the three-way pipe and the water inlet seat, and the first anti-seepage gasket and the second anti-seepage gasket are made of rubber materials.

According to a preferred embodiment, the bottom of the recovery cylinder is provided with a bottom plate, a temporary storage shell is arranged on the bottom plate, a collection box is arranged in the temporary storage shell, and a first handle is arranged on one side of the collection box.

According to a preferred embodiment, the temporary storage shell is provided with a sliding rail, the bottom of the second mounting ring is embedded with a plurality of groups of balls, and the plurality of groups of balls are all clamped in the sliding rail.

According to a preferred embodiment, two sets of water drainage grooves are formed in the bottom plate, detachable filter plates are arranged in the two sets of water drainage grooves, a water drainage hopper is arranged at the bottom of the recovery cylinder, and a recovery pipeline is arranged at the bottom of the water drainage hopper.

According to a preferred embodiment, one side of a recovery section of thick bamboo is provided with the guard gate through the hub connection, the one end of guard gate with the outside of a recovery section of thick bamboo is connected through the hasp, one side of guard gate is provided with the second handle, the guard gate with gap department that a recovery section of thick bamboo is connected is provided with the third prevention and oozes the packing ring, the third prevention oozes the packing ring and is the rubber material.

According to a preferred embodiment, one side of the recovery cylinder is provided with two groups of supporting arc plates fixed through bolts, the bottoms of the two groups of supporting arc plates are provided with bottom frames connected through two groups of supporting rods, and the bottom frames are connected with the supporting rods through reinforcing ribs.

According to a preferred embodiment, two groups of threaded ground cones penetrate through the bottom frame, and four groups of universal wheels are arranged at the bottom of the bottom frame.

Compared with the prior art, the invention has the following beneficial effects:

1. when the underground water resource recycling device is used, underground water is pumped into a filter screen cylinder in a recycling cylinder through a water pump, a transmission motor is controlled to start, the transmission motor drives a first bevel gear and a second bevel gear to rotate through a third bevel gear, thereby controlling the filter screen cylinder and the transmission pipe to rotate in opposite directions simultaneously, accelerating the separation effect of impurities such as groundwater, aquatic weed silt and the like by centrifugal force in the rotating process of the filter screen cylinder, improving the water passing efficiency of the whole device, and can more thoroughly recycle the residual water resource in the impurities, the filtered water can be recycled through a recycling pipeline, the transmission pipe drives the three groups of roller brushes to rotate to clean the inner wall of the filter screen cylinder in the rotating process, the roller brushes autorotate under the matching of the transmission gear and the fluted disc, thereby improving the cleaning efficiency of the inner wall of the filter screen cylinder and effectively avoiding the condition that the filter screen cylinder is blocked.

2. This groundwater resource recycle device is after the use of a period of time, can pause the work of drawing water, and control drive motor starts, drive motor drives the lead screw at the driving pipe internal rotation, the driving plate receives the location of constant head tank and downstream under the screw propulsion's the circumstances, and then drive scraper ring downstream, fail the silt that the complete cleaning was fallen on the filter screen section of thick bamboo and other attached to comparatively firm impurity strike off, impurity after striking off drops in the collection box in the shell of keeping in, conveniently collect impurity, avoid the impurity that remains in the filter screen section of thick bamboo too much and influence the device's normal use, and groundwater after preliminary filtration carries out further filtration through the filter when getting into the drainage fill, the filtering quality of device has been improved.

Drawings

Fig. 1 is a schematic structural view of an assembled underground water resource recycling device with a filtering function according to the present invention.

Fig. 2 is a schematic structural view of the underground water resource recycling device with the filtering function after being disassembled.

Fig. 3 is a schematic structural view of a top cover of the groundwater resource recycling device with a filtering function according to the present invention.

FIG. 4 is a view showing a recovery drum of the groundwater resource recycling device with filtering function according to the present invention.

FIG. 5 is a schematic view showing the internal structure of the groundwater resource recycling device with filtering function according to the present invention.

FIG. 6 is a schematic view of an assembly structure of a middle subassembly of the groundwater resource recycling device with a filtering function according to the present invention.

Fig. 7 is an exploded schematic view of fig. 6.

FIG. 8 is a schematic structural view of a transmission pipe in the groundwater resource recycling device with filtering function according to the present invention.

