CN113982957A - Self-suction sewage pump with moving structure - Google Patents

Abstract

The invention relates to a self-priming sewage pump technology, which is used for solving the problems that the self-priming sewage pump is inconvenient to move underwater, the heat dissipation effect of internal elements is poor, electric power resources are consumed to generate heat, and the removal effect of i impurities attached to a filter screen of a water inlet is poor; according to the self-priming pump, the roller wheels with the plurality of plane plates are driven to rotate by the impeller in the self-priming pump body, so that the self-priming pump body below the liquid level can move in position under the water-stroke action of the roller wheels, the helical blades on the inner side of the helical blade frame are driven to rotate by the impeller in the self-priming pump body, water flow is transmitted into the water cooling pipe, the heat dissipation effect of elements in the self-priming pump body is improved, the filter screen frame rotates under the drive of the impeller in the self-priming pump body, and impurities are prevented from being difficult to separate from the filter screen frame due to the influence of the flow action force of the water flow.

Description

Self-suction sewage pump with moving structure

Technical Field

The invention relates to a self-priming sewage pump technology, in particular to a self-priming sewage pump with a movable structure.

Background

The self-priming sewage pump integrates self priming and non-blocking sewage discharge, adopts an axial backflow external mixing type, and can suck and discharge large-particle solid and long-fiber impurity liquid without installing a bottom valve and priming water as a common self-priming clean water pump through the unique design of a pump body and an impeller runner, thereby being widely applicable to sewage discharge engineering;

in the prior art, a cart is mostly adopted for position movement of a self-sucking pump body by a user, so that the self-sucking pump body can only move ashore, the self-sucking pump body needs to be placed in water and driven to rotate by water flow, the self-sucking pump body needs to be placed at a deeper position to ensure that the rotating power of the self-sucking pump body is larger, the transmission power of the self-sucking pump body is improved by water pressure difference, the self-sucking pump body is heavier, the self-sucking pump body is difficult to place at the deeper position of a water flow to be sucked by the user, the water flow suction efficiency of the self-sucking pump body is lower, and more time is delayed; the water pump working underwater mostly adopts no cooling and heat dissipation measures, utilizes water flow in the environment to dissipate heat, adopts a closed structure to prevent water flow from entering the water pump, so that heat generated by internal elements is difficult to exchange with the external environment quickly, and mostly adopts the driving of external power equipment to achieve the heat dissipation effect when the water pump dissipates heat in an air cooling and water cooling mode, so that more power resources are generated while heat is dissipated, and the heat generated by the heat dissipation equipment in the working process of utilizing power is difficult to dissipate; in order to prevent impurities in sewage from entering the self-priming pump body to cause the self-priming pump body to be blocked when the self-priming pump body is used for extracting the sewage, the impurities in the sewage are mostly filtered at an upper water inlet of the self-priming pump body, the impurities filtered by a filter screen are extruded on the filter screen under the action of a water flow action force, the filter screen is easily blocked, the water flow flowing to the inside of the self-priming pump body is reduced, the filter screen is cleaned while filtering, and the cleaned impurities are difficult to separate from the filter screen under the action of the water flow action force, so that the cleaning effect on the filter screen is poor;

in view of the above technical problem, the present application proposes a solution.

Disclosure of Invention

The invention aims to ensure that the self-priming pump body positioned below the liquid level can move through the paddling action of the rolling wheels by the rotation of the rolling wheels with a plurality of plane plates driven by the rotation of the impeller in the self-priming pump body, the spiral blade on the inner side of the spiral blade frame rotates under the driving of the rotation of the impeller in the self-priming pump body, water flow is transmitted into the water cooling pipe, so that the heat dissipation effect of the internal elements of the self-priming pump body is improved, rotate under the inside impeller pivoted drive of self priming pump body through the filter screen frame, prevent that impurity from receiving the influence of rivers flow effort to be difficult to with the separation of filter screen frame, influence the effect of clearance, it is inconvenient to solve self priming sewage pump and remove under water, and the relatively poor and I impurity removal effect poor problem of adhering to on consumption power resource heat production and the water inlet filter screen of internal component radiating effect, and provide a self priming sewage pump with removal structure.

