CN114508128B - Manhole of mud and sand collecting equipment in rainwater - Google Patents

Abstract

The invention relates to the technical field related to a manhole, in particular to a manhole of a device for collecting sediment in rainwater, which comprises a manhole body and a manhole groove arranged in the manhole body, wherein the lower part of the manhole body is provided with a plurality of water pipelines communicated with the manhole groove and used for flowing rainwater, the manhole groove is internally provided with a transfer piece used for transferring sediment, and the transfer piece comprises a transfer disc arranged at the bottom of the manhole groove and a driving piece used for driving the transfer disc to slide in the manhole groove along the vertical direction. According to the invention, the purposes of enabling water and sediment of the water pipe to flow through the inspection well and sediment to be deposited are achieved through the arrangement of the inspection well body and the inspection groove, the purpose of enabling the transfer plate to drive sediment to clean and transfer is achieved through the driving piece, sediment on the transfer plate enters the quicksand pipe through the interference of the fixed low rod and the transfer plate, the receiving plate is driven to rotate to a sediment receiving position through the driving of the rotating piece, and the purpose of preventing sediment from falling to the bottom of the inspection groove again is achieved.

Description

Manhole of mud and sand collecting equipment in rainwater

Technical Field

The invention relates to the technical field related to an inspection well, in particular to an inspection well of a device for collecting sediment in rainwater.

Background

The inspection well is arranged for maintaining power supply, water drainage, pollution discharge, communication, cable television, gas pipes, street lamp circuits and the like of urban underground infrastructure, and is convenient to install; the device is generally arranged at the junction of pipelines, at the turning position, at the position of pipe diameter or gradient change and at certain intervals on the straight pipe section, so that the device is convenient for periodically checking auxiliary structures.

In the prior art, most of existing repair wells only have the functions of facilitating later-stage inspection and overhaul, because the underground drain pipe needs to receive a large amount of ground drainage every day, when substances such as a lot of sediment are attached to the underground flowing from the ground, sediment and the like are accumulated to cause the internal blockage of the underground drain pipe, the repair well needs to be manually subjected to fixed-point inspection and repair, and also because the repair well cannot be subjected to autonomous cleaning and pollution discharge, the repair well capable of cleaning sediment in the sewer pipe at regular time and quantity is further needed.

Disclosure of Invention

In view of the above, the invention aims to solve the problem that the existing manhole cannot regularly clean and transfer sediment in a sewer pipe at regular time, so that the sewer pipe is blocked due to sediment accumulation.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides a sand collecting equipment's in rainwater manhole, includes the maintenance well body and sets up the maintenance groove in the maintenance well body, the lower part of maintenance well body be equipped with the maintenance groove intercommunication supply a plurality of water pipelines that the rainwater flows, be equipped with in the maintenance groove and be used for the transfer piece that the silt was shifted, the transfer piece including locating the transfer dish of maintenance groove bottom and be used for driving the transfer dish is in the gliding driving piece along vertical direction in the maintenance groove, the transfer piece is still including locating maintenance groove upper portion is used for making the fixed butt pole of transfer dish slope, one side of maintenance groove is equipped with the water conservancy diversion portion, the water conservancy diversion portion includes quicksand pipeline and receiving disc, the entrance end of quicksand pipeline with maintenance groove intercommunication, the receiving disc is located maintenance groove one side just is located quicksand pipeline's entrance end downside, the water conservancy diversion portion is still including being used for driving the receiving disc pivoted rotates the driving piece, the receiving disc rotates and forms first position and second position, under the first position, the receiving disc is in the lateral wall of maintenance groove. And under the second position, the receiving disc rotates to the lower side of the transferring disc to be obliquely arranged.

Compared with the prior art, the invention has the advantages that: the setting through the inspection shaft body and the inspection tank has reached the purpose that makes water pipe's water and silt will flow through the inspection shaft and make silt deposit, reaches through the driving piece and makes the transfer dish drive deposit silt clear up and shift the purpose, has reached through the conflict of fixed low pole and transfer dish and has entered into the quicksand pipeline that makes silt on the transfer dish, makes the receiving disc rotate to the position of receiving silt through the drive of rotating the piece, has reached the purpose that prevents that silt from dropping to the inspection tank bottom again.