Fig. 9 is an enlarged schematic view of the region a in fig. 2.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

101. a recovery cylinder; 102. a first support frame; 103. a second support frame; 104. a third support frame; 105. a water inlet shell; 106. a water inlet hole; 108. temporarily storing the shells; 109. a slide rail; 110. a base plate; 201. a top cover; 202. a water outlet shell; 203. a water inlet seat; 204. a second impermeable gasket; 205. a fixed seat; 206. a water pump; 207. a water discharge pipeline; 208. a three-way pipe; 209. a first impermeable gasket; 301. supporting the arc plate; 302. a support bar; 303. a chassis; 304. reinforcing ribs; 305. a universal wheel; 306. a threaded ground cone; 401. a protective door; 402. a second handle; 403. a third seepage-proofing gasket; 404. a drainage hopper; 405. a recovery pipeline; 501. a second mounting wheel; 502. a second bevel gear; 503. a first mounting ring; 504. a connecting plate; 505. a second mounting ring; 506. a ball bearing; 507. a screen cylinder; 508. a fluted disc; 601. a first mounting wheel; 602. a first bevel gear; 603. a drive tube; 604. a connecting ring; 605. positioning a groove; 606. a mounting frame; 607. a roller brush; 608. a transmission gear; 701. a third mounting wheel; 702. a lead screw; 703. a drive motor; 704. a drive plate; 705. scraping rings; 801. a third bevel gear; 802. a drive motor; 803. a collection box; 804. a first handle; 805. a water discharge tank; 806. a filter plate.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the technical solutions of the present invention, but should not be construed to limit the scope of the present invention.

Example (b):

as shown in fig. 1 to 8, the invention provides a groundwater resource recycling device with a filtering function, comprising a recycling cylinder 101, wherein the recycling cylinder 101 is provided with a first support frame 102, a second support frame 103 and a third support frame 104, the first support frame 102 is provided with a first bevel gear 602 mounted through a first mounting wheel 601, the bottom of the first bevel gear 602 is provided with a transmission pipe 603, two ends of the transmission pipe 603 are provided with three sets of mounting frames 606, each two sets of mounting frames 606 are provided with a set of roller brushes 607 mounted through a shaft, one end of each roller brush 607 is provided with a transmission gear 608, the second support frame 103 is provided with a second bevel gear 502 mounted through a second mounting wheel 501, one end of the transmission pipe 603 is arranged in the second mounting wheel 501 in a penetrating manner, a third bevel gear 801 in the third support frame 104 is engaged with the first bevel gear 602 and the second bevel gear 502 at the same time, one end of the third bevel gear 801 is provided with a transmission motor 802.

The transmission motor 802 is powered on to control the third bevel gear 801 to rotate in the third support frame 104, so as to control the first bevel gear 602 and the second bevel gear 502 to rotate in opposite directions in the first support frame 102 and the second support frame 103, respectively, and the first bevel gear 602 drives the transmission pipe 603 to rotate in the rotating process, so that the three sets of roller brushes 607 arranged on the transmission pipe 603 move simultaneously.

The bottom of the second bevel gear 502 is provided with a first mounting ring 503 and a fluted disc 508, the bottom of the first mounting ring 503 is provided with a second mounting ring 505 connected through two sets of connecting plates 504, a filter screen cylinder 507 is arranged between the first mounting ring 503 and the second mounting ring 505, the three sets of roller brushes 607 are all in contact with the inner side of the filter screen cylinder 507, and the three sets of transmission gears 608 are all meshed with the fluted disc 508.

The device can filter in pumping groundwater to filter screen cylinder 507, second bevel gear 502 drives first collar 503 and fluted disc 508 and rotates simultaneously at the pivoted in-process, and then make filter screen cylinder 507 take place to rotate, filter screen cylinder 507 is outside the groundwater separation filter screen cylinder 507 that will thoughtlessly have various impurity at the pivoted in-process through centrifugal force, persist impurity inside filter screen cylinder 507, roller brush 607 receives drive gear 608 and fluted disc 508 meshing's influence and quick emergence rotation when the motion, and then cleans adnexed impurity on the filter screen cylinder 507, avoid impurity too much to cause filter screen cylinder 507 to take place to block up.

As shown in fig. 2, 6, 7, and 8, both ends of the transmission tube 603 are provided with connection rings 604, two sets of connection rings 604 are respectively provided with a third installation wheel 701, the two sets of third installation wheels 701 are connected through a lead screw 702, one end of the lead screw 702 is provided with a transmission motor 703, the transmission motor 703 is fixedly arranged at the inner side of one end of the connection ring 604, the lead screw 702 is sleeved with a transmission plate 704, the transmission plate 704 is clamped in two sets of positioning grooves 605 formed in the connection rings 604, the transmission plate 704 is provided with a scraper ring 705, and the scraper ring 705 is in contact with the top end of the inner side of the filter screen cylinder 507.