The purpose of the invention can be realized by the following technical scheme:

a self-priming sewage pump with a moving structure comprises a water inlet, a water outlet, a self-priming pump body, a bottom plate and a self-priming pump shell, wherein the self-priming pump body is connected to the middle position of the upper surface of the bottom plate;

the moving mechanism comprises seal boxes, one side of the outer side wall of each seal box, which is far away from the self-priming pump body, is rotatably connected with a roller through a rotating shaft, the middle position of the lower surface of the bottom plate is connected with an inflatable bag, one side of the outer side wall of the self-priming pump body is rotatably connected with a first rotating wheel through a rotating shaft, the first rotating wheel is in transmission connection with a second rotating wheel through a driving belt, the position of the upper surface of the bottom plate, which is close to the first rotating wheel, is rotatably connected with a first connecting shaft through a rotating seat, the position of the upper surface of the bottom plate, which corresponds to the second rotating wheel, is rotatably connected with a second connecting shaft through a rotating seat, one side of the outer side wall of the second connecting shaft, which is far away from the second rotating wheel, is connected with a first gear, the position of the upper surface of the bottom plate, which corresponds to the first gear, is rotatably connected with a second gear, and the outer side wall of the rotating shaft connected with a sixth rotating wheel, the upper surface of the bottom plate is connected with a fourth rotating wheel in a rotating mode through a rotating seat, the position, corresponding to the sixth rotating wheel, of the outer side wall of a rotating shaft connected with the fourth rotating wheel is connected with a fifth rotating wheel, a PLC (programmable logic controller) is connected to one side, close to the fifth rotating wheel, of the upper surface of the bottom plate, an electric push rod is connected to the position, close to the middle of the fourth rotating wheel and the sixth rotating wheel, of the upper surface of the bottom plate, and the upper end of the electric push rod is connected with a supporting frame.

As a preferred embodiment of the present invention, a heat dissipation mechanism is disposed on the upper surface of the bottom plate at a position close to the second connecting shaft;

the heat dissipation mechanism comprises a water-cooled tube, the upper surface of the base plate corresponds to one end of the water-cooled tube is connected with a feed hopper, the upper surface of the base plate corresponds to two sides of the feed hopper, a third connecting shaft is connected above the outer side wall of the support base in a rotating mode, a spiral blade frame is connected to the middle position of the outer side wall of the feed hopper, the inner side wall of the feed hopper is close to one side of the spiral blade frame and is connected with a filter screen plate, the outer side wall of the second connecting shaft corresponds to the position of the third connecting shaft and is connected with a water-cooled driving wheel, and the third connecting shaft is located one end of the inner side of the water-cooled tube is connected with a shaftless auger.

As a preferred embodiment of the invention, the outer side wall of the self-priming pump body is provided with a impurity filtering mechanism corresponding to the water inlet;

it is connected with filter screen frame including straining miscellaneous case to strain miscellaneous mechanism, strain miscellaneous incasement lateral wall and rotate through the pivot, strain miscellaneous incasement lateral wall one side and correspond filter screen frame upper and lower position department all is connected with the slide, second connecting axle lateral wall corresponds filter screen frame one side is connected with strains miscellaneous drive wheel, filter screen frame lateral wall one side corresponds slide position department sliding connection has row miscellaneous board, arrange miscellaneous board both ends integrated into one piece and have row miscellaneous slider, the slide lateral wall corresponds row miscellaneous slider position department has seted up row miscellaneous spout, the frame spout has been seted up to filter screen frame front surface one side, it has adjusting frame to arrange miscellaneous board lateral wall sliding connection.

As a preferred embodiment of the present invention, a connection line is connected to a middle position of an upper surface of a self-priming pump housing, one end of the connection line, which is far away from the self-priming pump housing, is connected to a floating plate, a remote control signal receiver is connected to a middle position of an upper surface of the floating plate, and a signal receiving antenna is connected to one side of the upper surface of the floating plate, which is close to the remote control signal receiver.

