CN113529915B

CN113529915B - Prefabricated pump station of integration

Info

Publication number: CN113529915B
Application number: CN202110903868.2A
Authority: CN
Inventors: 李华娥
Original assignee: Frank Water Jiangsu Co ltd
Current assignee: Frank Water Group Co ltd
Priority date: 2021-08-06
Filing date: 2021-08-06
Publication date: 2022-09-09
Anticipated expiration: 2041-08-06
Also published as: CN113529915A

Abstract

The invention provides an integrated prefabricated pump station which comprises an impurity filtering chamber, a power adjusting chamber and a flow monitoring chamber, wherein a first electric cylinder bottom plate is fixed on the upper side surface in the impurity filtering chamber, a first electric cylinder is fixed on the lower side surface of the first electric cylinder bottom plate, a first action rod is arranged at the bottom power output end of the first electric cylinder, a longitudinal filter plate is fixed at the bottom end of the first action rod, the bottom end of the longitudinal filter plate extends into a flow-through box, the bottom end of the longitudinal filter plate is fixedly connected with the top end of an inclined filter plate, the left side surface of the flow-through box is in contact communication with the right end of a flow inlet pipe, the left end of the flow inlet pipe extends out of the left side surface of the impurity filtering chamber, and the right side surface of the flow-through box is in contact communication with the left end of a first intermediate pipe. The technical scheme disclosed by the invention effectively solves the technical problems that the prior art does not have the effective filtering capacity of impurities and cannot realize two-gear regulation of water flow power, real-time flow supervision and the like, and is beneficial to popularization and application.

Description

Prefabricated pump station of integration

Technical Field

The invention relates to the technical field of pump stations, in particular to an integrated prefabricated pump station.

Background

A prefabricated pump station is an integrated product integrating a submersible pump, pump station equipment, a control system and the like. The prefabricated pump station has the characteristics of flexibility, short construction period and simple installation. At present, the method becomes a new pump station construction development trend in the domestic municipal industry. With the application technology of the integrated prefabricated pump station in China becoming mature and developing to large scale, the integrated prefabricated pump station with the diameter of 3800mm is available at present; but the integrated pump station of big discharge capacity has also met the bottleneck, and big discharge capacity rainwater pump station is in urban drainage system, and the frequent dirty mixed flow of rain of coming water in the pipeline is mingled with debris such as some rubbish, wooden stick, and inside together getting into the pump station, often blockking up the water inlet of immersible pump, the normal operating of influence integrated pump station water pump.

The invention of the integrated prefabricated pump station brings various conveniences to production and life of people, and the integrated prefabricated pump station plays an important role in modern production and life. However, the existing integrated prefabricated pump station does not always have the effective filtering capability of impurities and cannot realize the technical problems of water flow power two-gear adjustment, flow real-time supervision and the like, so in view of the above, research and improvement are carried out on the structure and the deficiency in the prior art, and a novel integrated prefabricated pump station is provided, which can effectively solve the problems and is beneficial to the future popularization and application of the device.

Disclosure of Invention

The invention aims to provide an integrated prefabricated pump station, which solves the technical problems that the prior art does not have effective impurity filtering capability, and cannot realize two-gear regulation of water flow power, real-time flow supervision and the like.

In order to realize the aim, the invention provides an integrated prefabricated pump station which comprises an impurity filtering chamber, a power adjusting chamber and a flow monitoring chamber, a first electric cylinder bottom plate is fixed on the upper side surface inside the impurity filtering chamber, a first electric cylinder is fixed on the lower side surface of the first electric cylinder bottom plate, the bottom power output end of the first electric cylinder is provided with a first action rod, the bottom end of the first action rod is fixed with a longitudinally arranged filter plate, the bottom end of the longitudinal filter plate extends into the flow-through box, the bottom end of the longitudinal filter plate is fixedly connected with the top end of the inclined filter plate, the left side surface of the flow-through box is in contact communication with the right end of the inflow pipe, the left end of the inflow pipe extends out of the left side surface of the impurity filtering chamber, the right side surface of the flow-through box is in contact communication with the left end of the first middle pipe, and the right end of the first middle pipe extends out of the right side surface of the impurity filtering chamber and extends into the power adjusting chamber.

The left side face of the inside of the impurity filtering chamber is fixedly provided with a second electric cylinder bottom plate, the right side face of the second electric cylinder bottom plate is fixedly provided with a second electric cylinder, the right power output end of the second electric cylinder is provided with a second action rod, the right end of the second action rod is fixedly provided with a first return spring, the right end of the first return spring is fixedly provided with a first push-pull rod, the right end of the first push-pull rod extends into the shrinking pipe, the right end of the first push-pull rod is fixedly provided with a rubber ball, the top of the shrinking pipe is in contact communication with the bottom of the flowing box, and the bottom of the shrinking pipe is in contact communication with the top of the storage box.

The inside downside of impurity filtering room be fixed with the support arm, the top of support arm be fixed with the nut, the middle part periphery of the interior week of nut and long screw rod cooperate through threaded connection, the right-hand member of long screw rod be provided with the end piece, the left end of long screw rod be provided with the damping ball, the left part periphery of damping ball and the right flank contact of pressurized conducting rod, the top of pressurized conducting rod stretch into the inside of storage box, the top of pressurized conducting rod be fixed with the pressure board, the left part of the downside of pressure board be provided with second return spring, the bottom of pressurized conducting rod stretch into the inside of electric cabinet, the left side of the bottom of pressurized conducting rod and the right flank contact of upper fixed end piece, upper fixed end piece be provided with next fixed end piece under, upper fixed end piece, A first power supply and a second electric cylinder controller are connected in series between the left side surfaces of the lower fixed end pieces through leads.

The inside side of going up of power adjustment room be fixed with the motor bottom plate, the downside of motor bottom plate be fixed with the motor, the bottom power take off of motor be provided with the rotation axis, the bottom mounting of rotation axis have the shaft coupling, the downside of shaft coupling be fixed with first transmission shaft, the bottom of first transmission shaft stretch into the inside of headstock, the bottom mounting of first transmission shaft have first power impeller, the right-hand member contact intercommunication of left surface and first intermediate tube of headstock, the right-hand member of headstock and the left end contact intercommunication of second intermediate tube, the right-hand member of second intermediate tube stretch out and stretch into the inside of flow monitoring room from the right side of power adjustment room, the bottom surface of first power impeller be fixed with the second transmission shaft, the middle part of second transmission shaft be provided with first cylindrical gear, the bottom end of the second transmission shaft is fixedly provided with a second power impeller, a second cylindrical gear is arranged right to the first cylindrical gear, the second cylindrical gear is arranged in the middle of a fourth transmission shaft, the top end of the fourth transmission shaft is fixedly provided with a third power impeller, the top surface of the third power impeller is provided with a third transmission shaft, the bottom end of the fourth transmission shaft is fixedly provided with a fourth power impeller, and the bottom surface of the fourth power impeller is provided with a support shaft.