After cleaning is carried out for a period of time, the operation of the device can be suspended, the transmission motor 703 is controlled to be started to drive the lead screw 702 to rotate in the connecting ring 604, the lead screw 702 drives the transmission plate 704 to move downwards along the positioning groove 605 through matching with the internal thread of the transmission plate 704 in the rotating process, impurities attached to the inner wall of the filter screen cylinder 507 are scraped downwards, further cleaning is carried out on the inner wall of the filter screen cylinder 507, and waterproof treatment needs to be carried out on the transmission motor 703.

As shown in fig. 1 to 4, a water inlet shell 105 is arranged in a recovery cylinder 101, a plurality of groups of water inlet holes 106 are formed in the bottom of the water inlet shell 105, a top cover 201 connected through a shaft is arranged on the recovery cylinder 101, one end of the top cover 201 is connected with the recovery cylinder 101 through a lock catch, a water outlet shell 202 is arranged at the bottom of the top cover 201, three groups of water inlet seats 203 are arranged on the water outlet shell 202, a fixed seat 205 is arranged on one side of the recovery cylinder 101, a water suction pump 206 is arranged at one end of the fixed seat 205, a three-way pipe 208 is connected to a drainage pipeline 207 at one end of the water suction pump 206, and the three-way pipe 208 is connected with the three groups of water inlet seats 203.

The underground water can be pumped into the device through the water pump 206 for treatment, the underground water enters the water outlet shell 202 and the water inlet shell 105 through the water inlet seat 203 through the water drainage pipe 207 and the three-way pipe 208 and flows into the filter screen cylinder 507 through the water inlet hole 106, and then the operation of the device can be controlled to filter the underground water. The top cover 201 can be opened irregularly to clean the water outlet shell 202 and the water inlet shell 105, and the service life of the device is prolonged.

As shown in fig. 2, 3 and 4, one end of the water inlet shell 105 is in contact with one end of the water outlet shell 202, a first anti-seepage gasket 209 is arranged at a gap between the water inlet shell 105 and the water outlet shell 202, a second anti-seepage gasket 204 is arranged at a gap between the three-way pipe 208 and the water inlet seat 203, and the first anti-seepage gasket 209 and the second anti-seepage gasket 204 are made of rubber materials. The first anti-seepage gasket 209 is arranged to prevent the damage to the transmission motor 802 caused by the fact that underground water flows to the outer side of the water inlet shell 105 through the gap between the water inlet shell 105 and the water outlet shell 202, and the second anti-seepage gasket 204 is arranged to prevent the underground water from flowing to the outside of the device through the gap between the three-way pipe 208 and the water inlet seat 203 and being incapable of filtering, so that waste of water resources is avoided, and the recovery rate of the water resources is improved.

As shown in fig. 2, 4 and 9, the bottom of the recycling bin 101 is provided with a bottom plate 110, a temporary storage shell 108 is arranged on the bottom plate 110, a collection box 803 is arranged in the temporary storage shell 108, and a first handle 804 is arranged on one side of the collection box 803. When control drive motor 703 drives scraper ring 705 and moves down and strike off the impurity of filter screen section of thick bamboo 507 inboard, impurity drops to in collecting the box 803, can be unscheduled will collect the box 803 and pull out and collect the processing to impurity, avoid the inside impurity of device to persist too much and influence the normal use of device.

As shown in fig. 4 and 6, the temporary storage shell 108 is provided with a slide rail 109, the bottom of the second mounting ring 505 is embedded with a plurality of sets of balls 506, and the plurality of sets of balls 506 are all clamped in the slide rail 109. Because the gap between the second mounting ring 505 and the temporary storage shell 108 is reduced as much as possible and is subjected to waterproof treatment, impurities in the groundwater are prevented from moving out of the filter screen drum 507 through the gap between the second mounting ring 505 and the temporary storage shell 108 and being incapable of being collected, and the balls 506 are arranged to reduce the friction force between the second mounting ring 505 and the temporary storage shell 108, so that the abrasion of the second mounting ring 505 during rotation is reduced.

As shown in fig. 4 and 9, two sets of drainage grooves 805 are formed in the bottom plate 110, the two sets of drainage grooves 805 are provided with detachable filter plates 806, the bottom of the recycling bin 101 is provided with a drainage hopper 404, and the bottom of the drainage hopper 404 is provided with a recycling pipeline 405. Groundwater flows to the drain hopper 404 through two sets of water drainage tank 805 after the centrifugal filtration of filter screen section of thick bamboo 507, retrieves through recovery pipeline 405 to carry out subsequent processing procedure, groundwater is further filtered groundwater through filter 806 when through water drainage tank 805, the effectual impurity quantity that reduces groundwater.