Preferably, the rotating member comprises a working groove formed in one side wall of the overhaul groove and used for accommodating the receiving disc, a rotating shaft used for driving the receiving disc to rotate is arranged in the working groove, the rotating shaft is arranged in the working groove, and the rotating member further comprises a linkage member used for connecting the receiving disc with the quicksand pipeline.

Preferably, a fixing frame for placing the quicksand pipeline is arranged on one side of the inspection well body, a containing groove is formed in the fixing frame, the linkage piece comprises a fixing shaft and a winding rope which are arranged in the containing groove, one side of the winding rope penetrates through the side wall of the inspection well body to be arranged on one side of the receiving disc, the other side of the winding rope is arranged on the bottom of the quicksand pipeline, the winding rope is wound on the fixing shaft, and a reset piece for resetting the quicksand pipeline is further arranged in the containing groove.

Preferably, the reset piece comprises a reset spring arranged on the upper side wall of the fixing frame, and the other side of the reset spring is arranged on the upper part of the quicksand pipeline.

Preferably, the driving piece is including locating a plurality of drive shafts of maintenance groove upside, one side of drive shaft is equipped with and is used for the drive shaft pivoted driving motor, driving motor locates in the maintenance organism, it is equipped with the stay cord to wind on the drive shaft, the lower part of stay cord is equipped with and is used for adjusting transfer dish inclination's regulation portion, regulation portion is located on the transfer dish.

Preferably, the adjusting part comprises a plurality of fixing blocks arranged on the upper side of the transfer plate, a tensioning shaft is arranged in each fixing block, an adjusting rope is arranged on each tensioning shaft, a connecting block is arranged on the upper portion of each adjusting rope, and the connecting blocks are arranged at the bottoms of the pull ropes.

Preferably, the upper part of the overhaul well body is provided with a filter tank communicated with the overhaul tank, the upper side of the filter tank is opened, and a filter part for filtering particulate matters in rainwater is arranged in the filter tank.

Preferably, the filtering part comprises a filtering barrel arranged in the filtering tank, and a plurality of through holes for rainwater to flow are formed in the side wall of the filtering barrel.

Preferably, the filtering part further comprises a well cover arranged on the upper side of the filtering barrel, and a plurality of water inlets for rainwater to flow are formed in the well cover.

Preferably, a plurality of filtering holes for rainwater infiltration are formed in the transfer plate.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a left side view of fig. 1.

FIG. 3 is a schematic diagram of the structure of A-A in FIG. 1.

Fig. 4 is a schematic diagram of the structure of B-B in fig. 2.

Fig. 5 is a schematic view of the motion state of fig. 4.

Fig. 6 is an enlarged schematic view of C in fig. 4.

Fig. 7 is a schematic diagram of the structure of D-D in fig. 6.

Reference numerals: 1. a workover treatment body; 11. an overhaul groove; 12. a transfer plate; 121. a filter hole; 122. an adjusting section; 1221. a connecting block; 1222. an adjusting rope; 1223. a fixed block; 1224. a tensioning shaft; 123. a pull rope; 13. a working groove; 131. receiving the tray; 14. fixing a supporting rod; 15. a drive shaft; 16. a filter tank;

2. a water pipe;

3. a fixing frame; 31. a receiving groove;

4. a well cover; 41. a water inlet hole; 42. a filter vat; 421. a through hole;

5. a quicksand pipeline; 51. a return spring; 52. a fixed shaft; 53. and (5) rope winding.

Detailed Description

The following detailed description of the invention is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the invention.