The power adjusting chamber is characterized in that a second guide rod is fixed on the lower side surface inside the power adjusting chamber, the outer periphery of the second guide rod is in contact with the inner periphery of a second sleeve, the second sleeve can perform displacement motion along the second guide rod, a third return spring is fixed at the right end of the second sleeve, a first guide rod is fixed at the right end of the third return spring, the outer periphery of the first guide rod is in contact with the inner periphery of the first sleeve, the right end of the first guide rod is in contact with a lower groove, an upper groove is arranged on the upper side of the lower groove, the right end of the lower groove and the right end of the upper groove are fixedly connected with the left side surface of a side plate, the right side surface of the side plate is fixedly connected with the right side surface inside the power adjusting chamber, a displacement rod is fixed at the top of the first sleeve, and the top end of the displacement rod extends into the power box, and an intermediate gear is fixed at the top end of the displacement rod.

The flow monitoring device is characterized in that a flow sensing box is arranged in the flow monitoring chamber, the left side surface of the flow sensing box is in contact communication with the right end of a second middle pipe, the right side surface of the flow sensing box is in contact communication with the left end of a flow outlet pipe, the right end of the flow outlet pipe extends out of the right side surface of the flow monitoring chamber, a follow-up rotating wheel is arranged in the flow sensing box, a first bevel gear is fixed on the front side surface of the follow-up rotating wheel, the lower part of the first bevel gear is in contact meshing with the rear part of a second bevel gear, a rotating shaft is fixed on the bottom surface of the second bevel gear, the bottom end of the rotating shaft extends out of the lower side surface of the flow sensing box, a third bevel gear is fixed at the bottom end of the rotating shaft, the rear part of the third bevel gear is in contact meshing with the upper part of a fourth bevel gear, the fourth bevel gear is fixed on the front side surface of a driving roller, the left part of the driving roller is in peripheral contact with the left part inner periphery of a driving belt, the inner periphery of the right part of the transmission belt is in contact with the outer periphery of the right part of the driven roller, the outer periphery of the upper part of the transmission belt is provided with an upper magnet, and the outer periphery of the lower part of the transmission belt is provided with a lower magnet.

The flow monitoring device is characterized in that a fourth return spring is fixed on the right side face of the interior of the flow monitoring chamber, a side position arm is fixed at the left end of the fourth return spring, an alarm instrument is arranged on the positive left side of the side position arm, a starting button is arranged on the right side face of the alarm instrument, the rear side face of the starting button is fixedly connected with the rear side face of the interior of the flow monitoring chamber, an iron bar is fixed at the bottom end of the side position arm, an iron core is arranged on the positive left side of the iron bar, a second induction coil wraps the periphery of the middle of the iron core, a first guide sheet and a second guide sheet are arranged on the upper side face of the second induction coil, the top end of the first guide sheet is electrically connected with the right side face of a first protection resistor through a wire, the left side face of the first protection resistor is electrically connected with the bottom end of a first diode through a wire, and the top end of the first diode is a positive end, the top of first diode pass through wire and first induction coil's left end electric connection, the top of second guide card pass through wire and second protective resistance's left surface electric connection, second protective resistance's right flank pass through wire and second diode's bottom electric connection, the bottom of second diode be the positive terminal, the top of second diode pass through wire and first induction coil's right-hand member electric connection, first protective resistance, first diode, second protective resistance setting in the inside of rectifier box.

First electronic jar, the electronic jar of second, motor, first induction coil, second induction coil, siren etc. be the equipment of existing equipment, consequently, specific model and specification are not repeated.

The beneficial effects of the invention are:

1. the components of the integrated prefabricated pump station are reliably connected, the detection and maintenance are very convenient, the implementation cost is low, the first electric cylinder, the second electric cylinder, the motor, the first induction coil, the second induction coil, the alarm instrument and the like which are involved in the equipment are all assembled in the existing equipment, and the popularization and the application of the integrated prefabricated pump station in the technical field of future pump stations are facilitated;

2. the integrated prefabricated pump station innovatively realizes the effective filtering action on impurities such as garbage in water flow and avoids the blocking action of equipment caused by excessive garbage, and particularly, a first electric cylinder bottom plate is fixed on the upper side face in the impurity filtering chamber, a first electric cylinder is fixed on the lower side face of the first electric cylinder bottom plate, a first action rod is arranged at the bottom power output end of the first electric cylinder, a longitudinal filter plate is fixed at the bottom end of the first action rod, the bottom end of the longitudinal filter plate extends into the flow-through box, the bottom end of the longitudinal filter plate is fixedly connected with the top end of an inclined filter plate, the left side face of the flow-through box is in contact communication with the right end of a flow-in pipe, the left end of the flow-in pipe extends out of the left side face of the impurity filtering chamber, the right side face of the flow-through box is in contact communication with the left end of a first intermediate pipe, the right end of the first intermediate pipe extends out of the right side face of the impurity filtering chamber and extends into the power regulating chamber, a second electric cylinder bottom plate is fixed on the left side surface inside the impurity filtering chamber, a second electric cylinder is fixed on the right side surface of the second electric cylinder bottom plate, a second action rod is arranged at the right side power output end of the second electric cylinder, a first return spring is fixed on the right end of the second action rod, a first push-pull rod is fixed on the right end of the first return spring, the right end of the first push-pull rod extends into the contracting pipe, a rubber ball is fixed on the right end of the first push-pull rod, the top of the contracting pipe is communicated with the bottom of the flowing box in a contacting manner, the bottom of the contracting pipe is communicated with the top of the storage box in a contacting manner, a support arm is fixed on the lower side surface inside the impurity filtering chamber, a nut is fixed on the top end of the support arm, the inner periphery of the nut is matched with the middle periphery of the long screw rod through threaded connection, an end piece is arranged on the right end of the long screw rod, a damping ball is arranged at the left end of the long screw rod, the outer periphery of the left portion of the damping ball is contacted with the right side surface of the compressed conductive rod, the top end of a pressed conducting rod extends into the storage box, a pressed plate is fixed at the top end of the pressed conducting rod, a second return spring is arranged at the left part of the lower side surface of the pressed plate, the bottom end of the pressed conducting rod extends into the electric cabinet, the left side surface of the bottom of the pressed conducting rod is in contact with the right side surface of an upper fixed end sheet, a lower fixed end sheet is arranged right below the upper fixed end sheet, a first power supply and a second electric cylinder controller are connected in series between the left side surfaces of the upper fixed end sheet and the lower fixed end sheet through wires, furthermore, when water flows through the box, garbage in the water flow is intercepted by an inclined filter plate, the first electric cylinder works and outputs reciprocating motion of extending and contracting through a first action rod, when the first action rod extends out, the inclined filter plate pushes the garbage into a contraction pipe and the storage box, and the bottom end of the inclined filter plate is in contact with the pressed plate, the pressed conductive rod is pushed to move downwards, the left side face of the pressed conductive rod is in contact communication with the upper fixed end piece and the lower fixed end piece, the second electric cylinder controller is electrified, the second electric cylinder works and outputs power through the second action rod, the first push-pull rod pushes the rubber ball to move rightwards and is in contact with the inclined filter plate, when the first action rod contracts, the inclined filter plate moves upwards, due to the damping friction effect of the damping ball on the right side face of the pressed conductive rod, the pressed conductive rod moves upwards slowly, so that even if the inclined filter plate is separated from the pressed plate, the second electric cylinder controller cannot lose power immediately, the second electric cylinder can still maintain displacement output for a period of time, so that the left side face of the inclined filter plate is stripped of adhered garbage through the rubber ball, and the garbage enters the storage box;