As shown in fig. 1 and 2, a protective door 401 connected through a shaft is arranged on one side of the recovery cylinder 101, one end of the protective door 401 is connected with the outer side of the recovery cylinder 101 through a lock catch, a second handle 402 is arranged on one side of the protective door 401, a third seepage-proof gasket 403 is arranged at a gap where the protective door 401 is connected with the recovery cylinder 101, and the third seepage-proof gasket 403 is made of rubber. Can open guard gate 401 in unscheduled maintenance and clearance to the inside of the device, improve the device's practicality, set up the third prevention and ooze packing ring 403 and prevent that the gap department that the in-process groundwater of drainage is connected with the recovery section of thick bamboo 101 through guard gate 401 from flowing out the device outside, avoid the waste to the water resource.

As shown in fig. 1 and 2, two groups of supporting arc plates 301 fixed by bolts are arranged on one side of the recovery cylinder 101, the bottoms of the two groups of supporting arc plates 301 are provided with bottom frames 303 connected by two groups of supporting rods 302, and the bottom frames 303 and the supporting rods 302 are connected by reinforcing ribs 304. The device can be supported on the ground through the underframe 303 and the supporting rod 302 for use, can be fixed on the ground through the threaded ground cone 306, and can also control the threaded ground cone 306 to move on the ground through the universal wheel 305 after being separated from the ground, so that the convenience of the device in use and transportation is improved. The arrangement of the reinforcing ribs 304 improves the supporting performance of the supporting rod 302 and the bottom frame 303, and further improves the practicability of the device.

The specific use mode and function of the embodiment are as follows:

when the underground water resource recycling device is used, underground water is pumped into a filter screen cylinder 507 in a recycling cylinder 101 through a water pump 206, a transmission motor 802 is controlled to be started, the transmission motor 802 drives a first bevel gear 602 and a second bevel gear 502 to rotate through a third bevel gear 801, further the filter screen cylinder 507 and a transmission pipe 603 are controlled to rotate in opposite directions, the separation effect of the underground water and impurities such as waterweed sludge and the like is accelerated through centrifugal force in the rotating process of the filter screen cylinder 507, the overall water passing efficiency of the device is improved, water resources remained in the impurities can be recycled more thoroughly, the filtered water can be recycled through a recycling pipe 405, the transmission pipe 603 drives three groups of roller brushes 607 to rotate to clean the inner wall of the filter screen cylinder 507 in the rotating process, the roller brushes 607 autorotate under the matching of the transmission gear 608 and a fluted disc 508, and further the cleaning efficiency of the inner wall of the filter screen cylinder 507 is improved, the condition that filter screen cylinder 507 is blocked is effectively avoided.

This groundwater resource recycle device is after a period of use, can pause the work of drawing water, and control drive motor 703 and start, drive motor 703 drives lead screw 702 at the internal rotation of driving pipe 603, drive plate 704 receives the location of constant head tank 605 and downstream under the condition that the screw advances, and then drive scraper ring 705 downstream, scrape off the silt that fails to clean totally on filter screen section of thick bamboo 507 and other comparatively firm impurity that adheres to, impurity after scraping drops to in keeping the collection box 803 in the shell 108 temporarily, conveniently collect impurity, avoid the impurity that remains in filter screen section of thick bamboo 507 too much and influence the normal use of device, and groundwater after preliminary filtration carries out further filtration through filter 806 when getting into drain funnel 404, the filtering quality of device has been improved.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it being obvious to a person skilled in the art that the invention is not limited to the details of the above-described exemplary embodiments.

Claims (10)

1. Possesses filtering capability's groundwater resource recycle device, its characterized in that: the recycling device comprises a recycling drum (101), wherein a first supporting frame (102), a second supporting frame (103) and a third supporting frame (104) are arranged on the recycling drum (101), a first bevel gear (602) installed through a first installation wheel (601) is arranged in the first supporting frame (102), a transmission pipe (603) is arranged at the bottom of the first bevel gear (602), three groups of installation frames (606) are arranged at two ends of the transmission pipe (603), a group of roller brushes (607) installed through a shaft are arranged in each two groups of installation frames (606), a transmission gear (608) is arranged at one end of each roller brush (607), a second bevel gear (502) installed through a second installation wheel (501) is arranged in the second supporting frame (103), one end of the transmission pipe (603) penetrates through the second installation wheel (501), a first installation ring (503) and a fluted disc (508) are arranged at the bottom of the second bevel gear (502), the bottom of the first mounting ring (503) is provided with a second mounting ring (505) which is connected through two groups of connecting plates (504), a filter screen cylinder (507) is arranged between the first mounting ring (503) and the second mounting ring (505), three groups of roller brushes (607) are in contact with the inner side of the filter screen cylinder (507), three groups of transmission gears (608) are meshed with the fluted disc (508), a third bevel gear (801) in the third supporting frame (104) is meshed with the first bevel gear (602) and the second bevel gear (502) at the same time, and one end of the third bevel gear (801) is provided with a transmission motor (802).