As a preferred embodiment of the present invention, the outer side wall of the third connecting shaft is connected with a transmission rotating wheel at a position corresponding to the water-cooling transmission wheel, the transmission rotating wheel is in transmission connection with the water-cooling transmission wheel through a transmission belt, the water-cooling tubes are spirally distributed on the inner side wall of the self-priming pump shell, and the length and the outer diameter of the shaftless auger inside the water-cooling tubes are the same as those of the water-cooling tubes.

As a preferred embodiment of the invention, the position of the outer side wall of the adjusting frame corresponding to the frame sliding groove is rotatably connected with a connecting rod through a rotating shaft, one end of the connecting rod close to the inside of the frame sliding groove is rotatably connected with a sliding block through the rotating shaft, and the positions of the outer side wall of the filter screen frame and the outer side wall of the sliding plate corresponding to the frame sliding groove and the impurity removing sliding groove are respectively provided with a sewage outlet.

As a preferred embodiment of the invention, the upper side and the lower side of the inner side wall of the supporting frame are respectively and rotatably connected with rolling rollers through rotating shafts, the distance between the two rolling rollers is equal to the thickness of the transmission belt, an exhaust pipe is integrally formed on one side of the outer side wall of the inflatable bag, and the outer side wall of the exhaust pipe is connected with an exhaust valve.

As a preferred embodiment of the present invention, the method for using the self-priming sewage pump with the moving structure comprises the following steps:

the method comprises the following steps: when a user utilizes the self-priming pump body to extract sewage, the bottom plate supporting the self-priming pump body can be placed on the liquid level of the sewage, the bottom plate floats above the liquid level under the buoyancy effect of the inflatable bag, the user transmits a signal to the PLC through the remote control device, the PLC transmits the signal to control the exhaust valve on the exhaust pipe outside the inflatable bag to open and exhaust outwards, the self-priming pump body sinks below the liquid level, the sewage flows into the self-priming pump body from the water inlet position to drive the impeller of the self-priming pump body to rotate, the first rotating wheel connected with the rotating shaft of the impeller is driven to rotate through the rotating shaft, the first rotating wheel is connected with the second rotating wheel through the transmission belt, the second connecting shaft connected with the second rotating wheel is driven to rotate by the first gear connected on one side of the second connecting shaft, the second gear which is vertical to and is embedded with the first gear is driven to rotate, the self-priming pump comprises a first gear, a second gear, a third gear, a fourth gear, a fifth gear, a third gear, a fourth gear, a fifth gear, a third gear, a fourth gear, a fifth gear, a third gear and another roller connecting shaft, wherein the fifth gear is coaxial with the fourth gear, the fifth gear is in transmission with the third gear through a transmission belt;

step two: in the rotation process of the second connecting shaft, the water-cooling transmission wheel is in transmission with a transmission rotating wheel on the outer side wall of the third connecting shaft through a transmission belt, so that the second connecting shaft drives the third connecting shaft to rotate, the third connecting shaft drives a helical blade on the inner side of a helical blade frame on the outer side wall of the third connecting shaft to rotate when being supported by a supporting seat, and drives a shaftless auger connected to one end of the third connecting shaft to rotate;

step three: the submergence of self priming pump body is after sewage liquid level is below, inside sewage flowed into self priming pump body from water inlet position, install the impurity filtering box inboard of water inlet position department and rotate the impurity filtering frame who connects and can filter the impurity in the sewage, filter frame's support pivot is passed through the drive belt and is carried out the transmission with the impurity filtering drive wheel of straining on the second connecting axle lateral wall, make filter frame rotate around supporting the pivot through the drive of second connecting axle when carrying out impurity filtering, filter frame drives through sliding block and connecting rod when rotating and adjusts the frame and slide on the miscellaneous board lateral wall of row, arrange the miscellaneous board and carry out the slip of position on the slide when filter frame pivoted.