3. the power adjusting chamber is innovatively designed to achieve two-gear adjustment of water flow power, the applicability of the device is improved, the device has a self-locking function after a gear is determined, and position shifting is prevented, specifically, a motor bottom plate is fixed on the upper side face inside the power adjusting chamber, a motor is fixed on the lower side face of the motor bottom plate, a rotating shaft is arranged at the bottom power output end of the motor, a coupler is fixed at the bottom end of the rotating shaft, a first transmission shaft is fixed on the lower side face of the coupler, the bottom end of the first transmission shaft extends into the power box, a first power impeller is fixed at the bottom end of the first transmission shaft, the left side face of the power box is in contact communication with the right end of a first middle pipe, the right side face of the power box is in contact communication with the left end of a second middle pipe, the right end of the second middle pipe extends out of the right side face of the power adjusting chamber and extends into the flow monitoring chamber, a second transmission shaft is fixed on the bottom surface of the first power impeller, a first cylindrical gear is arranged in the middle of the second transmission shaft, a second power impeller is fixed at the bottom end of the second transmission shaft, a second cylindrical gear is arranged right to the first cylindrical gear, the second cylindrical gear is arranged in the middle of a fourth transmission shaft, a third power impeller is fixed at the top end of the fourth transmission shaft, a third transmission shaft is arranged on the top surface of the third power impeller, a fourth power impeller is fixed at the bottom end of the fourth transmission shaft, a support shaft is arranged on the bottom surface of the fourth power impeller, a second guide rod is fixed on the lower side surface inside the power adjusting chamber, the outer periphery of the second guide rod is in contact with the inner periphery of the second sleeve, the second sleeve can perform displacement motion along the second guide rod, a third return spring is fixed at the right end of the second sleeve, a first guide rod is fixed at the right end of the third return spring, the outer periphery of the first guide rod is in contact with the inner periphery of the first sleeve, the right-hand member of first guide bar contacts with lower recess, the upside of lower recess is provided with upper recess, lower recess, the right-hand member of upper recess and the left surface fixed connection of side board, the right flank of side board and the inside right flank fixed connection of power adjustment room, first sheathed tube top is fixed with the displacement pole, the top of displacement pole stretches into the inside of headstock, the top of displacement pole is fixed with intermediate gear, and then, the motor work is passed through the rotation axis with power, the shaft coupling transmits first transmission shaft, first power impeller, second power impeller rotates and drives the rivers motion, and then realize the rivers power output of first gear, when needing to adjust to the second gear, the user can adjust the position of first guide bar, make the right-hand member of first guide bar contact with upper recess, make the left and right parts of intermediate gear respectively with first cylindrical gear, The second cylindrical gear is in contact engagement, so that the third power impeller and the fourth power impeller are driven to rotate, and water flow power output of a second gear is realized;

4. the integrated prefabricated pump station can realize the real-time monitoring effect on the water flow based on the flow monitoring chamber, and can timely send out an alarm effect to attract the attention of a user when the water flow is overlarge, in particular, a flow sensing box is arranged in the flow monitoring chamber, the left side surface of the flow sensing box is in contact communication with the right end of a second intermediate pipe, the right side surface of the flow sensing box is in contact communication with the left end of a flow outlet pipe, the right end of the flow outlet pipe extends out of the right side surface of the flow monitoring chamber, a follow-up rotating wheel is arranged in the flow sensing box, a first bevel gear is fixed on the front side surface of the follow-up rotating wheel, the lower part of the first bevel gear is in contact engagement with the rear part of a second bevel gear, a rotating shaft is fixed on the bottom surface of the second bevel gear, the bottom end of the rotating shaft extends out of the lower side surface of the flow sensing box, a third bevel gear is fixed on the bottom end of the rotating shaft, the rear part of the third bevel gear is in contact engagement with the upper part of a fourth bevel gear, a fourth bevel gear is fixed on the front side surface of the driving roller, the left outer periphery of the driving roller is contacted with the left inner periphery of the driving belt, the right inner periphery of the driving belt is contacted with the right outer periphery of the driven roller, the upper outer periphery of the driving belt is provided with an upper magnet, the lower outer periphery of the driving belt is provided with a lower magnet, the inner right side surface of the flow monitoring chamber is fixed with a fourth return spring, the left end of the fourth return spring is fixed with a side position arm, an alarm instrument is arranged right left of the side position arm, the right side surface of the alarm instrument is provided with a start button, the rear side surface of the start button is fixedly connected with the inner rear side surface of the flow monitoring chamber, the bottom end of the side position arm is fixed with an iron bar, an iron core is arranged right left of the iron bar, the middle outer periphery of the iron core is wrapped with a second induction coil, the upper side surface of the second induction coil is provided with a first guide sheet and a second guide sheet, the top end of the first guide sheet is electrically connected with the right side surface of the first protection resistor through a lead wire, the left side surface of the first protection resistor is electrically connected with the bottom end of the first diode through a wire, the top end of the first diode is a positive end, the top end of the first diode is electrically connected with the left end of the first induction coil through a wire, the top end of the second guide sheet is electrically connected with the left side surface of the second protection resistor through a wire, the right side surface of the second protection resistor is electrically connected with the bottom end of the second diode through a wire, the bottom end of the second diode is a positive end, the top end of the second diode is electrically connected with the right end of the first induction coil through a wire, the first protection resistor, the first diode, the second diode and the second protection resistor are arranged in the rectifier box, then, water flows through the induction box and drives the following runner to rotate, the motion is transmitted to the driving roller through the meshing action of the bevel gears, and an upper magnet, a lower magnet, a lower magnet, a lower magnet, a lower, The magnetic induction line generated by the lower magnet continuously cuts the first induction coil. The induced current of production exerts in second induction coil after the rectification, and rivers flow is when big more, and the induced current of production is big more, and the magnetic field gravitation to the ironbar that second induction coil parcel iron core produced is big more, and then magnetic field gravitation pulling ironbar, side position arm move left, and the starting button that the left surface of side position arm pressed the siren right flank to set up, and the siren sends out the police dispatch newspaper in order to remind the user that current rivers flow is too big.