Referring to fig. 1 and 2, an inspection well is generally arranged at the junction or a certain length of an underground pipeline, so as to facilitate the later maintenance of the underground pipeline and prevent the underground pipeline from causing urban waterlogging and other problems due to sediment blockage, but when the underground pipeline is maintained and overhauled, the problems of sediment blockage and the like are solved effectively and timely due to time and labor consumption, in order to solve the problems, in the embodiment, the inspection well of the sediment collecting device in rainwater comprises an inspection well body 1 and an inspection groove 11 arranged in the inspection well body 1, wherein the lower part of the inspection well body 1 is provided with a plurality of water pipelines 2 communicated with the inspection groove 11 and used for flowing rainwater, and a transfer part used for transferring sediment is arranged in the inspection groove 11; the above-mentioned manhole sets up the junction at ground and underground, and the lower part of the body is roughly buried in soil, and the interior maintenance groove 11 of having seted up of the inspection well body 1 of while can reach the water that makes underground piping and other incidental material flow through, has a echelonment setting through maintenance groove 11 bottom and water piping 2 between, can guarantee that silt deposit in the bottom of maintenance groove 11, and then deposit in transferring the piece, because silt can pile up can not influence the rivers flow in the water piping 2, and then has reached and made silt pile up on transferring the piece, and then can transfer the purpose of silt through subsequent transferring the piece.

It should be noted that most of the above incidental substances refer to solid substances such as silt, and long-term accumulation can cause blockage of the water pipe 2, and further cause a rainy day, and rainwater on the ground cannot flow away timely, so as to cause problems such as waterlogging.

Further, the step-shaped arrangement in the above is specifically shown in fig. 3, and a certain height difference exists between the bottom of the overhaul groove 11 and the water conveying pipeline 2, water flows into the detection groove through the conveying pipeline, and as sediment can be located at the bottom in the water, the sediment can be continuously accumulated at the bottom of the detection groove, meanwhile, the water on the upper part can normally flow out through the water conveying pipeline 2 on the other side, the purpose of sediment accumulation is achieved, and sediment transfer and cleaning are convenient to follow.

Referring to fig. 4, the specific structure of the driving member in the above description is: the driving piece comprises a plurality of driving shafts 15 arranged on the upper side of the overhaul groove 11, one side of each driving shaft 15 is provided with a driving motor for driving the driving shafts 15 to rotate, each driving motor is arranged in the overhaul machine body, a pull rope 123 is wound on each driving shaft 15, the lower part of each pull rope 123 is provided with an adjusting part 122 for adjusting the inclination angle of the corresponding transfer disc 12, and each adjusting part 122 is arranged on the corresponding transfer disc 12; the purpose of driving the driving shaft 15 to rotate can be achieved through the driving motor, the pull rope 123 is further rolled up by the driving shaft 15, the transfer plate 12 is further driven to start moving upwards, and meanwhile the purpose that the pull rope 123 can always tighten the transfer plate 12 when the subsequent transfer plate 12 is inclined can be guaranteed through the adjusting part 122.

The specific structure of the adjusting portion 122 is as follows: the adjusting part 122 includes a plurality of fixing blocks 1223 disposed on the upper side of the transfer tray 12, a tensioning shaft 1224 is disposed in the fixing blocks 1223, an adjusting rope 1222 is disposed on the tensioning shaft 1224, a connecting block 1221 is disposed on the upper portion of the adjusting rope 1222, and the connecting block 1221 is disposed at the bottom of the pull rope 123; the arrangement of the fixed blocks 1223 can ensure that the transfer plate 12 is always in a horizontal state in the upward moving process, so that the problem of sediment dropping caused by deflection can be avoided; the adjustment rope 1222 ensures that the pulling rope 123 is always in tension with the connection block and the adjustment rope 1222 when the transfer tray 12 is tilted for sediment transfer.

Referring to fig. 3 and 4, the specific structure of the transfer member is as follows: the transfer part comprises a transfer disc 12 arranged at the bottom of the overhaul groove 11, a driving part for driving the transfer disc 12 to slide in the overhaul groove 11 along the vertical direction, and a fixed supporting rod 14 arranged at the upper part of the overhaul groove 11 for inclining the transfer disc 12; after a certain time, the transfer piece will shift and clear up the silt that piles up on the transfer dish 12, the operation through the driving piece has reached and has made transfer dish 12 upwards slide along the lateral wall of overhaul groove 11 in overhaul groove 11, and then shift the upper portion to overhaul groove 11 with the silt from the bottom, because overhaul groove 11 and transfer dish 12 laminating, and then guarantee that the silt can not drop through the side, until transfer dish 12 supports on fixed supporting pole 14, the driving piece continues to move and drives transfer dish 12 and remove this moment, because the influence of fixed supporting pole 14 makes transfer dish 12 present a state of slope, and then reached and made the silt on the transfer dish 12 begin to want the one side of slope to shift, and then reached the purpose of transferring the silt.