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

1. the self-priming pump body positioned below the liquid level can move in position through the paddling action of the rolling wheels by the rolling wheels with a plurality of plane plates driven by the rotation of the impeller in the self-priming pump body;

2. the spiral blade on the inner side of the spiral blade frame rotates under the driving of the impeller in the self-priming pump body, and water flow is transmitted into the water-cooling pipe which is spirally distributed in the self-priming pump body, so that the heat dissipation effect of internal elements of the self-priming pump body is improved, electric power resources are not consumed, and extra heat cannot be generated in the operation process;

3. rotate under the inside impeller pivoted drive of self priming pump body through the filter screen frame, with the filter screen frame on block up the regional clearance of carrying out impurity through the trash removal board after rotating to one side of rivers flow position department, prevent that impurity from receiving the influence of rivers flow effort to be difficult to with the separation of filter screen frame, influence the effect of clearance.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a main body structure view of the present invention;

FIG. 2 is a bottom view of the invention shown in FIG. 1;

FIG. 3 is a view showing the inner structure of the seal box of the present invention;

FIG. 4 is a view showing a second connecting shaft structure of the present invention;

FIG. 5 is a view of the support frame of the present invention;

FIG. 6 is a view of the heat dissipation mechanism of the present invention;

FIG. 7 is a water cooled tube configuration of the present invention;

FIG. 8 is an enlarged view of portion A of FIG. 7 according to the present invention;

FIG. 9 is a view showing the inner structure of a water-cooled tube according to the present invention;

FIG. 10 is a block diagram of a trash filtration mechanism of the present invention;

FIG. 11 is a diagram of a screen frame construction of the present invention;

FIG. 12 is an enlarged view of the portion B of FIG. 11 according to the present invention.

In the figure: 1. a water inlet; 2. a water outlet; 3. a self-priming pump body; 4. a moving mechanism; 41. a connecting wire; 42. a floating plate; 43. a sealing box; 44. a roller; 45. an air-filled bag; 46. a first connecting shaft; 47. a first runner; 48. a second runner; 49. a third rotating wheel; 410. a transmission belt; 411. a second gear; 412. a first gear; 413. a second connecting shaft; 414. a fourth rotating wheel; 415. a fifth rotating wheel; 416. a sixth rotating wheel; 417. a PLC controller; 418. an electric push rod; 419. a support frame; 5. a heat dissipation mechanism; 51. a water-cooled tube; 52. a filter screen plate; 53. a water-cooled transmission wheel; 54. a supporting seat; 55. a helical blade frame; 56. a feed hopper; 57. a third connecting shaft; 58. a shaftless auger; 6. a impurity filtering mechanism; 61. a impurity filtering box; 62. a slide plate; 63. a filtration transmission wheel; 64. a screen frame; 65. a frame chute; 66. an adjustment frame; 67. a trash removal plate; 68. a trash removal sliding block; 69. a trash removal chute; 610. a sewage draining outlet; 7. a base plate; 8. self-priming pump housing.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

referring to fig. 1-5, a self-priming sewage pump with a moving structure comprises a water inlet 1, a water outlet 2, a self-priming pump body 3, a bottom plate 7 and a self-priming pump shell 8, wherein the middle position of the upper surface of the bottom plate 7 is connected with the self-priming pump body 3, one side of the outer side wall of the self-priming pump body 3 is connected with the self-priming pump shell 8, the other side of the outer side wall of the self-priming pump body 3 is connected with the water inlet 1, and the position, close to the water inlet 1, of the upper surface of the self-priming pump body 3 is connected with the water outlet 2;