In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below.

Drawings

FIG. 1 is a schematic diagram of an axial side projection structure of the overall structure of the device of the present invention.

Fig. 2 is a front view of the overall structure of the device of the present invention.

Fig. 3 is a left side view of the overall structure of the device of the present invention.

Fig. 4 is a schematic view of the internal structure of the impurity filtering chamber according to the present invention.

Fig. 5 is a schematic view of an internal structure of the electric cabinet according to the present invention.

Fig. 6 is a schematic view of the internal structure of the power adjusting chamber according to the present invention.

Fig. 7 is a schematic view of the internal cross-sectional structure of the dynamic adjustment chamber according to the present invention.

Fig. 8 is a schematic view of the internal structure of the flow monitoring chamber according to the present invention.

Fig. 9 is a schematic view of the internal structure of the rectification box according to the present invention.

1. An impurity filtering chamber, 2, a power adjusting chamber, 3, a flow monitoring chamber, 4, an inflow pipe, 5, a first intermediate pipe, 6, a second intermediate pipe, 7, an outflow pipe, 8, a first electric cylinder bottom plate, 9, a first electric cylinder, 10, a first action rod, 11, a longitudinal filter plate, 12, a flow through box, 13, an oblique filter plate, 14, a contraction pipe, 15, a storage box, 16, a second electric cylinder bottom plate, 17, a second electric cylinder, 18, a second action rod, 19, a first return spring, 20, a first push-pull rod, 21, a rubber ball, 22, a pressure plate, 23, a second return spring, 24, a pressure conductive rod, 25, an electric cabinet, 26, a damping ball, 27, a long screw, 28, an end plate, 29, a nut, 30, a support arm, 31, an upper fixed end plate, 32, a lower fixed end plate, 33, a first power supply, 34, a second electric cylinder controller, 35, a lead wire, 36. motor base plate 37, motor 38, rotation shaft 39, coupling 40, power box 41, first transmission shaft 42, first power impeller 43, second transmission shaft 44, first cylindrical gear 45, second power impeller 46, third transmission shaft 47, third power impeller 48, fourth transmission shaft 49, second cylindrical gear 50, fourth power impeller 51, support shaft 52, intermediate gear 53, displacement rod 54, first sleeve 55, first guide rod 56, third return spring 57, second sleeve 58, second guide rod 59, lower groove 60, upper groove 61, side plate 62, flow sensing box 63, follower roller 64, first bevel gear 65, second bevel gear 66, rotation shaft 67, third bevel gear 68, fourth bevel gear 69, driving roller 70, driven roller, 71. the magnetic control circuit comprises a transmission belt, 72, an upper magnet, 73, a lower magnet, 74, a first induction coil, 75, a rectifying box, 76, a first guide vane, 77, a second guide vane, 78, a second induction coil, 79, an iron core, 80, an iron bar, 81, a side position arm, 82, a fourth return spring, 83, an alarm instrument, 84, a starting button, 85, a first protection resistor, 86, a first diode, 87, a second diode, 88 and a second protection resistor.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

referring to fig. 1 to 9, the integrated prefabricated pump station provided by the invention comprises an impurity filtering chamber 1, a power adjusting chamber 2 and a flow monitoring chamber 3, wherein a first electric cylinder bottom plate 8 is fixed on the upper side surface inside the impurity filtering chamber 1, a first electric cylinder 9 is fixed on the lower side surface of the first electric cylinder bottom plate 8, a first action rod 10 is arranged at the power output end of the bottom of the first electric cylinder 9, a longitudinal filter plate 11 is fixed at the bottom end of the first action rod 10, the bottom end of the longitudinal filter plate 11 extends into a flow-through box 12, the bottom end of the longitudinal filter plate 11 is fixedly connected with the top end of an inclined filter plate 13, the left side surface of the flow-through box 12 is in contact communication with the right end of a flow-through pipe 4, the left end of the flow-through pipe 4 extends out of the left side surface of the impurity filtering chamber 1, the right side surface of the flow-through box 12 is in contact communication with the left end of a first intermediate pipe 5, the right end of the first middle pipe 5 extends out of the right side surface of the impurity filtering chamber 1 and extends into the power adjusting chamber 2.

Further, a second electric cylinder bottom plate 16 is fixed on the left side surface of the interior of the impurity filtering chamber 1, a second electric cylinder 17 is fixed on the right side surface of the second electric cylinder bottom plate 16, a second action rod 18 is arranged at the right power output end of the second electric cylinder 17, a first return spring 19 is fixed on the right end of the second action rod 18, a first push-pull rod 20 is fixed on the right end of the first return spring 19, the right end of the first push-pull rod 20 extends into the interior of the shrinkage pipe 14, a rubber ball 21 is fixed on the right end of the first push-pull rod 20, the top of the shrinkage pipe 14 is in contact communication with the bottom of the flowing box 12, and the bottom of the shrinkage pipe 14 is in contact communication with the top of the storage box 15.

Further, the inside downside of impurity filtering room 1 be fixed with support arm 30, the top of support arm 30 be fixed with nut 29, the middle part periphery of nut 29 and long screw 27 cooperate through threaded connection, the right-hand member of long screw 27 be provided with end piece 28, the left end of long screw 27 be provided with damping ball 26, the left part periphery of damping ball 26 and the right flank contact of pressurized conducting rod 24, the top of pressurized conducting rod 24 stretch into the inside of storage box 15, the top of pressurized conducting rod 24 be fixed with pressure receiving plate 22, the left part of the downside of pressure receiving plate 22 be provided with second return spring 23, the bottom of pressurized conducting rod 24 stretch into the inside of electric cabinet 25, the left flank of the bottom of pressurized conducting rod 24 and the right flank contact of upper fixed end piece 31, a lower fixed end piece 32 is arranged right below the upper fixed end piece 31, and a first power supply 33 and a second electric cylinder controller 34 are connected in series between the left side surfaces of the upper fixed end piece 31 and the lower fixed end piece 32 through a lead 35. Furthermore, the device can effectively filter impurities such as garbage in water flow and avoid the blockage of equipment caused by excessive garbage, when the water flow passes through the box 12, the garbage in the water flow is intercepted by the inclined filter plate 13, the first electric cylinder 9 works and outputs reciprocating motion of stretching and shrinking through the first action rod 10, when the first action rod 10 stretches out, the inclined filter plate 13 pushes the garbage into the retraction pipe 14 and the storage box 15, the bottom end of the inclined filter plate 13 is contacted with the pressure receiving plate 22 and pushes the pressure conducting rod 24 to move downwards, then the left side surface of the pressure conducting rod 24 is contacted and communicated with the upper fixed end piece 31 and the lower fixed end piece 32, the second electric cylinder controller 34 is electrified, the second electric cylinder 17 works and outputs power through the second action rod 18, the first push-pull rod 20 pushes the rubber ball 21 to move rightwards and contact with the inclined filter plate 13, when first action bars 10 shrink, put filter 13 upward movement to one side, because the damping friction effect of damping ball 26 to the right flank of pressurized conducting rod 24, pressurized conducting rod 24 slowly upward movement, even when putting filter 13 and pressurized plate 22 to one side and separating, electronic jar controller 34 of second can not lose the electricity immediately, electronic jar 17 of second still can maintain the displacement output of a period, in order to realize the peeling off to putting filter 13 left flank adhesion rubbish to one side through rubber ball 21, make rubbish get into the inside of storage box 15.