It should be noted that the inspection groove 11 is a cylindrical shape, the transfer plate 12 is disposed at the bottom of the inspection groove 11, and is also circular, so that sediment does not fall through the side edges when the transfer plate 12 moves upward.

As the transfer disc 12 moves upwards, the water on the upper side is brought up while the sediment is driven to move, so as to prevent the sediment from being impacted into the water conveying pipeline 2; a plurality of filtering holes 121 for rainwater infiltration are formed in the transfer plate 12; the water mixed with the sediment in the transfer tray 12 can drop downwards through the filtering holes 121, so that the sediment is more completely accumulated in the transfer tray 12 while the sediment is not dropped.

In the process of tilting the transfer plate 12, referring to fig. 5, since the transfer plate 12 is circular, two sides of the transfer plate 12 cannot be attached to the inspection groove 11 after tilting, and the silt falling to one side cannot effectively enter the treatment channel and can fall down to the bottom of the inspection groove 11, so that the silt cannot be transferred effectively, so as to solve the problems in this embodiment; a diversion part is arranged on one side of the overhaul groove 11 and comprises a quicksand pipeline 5 and a receiving disc 131, the inlet end of the quicksand pipeline 5 is communicated with the overhaul groove 11, the receiving disc 131 is arranged on one side of the overhaul groove 11 and is positioned on the lower side of the inlet end of the quicksand pipeline 5, and the diversion part further comprises a rotating piece for driving the receiving disc 131 to rotate; when the transfer dish 12 upwards is close to the fixed supporting rod 14, the transfer dish 12 is positioned on the receiving dish 131, the rotating part operates to drive the receiving dish 131 to start to rotate anticlockwise, the receiving dish 131 is further made to be continuously close to the bottom of the transfer dish 12 until the receiving dish 131 presents the same inclination angle with the transfer dish 12, sediment on the transfer dish 12 falls down to one inclined side and then falls onto the receiving dish 131, and then the sediment falls into the sediment pipeline 5 to be placed through the inclined angle of the receiving dish 131, so that the purpose of transferring and placing the sediment is achieved.

It should be further noted that, in the above description, the rotating member drives the receiving disc 131 to rotate to form a first position and a second position, and in the first position, the receiving disc 131 is accommodated in the side wall of the service slot 11; in the second position, the receiving tray 131 rotates to the lower side of the transferring tray 12 to be disposed in an inclined manner.

The inclination angles of the transfer tray 12 and the receiving tray 131 are specifically as follows: continuously incline downwards from right to left.

Further, the specific structure of the rotating member is as follows: the rotating member comprises a working groove 13 formed in one side wall of the overhaul groove 11 and used for accommodating the receiving disc 131, a rotating shaft used for driving the receiving disc 131 to rotate is arranged in the working groove 13, specifically, a rotating motor used for driving the rotating shaft to rotate is arranged on one side of the rotating shaft, the rotating motor is arranged in the working groove 13, and the rotating member further comprises a linkage member used for linking the receiving disc 131 and the quicksand pipeline 5; the purpose of driving the rotating shaft to rotate is achieved through the operation of the rotating motor, the purpose of driving the receiving disc 131 to rotate is achieved, and the purpose of enabling the receiving disc 131 to receive sediment on the transferring disc 12 is achieved.

Meanwhile, the receiving disc 131 has a specific shape that the receiving disc 131 is disposed in one side of the inspection groove 11 and is arc-shaped, and in order to ensure that the arc-shaped receiving disc 131 can be driven by the rotating shaft, one side of the rotating shaft is further provided with a rotating motor or other power sources.