the upper surface of the bottom plate 7 is provided with a moving mechanism 4 close to the self-priming pump body 3, the moving mechanism 4 comprises a seal box 43, the seal box 43 wraps a transmission structure where the transmission belt 410 is located, and prevents impurities in external sewage from entering and blocking transmission between the transmission structures, one sides of the outer side walls of the two seal boxes 43 far away from the self-priming pump body 3 are rotatably connected with rollers 44 through rotating shafts, each roller 44 is formed by connecting a plurality of planar plates around the rotating shaft, so that the bottom plate 7 can be moved in the water when the rollers rotate, an inflatable bag 45 is connected at the middle position of the lower surface of the bottom plate 7, an exhaust pipe is integrally formed on one side of the outer side wall of the inflatable bag 45, the outer side wall of the exhaust pipe is connected with an exhaust valve, the inflatable bag 45 can drive equipment on the bottom plate 7 and the bottom plate 7 to float on the sewage liquid level after being inflated by gas, and the equipment on the bottom plate 7 and the bottom plate 7 sink below the liquid level after the exhaust valve exhausts, one side of the outer side wall of the self-priming pump body 3 is rotatably connected with a first rotating wheel 47 through a rotating shaft, the first rotating wheel 47 is connected with an impeller rotating shaft in the self-priming pump body 3 through a rotating shaft, the first rotating wheel 47 is in transmission connection with a second rotating wheel 48 through a transmission belt 410, a first connecting shaft 46 is rotatably connected to the position, close to the first rotating wheel 47, of the upper surface of the bottom plate 7, two rollers 44 on one side of the self-priming pump body 3 are connected into a whole through the first connecting shaft 46 to rotate, a second connecting shaft 413 is rotatably connected to the position, corresponding to the second rotating wheel 48, of the upper surface of the bottom plate 7 through a rotating base, one side, far away from the second rotating wheel 48, of the outer side wall of the second connecting shaft 413 is connected with a first gear 412, a second gear 411 is rotatably connected to the position, corresponding to the first gear 412, the first gear 412 and the second gear 411 are perpendicular to each other and are mutually embedded to realize synchronous rotation, a sixth rotating wheel 416 is connected to the outer side wall of a rotating shaft connected with the second gear 411, a fourth rotating wheel 414 is rotatably connected to the position, corresponding to the sixth rotating wheel 416, of the upper surface of the bottom plate 7, through a rotating base, a fourth rotating wheel 414 is rotatably connected to the position, corresponding to the third rotating wheel 49, of the upper surface of the bottom plate 7, a fifth rotating wheel 415 is connected to the position, corresponding to the third rotating wheel 49, of the outer side wall of the rotating shaft connected with the fourth rotating wheel 414, the fifth rotating wheel 415 is rotatably connected to the third rotating wheel 49 on the first connecting shaft 46 through a driving belt 410, a PLC controller 417 is connected to the side, close to the fifth rotating wheel 415, of the upper surface of the bottom plate 7, a power-driven push rod 418 is connected to the upper end of the power-driven push rod 418, rolling rollers are rotatably connected to the upper and lower sides of the inner side wall 419 through a rotating shaft, and the distance between the two rolling rollers is equal to the thickness of the driving belt 410;

a connecting wire 41 is connected to the middle position of the upper surface of the self-priming pump shell 8, one end of the connecting wire 41 is connected with the PLC 417, the other end of the connecting wire 41 is connected with a remote control signal receiver on the floating plate 42, so that the remote control signal receiver receives a remote control signal and transmits the remote control signal to the PLC 417, one end of the connecting wire 41, which is far away from the self-priming pump shell 8, is connected with the floating plate 42, the middle position of the upper surface of the floating plate 42 is connected with the remote control signal receiver, and one side of the upper surface of the floating plate 42, which is close to the remote control signal receiver, is connected with a signal receiving antenna;

in the prior art, a cart is mostly adopted for position movement of the self-sucking pump body 3 by a user, so that the self-sucking pump body 3 can only move ashore, the self-sucking pump body 3 needs to be placed in water and driven to rotate by flow of water flow, and in order to ensure that the rotating power of the self-sucking pump body 3 is large, the self-sucking pump body 3 needs to be placed at a deep position, the transmission power of the self-sucking pump body 3 is improved by utilizing water pressure difference, the self-sucking pump body 3 is heavy, the user is difficult to place the self-sucking pump body 3 at the deep position of a water flow to be sucked, the sucking efficiency of the self-sucking pump body 3 on the water flow is low, and more time is delayed;