Referring to fig. 1 to 9, further, a motor bottom plate 36 is fixed on the upper side surface inside the power adjusting chamber 2, a motor 37 is fixed on the lower side surface of the motor bottom plate 36, a rotating shaft 38 is arranged at the bottom power output end of the motor 37, a coupling 39 is fixed at the bottom end of the rotating shaft 38, a first transmission shaft 41 is fixed on the lower side surface of the coupling 39, the bottom end of the first transmission shaft 41 extends into the power box 40, a first power impeller 42 is fixed at the bottom end of the first transmission shaft 41, the left side surface of the power box 40 is in contact communication with the right end of the first intermediate pipe 5, the right side surface of the power box 40 is in contact communication with the left end of the second intermediate pipe 6, the right end of the second intermediate pipe 6 extends out of the right side surface of the power adjusting chamber 2 and extends into the flow monitoring chamber 3, a second transmission shaft 43 is fixed on the bottom surface of the first power impeller 42, a first cylindrical gear 44 is arranged in the middle of the second transmission shaft 43, a second power impeller 45 is fixed on the bottom end of the second transmission shaft 43, a second cylindrical gear 49 is arranged right on the first cylindrical gear 44, the second cylindrical gear 49 is arranged in the middle of a fourth transmission shaft 48, a third power impeller 47 is fixed on the top end of the fourth transmission shaft 48, a third transmission shaft 46 is arranged on the top surface of the third power impeller 47, a fourth power impeller 50 is fixed on the bottom end of the fourth transmission shaft 48, and a support shaft 51 is arranged on the bottom surface of the fourth power impeller 50.

Further, a second guide rod 58 is fixed on the lower side surface of the inside of the power adjusting chamber 2, the outer periphery of the second guide rod 58 is in contact with the inner periphery of a second sleeve 57, the second sleeve 57 can perform displacement motion along the second guide rod 58, a third return spring 56 is fixed on the right end of the second sleeve 57, a first guide rod 55 is fixed on the right end of the third return spring 56, the outer periphery of the first guide rod 55 is in contact with the inner periphery of the first sleeve 54, the right end of the first guide rod 55 is in contact with a lower groove 59, an upper groove 60 is arranged on the upper side of the lower groove 59, the right ends of the lower groove 59 and the upper groove 60 are fixedly connected with the left side surface of a plate 61, the right side surface of the side plate 61 is fixedly connected with the right side surface of the inside of the power adjusting chamber 2, a displacement rod 53 is fixed on the top of the first sleeve 54, the top end of the displacement rod 53 extends into the power box 40, and the top end of the displacement rod 53 is fixed with the intermediate gear 52. Furthermore, the device can realize two-gear adjustment of water flow power, when a gear is determined, the device has a self-locking function and prevents position shift, the motor 37 works and transmits power to the first transmission shaft 41 through the rotating shaft 38 and the coupling 39, the first power impeller 42 and the second power impeller 45 rotate and drive water flow to move, and further water flow power output of a first gear is realized, and when the device needs to be adjusted to a second gear, a user can adjust the position of the first guide rod 55, so that the right end of the first guide rod 55 is contacted with the upper groove 60, the left part and the right part of the intermediate gear 52 are respectively contacted and meshed with the first cylindrical gear 44 and the second cylindrical gear 49, and further the third power impeller 47 and the fourth power impeller 50 are driven to rotate, and further water flow power output of a second gear is realized.

Referring to fig. 1 to 9, further, a flow sensing box 62 is disposed inside the flow monitoring chamber 3, a left side surface of the flow sensing box 62 is in contact communication with a right end of the second intermediate pipe 6, a right side surface of the flow sensing box 62 is in contact communication with a left end of the outflow pipe 7, the right end of the outflow pipe 7 extends out from the right side surface of the flow monitoring chamber 3, a follower roller 63 is disposed inside the flow sensing box 62, a first bevel gear 64 is fixed to a front side surface of the follower roller 63, a lower portion of the first bevel gear 64 is in contact engagement with a rear portion of a second bevel gear 65, a rotation shaft 66 is fixed to a bottom surface of the second bevel gear 65, a bottom end of the rotation shaft 66 extends out from a lower side surface of the flow sensing box 62, a third bevel gear 67 is fixed to a bottom end of the rotation shaft 66, a rear portion of the third bevel gear 67 is in contact engagement with an upper portion of a fourth bevel gear 68, the fourth bevel gear 68 is fixed on the front side of the driving roller 69, the left outer periphery of the driving roller 69 contacts with the left inner periphery of the driving belt 71, the right inner periphery of the driving belt 71 contacts with the right outer periphery of the driven roller 70, the upper outer periphery of the driving belt 71 is provided with an upper magnet 72, and the lower outer periphery of the driving belt 71 is provided with a lower magnet 73.

Further, a fourth return spring 82 is fixed on the right side surface of the interior of the flow monitoring chamber 3, a side arm 81 is fixed on the left end of the fourth return spring 82, an alarm 83 is arranged on the right side of the side arm 81, a start button 84 is arranged on the right side surface of the alarm 83, the rear side surface of the start button 84 is fixedly connected with the rear side surface of the interior of the flow monitoring chamber 3, an iron bar 80 is fixed on the bottom end of the side arm 81, an iron core 79 is arranged on the right left side of the iron bar 80, a second induction coil 78 is wrapped on the periphery of the middle of the iron core 79, a first guide sheet 76 and a second guide sheet 77 are arranged on the upper side surface of the second induction coil 78, the top end of the first guide sheet 76 is electrically connected with the right side surface of a first protection resistor 85 through a wire 35, the left side surface of the first protection resistor 85 is electrically connected with the bottom end of a first diode 86 through a wire 35, the top of first diode 86 be the positive terminal, the top of first diode 86 pass through wire 35 and first induction coil 74's left end electric connection, the top of second guide plate 77 pass through wire 35 and second protection resistance 88's left surface electric connection, the right flank of second protection resistance 88 pass through wire 35 and second diode 87's bottom electric connection, the bottom of second diode 87 be the positive terminal, the top of second diode 87 pass through wire 35 and first induction coil 74's right-hand member electric connection, first protection resistance 85, first diode 86, second diode 87, second protection resistance 88 set up the inside at rectifier box 75. Furthermore, the device can realize the real-time monitoring effect on the water flow, when the water flow is too large, the device can give an alarm in time to attract the attention of a user, the water flow passes through the flow sensing box 62 and drives the follow-up rotating wheel 63 to rotate, the motion is transmitted to the driving roller 69 through the meshing effect of the bevel gears, and the magnetic induction lines generated by the upper magnet 72 and the lower magnet 73 arranged on the periphery of the moving transmission belt 71 continuously cut the first induction coil 74. The generated induced current is applied to the second induction coil 78 after rectification, when the water flow is larger, the generated induced current is larger, the magnetic attraction force generated by the second induction coil 78 wrapping the iron core 79 to the iron bar 80 is larger, the iron bar 80 and the side position arm 81 are pulled by the magnetic attraction force to move leftwards, the left side surface of the side position arm 81 presses a starting button 84 arranged on the right side surface of the alarm 83, and the alarm 83 gives an alarm to remind a user that the current water flow is too large.