Referring to fig. 4 and 5, the specific structure of the linkage member in the above is: a fixing frame 3 for placing the quicksand pipeline 5 is arranged on one side of the manhole body 1, a containing groove 31 is formed in the fixing frame 3, the linkage piece comprises a fixing shaft 52 and a winding rope 53 which are arranged in the containing groove 31, one side of the winding rope 53 penetrates through the side wall of the manhole body 1 and is arranged on one side of the receiving disc 131, the other side of the winding rope 53 is arranged at the bottom of the quicksand pipeline 5, the winding rope 53 is arranged on the fixing shaft 52, and a reset piece for resetting the quicksand pipeline 5 is also arranged in the containing groove 31; because the upside of examining and repairing well and ground intercommunication, the rainwater on ground can directly flow into in examining and repairing well's the upper portion through examining and repairing well and flow into in groove 11, in order to prevent that the rainwater of upside from falling into in-process that flows sand pipeline 5, when not carrying out silt transfer, flow sand pipeline 5 presents an upwardly curved state, when receiving disc 131 begins to rotate and makes for silt transfer preparation, receiving disc 131 drives wiring 53 and removes, and then drives flow sand pipeline 5 by an upwardly curved state downwardly bending, and then can guarantee that follow-up silt transfer goes on smoothly, after the transfer process is finished, can make flow sand pipeline 5 reset through the setting element, and then avoid the rainwater to enter into in the flow sand pipeline 5.

It should be noted that, the other side of the quicksand pipeline 5 can be connected to other output pipelines, so that sediment in the pipeline can be ensured to be transferred out.

The reset piece has the structure that: the reset piece comprises a reset spring 51 arranged on the upper side wall of the fixed frame 3, and the other side of the reset spring 51 is arranged on the upper part of the quicksand pipeline 5; the return spring 51 can enable the quicksand pipeline 5 to be changed in two forms, so that rainwater falling from the upper side is prevented from entering the quicksand pipeline 5.

Referring to fig. 1 to 5, the upper portion of the repair well may be disposed at a rainwater well on the ground, and then rainwater on the ground is directly drained to the ground through the rainwater well, and then the pressure of the drainage pipeline may be relieved, specifically: a filter tank 16 communicated with the overhaul tank 11 is arranged at the upper part of the overhaul well body 1, the upper side of the filter tank 16 is opened, and a filter part for filtering particulate matters in rainwater is arranged in the filter tank 16; the purpose that the upside of inspection well can make the rainwater inflow can be guaranteed through the setting of filter vat 16 and filter unit, simultaneously can reach the purpose that filters the particulate matter in the rainwater through filter unit.

The specific structure of the filtering part is as follows: the filtering part comprises a filtering barrel 42 arranged in the filtering tank 16, and a plurality of through holes 421 for rainwater to flow are formed in the side wall of the filtering barrel 42; meanwhile, the filtering part further comprises a well cover 4 arranged on the upper side of the filtering barrel 42, and a plurality of water inlets 41 for rainwater to flow are formed in the well cover 4; the setting through well lid 4 and inlet opening 41 can make the rainwater on ground enter into filter vat 16 through inlet opening 41 in, and then filters the solid particle thing of rainwater through the filtration of filter vat 42, makes the rainwater fall into in the maintenance groove 11, and then can flow through conduit 2, and then has reached the pressure of alleviating ground drainage.

It should be noted that, the well lid 4 and the filter vat 42 are detachably connected in the filter tank 16, and the filter vat 42 can be ensured to be treated with particulate matters regularly and regularly through the detachable connection, so that the purpose of facilitating rainwater inflow is achieved.

The foregoing is only exemplary of the invention, and many other embodiments of the invention are possible, and all modifications and variations of the invention are intended to fall within the scope of the invention.