after a user places a bottom plate 7 supporting a self-priming pump body 3 on the liquid surface of sewage, a signal is transmitted to a PLC 417 through a remote control device, the PLC 417 transmits a signal to control an exhaust valve on an exhaust pipe outside an air inflation bag 45 to be opened and exhausted outwards, so that buoyancy force borne by the self-priming pump body 3 is reduced due to the exhaust of the gas and slowly subsides below the liquid surface, the sewage flows into the self-priming pump body 3 from a water inlet 1 position in the process of settlement to drive an impeller of the self-priming pump body 3 to rotate, a first rotating wheel 47 connected with a rotating shaft of the impeller rotates along with the impeller, the first rotating wheel 47 is in transmission connection with a second rotating wheel 48 through a transmission belt 410, the first rotating wheel 47 drives a second connecting shaft 413 connected with the second rotating wheel 48 to rotate, a first gear 412 connected on one side of the second connecting shaft 413 drives a second gear 411 which is perpendicular to and is embedded with the first gear 412 to rotate, the second gear 411 is driven by a sixth rotating wheel 416 and a fourth rotating wheel 414 on the outer side wall of the self-priming pump through a driving belt 410, a fifth rotating wheel 415 coaxial with the fourth rotating wheel 414 is driven by a third rotating wheel 49 on the outer side wall of the first connecting shaft 46 through a driving belt 410, one side of the outer side wall of the first connecting shaft 46 far away from the third rotating wheel 49 is driven by a connecting shaft of the driving belt 410 and another roller 44, so that the rotation of the impeller inside the self-priming pump body 3 can drive the four rollers 44 on the two sides of the upper surface of the bottom plate 7 to synchronously rotate, the self-priming pump body 3 below the sewage liquid level moves to a deeper position under the water-scratching action of the planar plate on the rollers 44, and in the process that the self-priming pump body 3 moves to the designated position, the floating plate 42 connected through the connecting line 41 on the outer side wall of the self-priming pump shell 8 always floats above the liquid level, the user of being convenient for judges the position of self priming pump body 3 below being located the sewage liquid level, and is convenient for be located the remote control signal receiver on the floating plate 42 and carries out the receipt of signal through the signal reception antenna, makes the inside impeller pivoted of user's accessible self priming pump body 3 self drive with self priming pump body 3 remove to the deeper position of waiting to extract rivers position department, and convenience more, and the rivers extraction efficiency of self priming pump body 3 obtains improving.

Example 2:

referring to fig. 6-9, a heat dissipating mechanism 5 is disposed on the upper surface of the bottom plate 7 near the second connecting shaft 413, the heat dissipating mechanism 5 includes a water-cooling tube 51, the water-cooling tube 51 is spirally distributed on the inner sidewall of the self-priming pump housing 8, so that the water inside the water-cooling tube 51 can take away the heat generated by the equipment inside the self-priming pump housing 8 through heat transfer during the flowing process, thereby achieving the heat dissipating effect, and the self-priming pump body 3 can work continuously, the upper surface of the bottom plate 7 is connected with a feed hopper 56 at the end corresponding to the water-cooling tube 51, the upper surface of the bottom plate 7 is connected with supporting seats 54 at the two sides corresponding to the feed hopper 56, the upper side of the outer sidewall of the supporting seat 54 is rotatably connected with a third connecting shaft 57, the middle position of the outer sidewall of the feed hopper 56 is connected with a helical blade frame 55, the helical blade inside the helical blade frame 55 is connected to the third connecting shaft 57 and rotates along with the third connecting shaft 57, one side of the inner side wall of the feed hopper 56 close to the helical blade frame 55 is connected with a filter screen plate 52, the filter screen plate 52 can filter impurities in sewage flowing into the inner side of the water-cooling pipe 51, the outer side wall of the second connecting shaft 413 corresponding to the position of the third connecting shaft 57 is connected with a water-cooling transmission wheel 53, the outer side wall of the third connecting shaft 57 corresponding to the position of the water-cooling transmission wheel 53 is connected with a transmission rotating wheel, the transmission rotating wheel is in transmission connection with the water-cooling transmission wheel 53 through a transmission belt 410, one end of the third connecting shaft 57 positioned at the inner side of the water-cooling pipe 51 is connected with a shaftless packing auger 58, and the length and the outer diameter of the shaftless packing auger 58 at the inner side of the water-cooling pipe 51 are the same as the length and the inner diameter of the water-cooling pipe 51;

in the prior art, a water pump working underwater mostly does not adopt a cooling and heat dissipation measure, utilizes water flow in the environment to dissipate heat, adopts a closed structure to prevent water flow from entering the water pump, so that heat generated by internal elements is difficult to exchange with the external environment quickly, and mostly adopts the driving of external power equipment to achieve a heat dissipation effect when the water pump dissipates heat in an air cooling and water cooling mode, so that more power resources are available while heat is dissipated, and the heat generated by the heat dissipation equipment during the working process of utilizing power is difficult to dissipate;