The first electric cylinder 9, the second electric cylinder 17, the motor 37, the first induction coil 74, the second induction coil 78, the alarm 83 and the like are all assembled in the existing equipment, and therefore specific models and specifications are not described in detail.

The working principle of the invention is as follows:

the invention provides an integrated prefabricated pump station which comprises an impurity filtering chamber 1, a power adjusting chamber 2 and a flow monitoring chamber 3, wherein a first electric cylinder bottom plate 8 is fixed on the upper side surface inside the impurity filtering chamber 1, a first electric cylinder 9 is fixed on the lower side surface of the first electric cylinder bottom plate 8, a first action rod 10 is arranged at the power output end of the bottom of the first electric cylinder 9, a longitudinal filter plate 11 is fixed at the bottom end of the first action rod 10, the bottom end of the longitudinal filter plate 11 extends into a flow-through box 12, the bottom end of the longitudinal filter plate 11 is fixedly connected with the top end of an inclined filter plate 13, the left side surface of the flow-through box 12 is in contact communication with the right end of a flow-in pipe 4, the left end of the flow-in pipe 4 extends out of the left side surface of the impurity filtering chamber 1, the right side surface of the flow-through box 12 is in contact communication with the left end of a first intermediate pipe 5, the right end of the first middle pipe 5 extends out of the right side surface of the impurity filtering chamber 1 and extends into the power adjusting chamber 2, the left side surface of the inside of the impurity filtering chamber 1 is fixed with a second electric cylinder bottom plate 16, the right side surface of the second electric cylinder bottom plate 16 is fixed with a second electric cylinder 17, the right power output end of the second electric cylinder 17 is provided with a second action rod 18, the right end of the second action rod 18 is fixed with a first return spring 19, the right end of the first return spring 19 is fixed with a first push-pull rod 20, the right end of the first push-pull rod 20 extends into the inside of the collecting and retracting pipe 14, the right end of the first push-pull rod 20 is fixed with a rubber ball 21, the top of the contracting pipe 14 is in contact communication with the bottom of the flowing box 12, the bottom of the contracting pipe 14 is in contact communication with the top of the storage box 15, and the lower side surface of the inside of the impurity filtering chamber 1 is fixed with a support arm 30, the top of support arm 30 be fixed with the nut 29, the middle part periphery of the interior week of nut 29 and long screw 27 cooperate through threaded connection, the right-hand member of long screw 27 be provided with end piece 28, the left end of long screw 27 be provided with damping ball 26, the left part periphery of damping ball 26 and the right flank contact of pressurized conducting rod 24, the top of pressurized conducting rod 24 stretch into the inside of storage box 15, the top of pressurized conducting rod 24 be fixed with pressure receiving plate 22, the left part of the downside of pressure receiving plate 22 be provided with second return spring 23, the bottom of pressurized conducting rod 24 stretch into the inside of electric cabinet 25, the left flank of the bottom of pressurized conducting rod 24 and the right flank contact of upper fixed end piece 31, upper fixed end piece 31 be provided with lower fixed end piece 32 under, and then, the device can effectively filter impurities such as garbage in water flow and avoid the blockage of equipment caused by excessive garbage, when the water flow flows through the box 12, the garbage in the water flow is intercepted by the inclined filter plate 13, the first electric cylinder 9 works and outputs reciprocating motion of stretching and shrinking through the first action rod 10, when the first action rod 10 stretches out, the inclined filter plate 13 pushes the garbage into the retraction pipe 14 and the storage box 15, the bottom end of the inclined filter plate 13 is contacted with the pressure receiving plate 22 and pushes the pressure conductive rod 24 to move downwards, the left side surface of the pressure conductive rod 24 is further contacted and communicated with the upper fixed end piece 31 and the lower fixed end piece 32, the second electric cylinder controller 34 is electrified, the second electric cylinder 17 works and outputs power through the second action rod 18, the first push-pull rod 20 pushes the rubber ball 21 to move rightwards and contact with the inclined filter plate 13, when first action bars 10 shrink, put filter 13 upward movement to one side, because the damping friction effect of damping ball 26 to the right flank of pressurized conducting rod 24, pressurized conducting rod 24 slowly upward movement, even when putting filter 13 and pressurized plate 22 to one side and separating, electronic jar controller 34 of second can not lose the electricity immediately, electronic jar 17 of second still can maintain the displacement output of a period, in order to realize the peeling off to putting filter 13 left flank adhesion rubbish to one side through rubber ball 21, make rubbish get into the inside of storage box 15.