2. The underground water resource recycling device with the filtering function as claimed in claim 1, wherein: the two ends of the transmission pipe (603) are provided with connection rings (604), two sets of third installation wheels (701) are clamped in the connection rings (604), the two sets of third installation wheels (701) are connected through a lead screw (702), one end of the lead screw (702) is provided with a transmission motor (703), the transmission motor (703) is fixedly arranged at the inner side of one end of the connection rings (604), a transmission plate (704) is sleeved on the lead screw (702), the transmission plate (704) is clamped in two sets of positioning grooves (605) formed in the connection rings (604), scraping rings (705) are arranged on the transmission plate (704), and the scraping rings (705) are in contact with the top end of the inner side of the filter screen cylinder (507).

3. The underground water resource recycling device with the filtering function as claimed in claim 1, wherein: be provided with into water shell (105) in recovery drum (101), multiunit inlet opening (106) have been seted up to into water shell (105) bottom, be provided with top cap (201) through the hub connection on recovery drum (101), the one end of top cap (201) with recovery drum (101) are connected through the hasp, top cap (201) bottom is provided with out water shell (202), it is provided with three groups seat (203) of intaking on shell (202) to go out water, one side of recovery drum (101) is provided with fixing base (205), the one end of fixing base (205) is provided with suction pump (206), drainage pipe (207) of suction pump (206) one end are connected with three-way pipe (208), three-way pipe (208) and three groups seat (203) of intaking are connected.

4. A groundwater resource recycling device having a filtering function according to claim 3, wherein: one end of the water inlet shell (105) is in contact with one end of the water outlet shell (202), a first anti-seepage gasket (209) is arranged at a gap between the water inlet shell (105) and the water outlet shell (202), a second anti-seepage gasket (204) is arranged at a gap between the three-way pipe (208) and the water inlet seat (203), and the first anti-seepage gasket (209) and the second anti-seepage gasket (204) are made of rubber materials.

5. The underground water resource recycling device with the filtering function as claimed in claim 1, wherein: the bottom of recovery drum (101) is provided with bottom plate (110), be provided with on bottom plate (110) and keep in shell (108), be provided with in the shell (108) of keeping in and collect box (803), one side of collecting box (803) is provided with first handle (804).

6. A groundwater resource recycling device having a filtering function according to claim 5, wherein: the temporary storage shell (108) is provided with a sliding rail (109), the bottom of the second mounting ring (505) is embedded with a plurality of groups of balls (506), and the balls (506) are all clamped in the sliding rail (109).

7. A groundwater resource recycling device having a filtering function according to claim 5, wherein: two groups of water drainage grooves (805) are formed in the bottom plate (110), detachable filter plates (806) are arranged in the two groups of water drainage grooves (805), a water drainage hopper (404) is arranged at the bottom of the recovery cylinder (101), and a recovery pipeline (405) is arranged at the bottom of the water drainage hopper (404).

8. The underground water resource recycling device with the filtering function as claimed in claim 1, wherein: one side of a recycling bin (101) is provided with guard gate (401) through the hub connection, the one end of guard gate (401) with the outside of recycling bin (101) is connected through the hasp, one side of guard gate (401) is provided with second handle (402), guard gate (401) with gap department that recycling bin (101) are connected is provided with the third prevention and oozes packing ring (403), packing ring (403) is oozed to the third prevention.

9. The underground water resource recycling device with the filtering function as claimed in claim 1, wherein: one side of a recycling drum (101) is provided with two groups of supporting arc plates (301) fixed through bolts, the bottoms of the supporting arc plates (301) are provided with bottom frames (303) connected through two groups of supporting rods (302), and the bottom frames (303) are connected with the supporting rods (302) through reinforcing ribs (304).

10. The underground water resource recycling device with the filtering function as claimed in claim 1, wherein: two groups of threaded ground cones (306) penetrate through the bottom frame (303), and four groups of universal wheels (305) are arranged at the bottom of the bottom frame (303).

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