Claims (8)

1. The utility model provides a sediment collecting equipment's in rainwater manhole, includes examine and repair well body (1) and setups up examine and repair well body (1) in repair well body's (11), its characterized in that examine and repair well body's (1) lower part be equipped with repair groove (11) a plurality of water pipe (2) that supply the rainwater to flow, be equipped with in repair groove (11) and be used for the transfer piece that the sediment was shifted, transfer piece including locating repair groove (11) bottom transfer dish (12) and be used for driving transfer dish (12) in repair groove (11) are in the drive piece of vertical direction slip in repair groove (11), transfer piece still including locating repair groove (11) upper portion is used for making transfer dish (12) slope fixed butt (14), one side of repair groove (11) is equipped with the water conservancy diversion portion, the water conservancy diversion portion includes quicksand pipeline (5) and receiving dish (131), the entrance end of quicksand pipeline (5) with repair groove (11) intercommunication, receiving dish (131) are located in the one side of repair groove (11) is located in the drive piece (131) is located in the position of rotating down side (131) a position, the first position is in the lower side of rotating receiving dish (131), the receiving disc (131) rotates to the lower side of the transferring disc (12) and is obliquely arranged;

the rotary part comprises a working groove (13) which is arranged on one side wall of the overhaul groove (11) and used for accommodating the receiving disc (131), a rotary shaft which is used for driving the receiving disc (131) to rotate is arranged in the working groove (13), and the rotary part also comprises a linkage part which is used for connecting the receiving disc (131) and the quicksand pipeline (5);

the utility model discloses a sand control device, including examine workover body (1), be equipped with mount (3) that are used for placing quicksand pipeline (5) on one side, set up storage tank (31) in mount (3), the linkage piece is including locating fixed axle (52) and wiring (53) in storage tank (31), one side of wiring (53) passes examine workover body (1) the lateral wall is located one side of receiving dish (131), just the opposite side of wiring (53) is located the bottom of quicksand pipeline (5), wiring (53) are convoluteed on fixed axle (52), still be equipped with the piece that resets that is used for quicksand pipeline (5) to reset in storage tank (31).

2. The manhole of the device for collecting silt in rainwater according to claim 1, wherein the reset piece comprises a reset spring (51) arranged on the upper side wall of the fixed frame (3), and the other side of the reset spring (51) is arranged on the upper part of the quicksand pipeline (5).

3. The manhole of a device for collecting silt in rainwater according to claim 1, wherein the driving member comprises a plurality of driving shafts (15) arranged on the upper side of the manhole (11), one side of each driving shaft (15) is provided with a driving motor for driving the corresponding driving shaft (15) to rotate, the driving motor is arranged in the manhole, a pull rope (123) is wound on each driving shaft (15), an adjusting part (122) for adjusting the inclination angle of the corresponding transfer disc (12) is arranged on the lower part of each pull rope (123), and the adjusting part (122) is arranged on the corresponding transfer disc (12).

4. A manhole for a device for collecting silt in rainwater according to claim 3, characterized in that the adjusting part (122) comprises a plurality of fixing blocks (1223) arranged on the upper side of the transfer disc (12), a tensioning shaft (1224) is arranged in the fixing blocks (1223), an adjusting rope (1222) is arranged on the tensioning shaft (1224), a connecting block (1221) is arranged on the upper part of the adjusting rope (1222), and the connecting block (1221) is arranged at the bottom of the pull rope (123).

5. The manhole of the device for collecting silt in rainwater according to claim 1, wherein a filter tank (16) communicated with the manhole (11) is arranged on the upper portion of the manhole body (1), the upper side of the filter tank (16) is open, and a filter part for filtering particulate matters in rainwater is arranged in the filter tank (16).

6. The manhole of a device for collecting silt in rainwater according to claim 5, characterized in that said filtering part comprises a filtering barrel (42) arranged in said filtering tank (16), and the side wall of said filtering barrel (42) is provided with a plurality of through holes (421) for the rainwater to flow.

7. The manhole cover (4) of the device for collecting silt in rainwater according to claim 6, wherein the filtering part further comprises a manhole cover (4) arranged on the upper side of the filtering barrel (42), and a plurality of water inlets (41) for flowing rainwater are formed in the manhole cover (4).

8. The manhole of a device for collecting silt in rainwater according to claim 1, characterized in that a plurality of filtering holes (121) for infiltration of rainwater are arranged in the transfer plate (12).