The inside of power adjustment room 2 on the side be fixed with motor bottom plate 36, the downside of motor bottom plate 36 be fixed with motor 37, the bottom power take off of motor 37 be provided with rotation axis 38, the bottom mounting of rotation axis 38 have shaft coupling 39, the downside of shaft coupling 39 be fixed with first transmission shaft 41, the bottom of first transmission shaft 41 stretch into the inside of headstock 40, the bottom mounting of first transmission shaft 41 have first power impeller 42, the left side of headstock 40 and the right-hand member contact intercommunication of first intermediate tube 5, the right flank of headstock 40 and the left end of second intermediate tube 6 contact the intercommunication, the right-hand member of second intermediate tube 6 stretch out and stretch into the inside of flow monitoring room 3 from the right flank of power adjustment room 2, the bottom surface of first power impeller 42 be fixed with second transmission shaft 43, a first cylindrical gear 44 is arranged in the middle of the second transmission shaft 43, a second power impeller 45 is fixed at the bottom end of the second transmission shaft 43, a second cylindrical gear 49 is arranged right and right of the first cylindrical gear 44, the second cylindrical gear 49 is arranged in the middle of a fourth transmission shaft 48, a third power impeller 47 is fixed at the top end of the fourth transmission shaft 48, a third transmission shaft 46 is arranged on the top surface of the third power impeller 47, a fourth power impeller 50 is fixed at the bottom end of the fourth transmission shaft 48, a support shaft 51 is arranged on the bottom surface of the fourth power impeller 50, a second guide rod 58 is fixed on the lower side surface inside the power adjusting chamber 2, the outer periphery of the second guide rod 58 is in contact with the inner periphery of a second sleeve 57, and the second sleeve 57 can perform displacement motion along the second guide rod 58, the right end of the second sleeve 57 is fixed with a third return spring 56, the right end of the third return spring 56 is fixed with a first guide rod 55, the outer periphery of the first guide rod 55 is contacted with the inner periphery of the first sleeve 54, the right end of the first guide rod 55 is contacted with a lower groove 59, the upper side of the lower groove 59 is provided with an upper groove 60, the right ends of the lower groove 59 and the upper groove 60 are fixedly connected with the left side surface of a side plate 61, the right side surface of the side plate 61 is fixedly connected with the inner right side surface of the power adjusting chamber 2, furthermore, the device can realize two-gear adjustment of water flow power, has a self-locking function after determining a gear position, prevents position shift, the motor 37 works and transmits power to the first transmission shaft 41 through the rotating shaft 38 and the coupling 39, the first power impeller 42 and the second power impeller 45 rotate and drive water flow to move, and then realize the rivers power output of first gear, when needing to adjust to the second gear, the user can adjust the position of first guide bar 55 for the right-hand member of first guide bar 55 contacts with upper recess 60, makes the contact meshing with first cylindrical gear 44, second cylindrical gear 49 respectively in the left and right parts of intermediate gear 52, and then drives third power impeller 47, fourth power impeller 50 and rotates, and then realizes the rivers power output of second gear.

A flow sensing box 62 is arranged in the flow monitoring chamber 3, the left side surface of the flow sensing box 62 is in contact communication with the right end of the second middle pipe 6, the right side surface of the flow sensing box 62 is in contact communication with the left end of the outflow pipe 7, the right end of the outflow pipe 7 extends out of the right side surface of the flow monitoring chamber 3, a follow-up rotating wheel 63 is arranged in the flow sensing box 62, a first bevel gear 64 is fixed on the front side surface of the follow-up rotating wheel 63, the lower part of the first bevel gear 64 is in contact engagement with the rear part of a second bevel gear 65, a rotating shaft 66 is fixed on the bottom surface of the second bevel gear 65, the bottom end of the rotating shaft 66 extends out of the lower side surface of the flow sensing box 62, a third bevel gear 67 is fixed on the bottom end of the rotating shaft 66, the rear part of the third bevel gear 67 is in contact engagement with the upper part of a fourth bevel gear 68, the fourth bevel gear 68 is fixed on the front side surface of a driving roller 69, the left part outer periphery of the driving roller 69 is contacted with the left part inner periphery of the driving belt 71, the right part inner periphery of the driving belt 71 is contacted with the right part outer periphery of the driven roller 70, the upper part outer periphery of the driving belt 71 is provided with an upper magnet 72, the lower part outer periphery of the driving belt 71 is provided with a lower magnet 73, the right side surface of the inside of the flow monitoring chamber 3 is fixed with a fourth return spring 82, the left end of the fourth return spring 82 is fixed with a side position arm 81, the right left side of the side position arm 81 is provided with an alarm 83, the right side surface of the alarm 83 is provided with a starting button 84, the rear side surface of the starting button 84 is fixedly connected with the back side surface of the inside of the flow monitoring chamber 3, the bottom end of the side position arm 81 is fixed with an iron bar 80, the right left side of the iron bar 80 is provided with an iron core 79, the middle part outer periphery of the iron core 79 is wrapped with a second induction coil 78, the upper side surface of the second induction coil 78 is provided with a first guide sheet 76 and a second guide sheet 77, the top end of the first guide sheet 76 is electrically connected with the right side surface of a first protection resistor 85 through a lead 35, the left side surface of the first protection resistor 85 is electrically connected with the bottom end of a first diode 86 through a lead 35, the top end of the first diode 86 is a positive end, the top end of the first diode 86 is electrically connected with the left end of the first induction coil 74 through a lead 35, the top end of the second guide sheet 77 is electrically connected with the left side surface of a second protection resistor 88 through a lead 35, the right side surface of the second protection resistor 88 is electrically connected with the bottom end of a second diode 87 through a lead 35, and the bottom end of the second diode 87 is a positive end, so that the device can realize the real-time monitoring effect on water flow, when the water flow is too large, an alarm is timely given out to attract the attention of a user, the water flow flows through the flow sensing box 62 and drives the follow-up rotating wheel 63 to rotate, the motion is transmitted to the driving roller 69 through the meshing action of the bevel gears, and magnetic induction lines generated by the upper magnet 72 and the lower magnet 73 arranged on the periphery of the moving transmission belt 71 continuously cut the first induction coil 74. The generated induced current is applied to the second induction coil 78 after rectification, when the water flow is larger, the generated induced current is larger, the magnetic attraction force generated by the second induction coil 78 wrapping the iron core 79 to the iron bar 80 is larger, the iron bar 80 and the side position arm 81 are pulled by the magnetic attraction force to move leftwards, the left side surface of the side position arm 81 presses a starting button 84 arranged on the right side surface of the alarm 83, and the alarm 83 gives an alarm to remind a user that the current water flow is too large.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An integrated prefabricated pump station is characterized by comprising an impurity filtering chamber (1), a power adjusting chamber (2) and a flow monitoring chamber (3), wherein a first electric cylinder bottom plate (8) is fixed on the upper side inside the impurity filtering chamber (1), a first electric cylinder (9) is fixed on the lower side surface of the first electric cylinder bottom plate (8), a first action rod (10) is arranged at the power output end of the bottom of the first electric cylinder (9), a longitudinal filter plate (11) is fixed at the bottom end of the first action rod (10), the bottom end of the longitudinal filter plate (11) extends into the flowing box (12), the bottom end of the longitudinal filter plate (11) is fixedly connected with the top end of an inclined filter plate (13), the left side surface of the flowing box (12) is communicated with the right end of a flow inlet pipe (4) in a contact manner, and the left end of the flow inlet pipe (4) extends out from the left side surface of the impurity filtering chamber (1), the right side surface of the flow-through box (12) is in contact communication with the left end of the first middle pipe (5), and the right end of the first middle pipe (5) extends out of the right side surface of the impurity filtering chamber (1) and extends into the power adjusting chamber (2);

the inside of power adjustment room (2) on the side be fixed with motor bottom plate (36), the downside of motor bottom plate (36) be fixed with motor (37), the bottom power take off of motor (37) be provided with rotation axis (38), the bottom mounting of rotation axis (38) have shaft coupling (39), the downside of shaft coupling (39) be fixed with first transmission shaft (41), the bottom of first transmission shaft (41) stretch into the inside of headstock (40), the bottom mounting of first transmission shaft (41) have first power impeller (42), the left side of headstock (40) and the right-hand member contact intercommunication of first intermediate tube (5), the right side of headstock (40) and the left end of second intermediate tube (6) contact the intercommunication, the right-hand member of second intermediate tube (6) stretch out and stretch into the inside of flow monitoring room (3) from the right side of power adjustment room (2), a second transmission shaft (43) is fixed on the bottom surface of the first power impeller (42), a first cylindrical gear (44) is arranged in the middle of the second transmission shaft (43), a second power impeller (45) is fixed at the bottom end of the second transmission shaft (43), a second cylindrical gear (49) is arranged right on the first cylindrical gear (44), the second cylindrical gear (49) is arranged in the middle of a fourth transmission shaft (48), a third power impeller (47) is fixed at the top end of the fourth transmission shaft (48), a third transmission shaft (46) is arranged on the top surface of the third power impeller (47), a fourth power impeller (50) is fixed at the bottom end of the fourth transmission shaft (48), and a support shaft (51) is arranged on the bottom surface of the fourth power impeller (50);

the inside downside of power adjustment room (2) be fixed with second guide bar (58), the periphery of second guide bar (58) and the interior circumference contact of second sleeve pipe (57), second sleeve pipe (57) can carry out displacement motion along second guide bar (58), the right-hand member of second sleeve pipe (57) be fixed with third return spring (56), the right-hand member of third return spring (56) be fixed with first guide bar (55), the periphery of first guide bar (55) and the interior circumference contact of first sleeve pipe (54), the right-hand member of first guide bar (55) and lower recess (59) contact, the upside of lower recess (59) be provided with superior recess (60), the right-hand member of lower recess (59), superior recess (60) and the left flank fixed connection of side board (61), the right flank of side board (61) and the inside right flank fixed connection of power adjustment room (2), a displacement rod (53) is fixed at the top of the first sleeve (54), the top end of the displacement rod (53) extends into the power box (40), and an intermediate gear (52) is fixed at the top end of the displacement rod (53);

the flow monitoring device is characterized in that a flow sensing box (62) is arranged in the flow monitoring chamber (3), the left side surface of the flow sensing box (62) is in contact communication with the right end of a second middle pipe (6), the right side surface of the flow sensing box (62) is in contact communication with the left end of a flow outlet pipe (7), the right end of the flow outlet pipe (7) extends out of the right side surface of the flow monitoring chamber (3), a follow-up rotating wheel (63) is arranged in the flow sensing box (62), a first bevel gear (64) is fixed on the front side surface of the follow-up rotating wheel (63), the lower part of the first bevel gear (64) is in contact engagement with the rear part of a second bevel gear (65), a rotating shaft (66) is fixed on the bottom surface of the second bevel gear (65), the bottom end of the rotating shaft (66) extends out of the lower side surface of the flow sensing box (62), a third bevel gear (67) is fixed at the bottom end of the rotating shaft (66), the rear part of the third bevel gear (67) is in contact and meshing with the upper part of a fourth bevel gear (68), the fourth bevel gear (68) is fixed on the front side surface of a driving roller (69), the left part outer periphery of the driving roller (69) is in contact with the left part inner periphery of a transmission belt (71), the right part inner periphery of the transmission belt (71) is in contact with the right part outer periphery of a driven roller (70), the upper part outer periphery of the transmission belt (71) is provided with an upper magnet (72), and the lower part outer periphery of the transmission belt (71) is provided with a lower magnet (73);

the inside right flank of flow monitoring room (3) be fixed with fourth return spring (82), the left end of fourth return spring (82) be fixed with side position arm (81), the positive left side of side position arm (81) be provided with alarm instrument (83), the right flank of alarm instrument (83) be provided with start button (84), the trailing flank of start button (84) and the inside trailing flank fixed connection of flow monitoring room (3), the bottom mounting of side position arm (81) have iron bar (80), the positive left side of iron bar (80) be provided with iron core (79), the middle part periphery parcel of iron core (79) have second induction coil (78), the side of going up of second induction coil (78) be provided with first guide (76), second guide (77), the top of first guide (76) pass through wire (35) and the right flank electric connection of first protection resistance (85), the left side of first protection resistance (85) pass through wire (35) and the bottom electric connection of first diode (86), the top of first diode (86) be the positive terminal, the top of first diode (86) pass through wire (35) and first induction coil (74) left end electric connection, the top of second guide plate (77) pass through wire (35) and the left side electric connection of second protection resistance (88), the right side of second protection resistance (88) pass through wire (35) and the bottom electric connection of second diode (87), the bottom of second diode (87) be the positive terminal, the top of second diode (87) pass through wire (35) and the right-hand member electric connection of first induction coil (74), first protection resistance (85), first diode (86) and first diode (86), The second diode (87) and the second protection resistor (88) are provided inside the rectifier box (75).

2. The prefabricated pump station of an integration according to claim 1, characterized in that: the left side face of the inside of the impurity filtering chamber (1) is fixedly provided with a second electric cylinder bottom plate (16), the right side face of the second electric cylinder bottom plate (16) is fixedly provided with a second electric cylinder (17), the right power output end of the second electric cylinder (17) is provided with a second action rod (18), the right end of the second action rod (18) is fixedly provided with a first return spring (19), the right end of the first return spring (19) is fixedly provided with a first push-pull rod (20), the right end of the first push-pull rod (20) extends into the inside of the shrinkage pipe (14), the right end of the first push-pull rod (20) is fixedly provided with a rubber ball (21), the top of the shrinkage pipe (14) is in contact communication with the bottom of the flowing box (12), and the bottom of the shrinkage pipe (14) is in contact communication with the top of the storage box (15).

3. The prefabricated pump station of integration according to claim 1, characterized in that: the inside downside of impurity filtering room (1) be fixed with support arm (30), the top of support arm (30) be fixed with nut (29), the middle part periphery of the interior week of nut (29) and long screw rod (27) cooperate through threaded connection, the right-hand member of long screw rod (27) be provided with end piece (28), the left end of long screw rod (27) be provided with damping ball (26), the right flank contact of the left part periphery of damping ball (26) and pressurized conducting rod (24), the top of pressurized conducting rod (24) stretch into the inside of storage box (15), the top of pressurized conducting rod (24) be fixed with and receive pressure board (22), the left part of the downside that receives pressure board (22) be provided with second return spring (23), the bottom of pressurized conducting rod (24) stretch into the inside of electric cabinet (25), the left side of the bottom of the pressed conducting rod (24) is in contact with the right side of the upper fixed end piece (31), a lower fixed end piece (32) is arranged under the upper fixed end piece (31), and a first power supply (33) and a second electric cylinder controller (34) are connected in series between the left sides of the upper fixed end piece (31) and the lower fixed end piece (32) through a lead (35).