in the process of rotating the second connecting shaft 413, the water-cooling transmission wheel 53 is in transmission with a transmission rotating wheel on the outer side wall of the third connecting shaft 57 through a transmission belt 410, so that the second connecting shaft 413 drives the third connecting shaft 57 to rotate, the third connecting shaft 57 drives a helical blade on the inner side of a helical blade frame 55 on the outer side wall of the third connecting shaft 57 to rotate when rotating under the support of a support base 54, and drives a shaftless auger 58 connected to one end of the third connecting shaft 57 to rotate, the rotational movement of the helical blade on the inner side of the helical blade frame 55 sucks sewage into the water-cooling tube 51 for transmission, the outer side wall of the rotating shaftless auger 58 is tightly attached to the inner wall of the water-cooling tube 51 to stir impurities in the settled sewage in the water-cooling tube 51, so that the settled impurities are mixed in the circulating sewage to flow away to achieve the cleaning effect, and the stirring of the shaftless auger 58 can drive the sewage to be transmitted in the water-cooling tube 51, also can stir the impurity in the sewage and prevent to subside, make self priming pump body 3 carrying out the during operation, accessible feeder hopper 56 goes up the rotation of the inboard helical blade of helical blade frame 55 inside with sewage suction water cooling pipe 51, and transmit at the water-cooling pipe 51 of 3 internal component positions departments of self priming pump body along the spiral winding, the heat that makes 3 internal component work of self priming pump body produce can be quick carry out the heat exchange with the inside rivers of water-cooling pipe 51 and scatter and disappear, make the inside component of 3 structures of inclosed self priming pump body can obtain quick heat dissipation, and this kind of water-cooling heat dissipation mode can not consume the electric power resource, the operation in-process can not produce extra heat yet.

Example 3:

referring to fig. 10-12, the position of the outer sidewall of the self-priming pump body 3 corresponding to the water inlet 1 is provided with an impurity filtering mechanism 6, the impurity filtering mechanism 6 includes an impurity filtering box 61, the inner sidewall of the impurity filtering box 61 is rotatably connected with a filter screen frame 64 through a rotating shaft, the filter screen frame 64 is disc-shaped and is divided into four sectors with the same size, the area of each sector is larger than the cross-sectional area of the water inlet 1, the positions of one side of the outer sidewall of the impurity filtering box 61 corresponding to the upper and lower ends of the filter screen frame 64 are connected with sliding plates 62, the side of the outer sidewall of the second connecting shaft 413 corresponding to the filter screen frame 64 is connected with an impurity filtering driving wheel 63, the position of one side of the outer sidewall of the filter screen frame 64 corresponding to the sliding plate 62 is connected with an impurity discharging plate 67, two ends of the impurity discharging plate 67 are integrally formed with impurity discharging sliding blocks 68, two ends of the impurity discharging plate 67 slide in impurity discharging chutes 69 on the sliding plates 62 through the impurity discharging sliding blocks 68 to move the positions, and the impurity discharging slide block 68 is tightly attached to the inner wall of the impurity discharging chute 69, so that the impurity discharging plate 67 always keeps a vertical angle with the two sliding plates 62 in the moving process, the impurity discharging chute 69 is arranged at the position of the outer side wall of the sliding plate 62 corresponding to the impurity discharging slide block 68, the frame chute 65 is arranged at one side of the front surface of the filter screen frame 64, the outer side wall of the impurity discharging plate 67 is slidably connected with the adjusting frame 66, the outer side wall of the adjusting frame 66 is rotatably connected with the connecting rod through the rotating shaft at the position corresponding to the frame chute 65, one end of the connecting rod close to the inside of the frame chute 65 is rotatably connected with the sliding block through the rotating shaft, the adjusting frame 66 is sleeved at the outer side of the impurity discharging plate 67, the sliding block positioned at the inner side of the frame chute 65 in the rotating process of the filter screen frame 64 is rotatably connected with the adjusting frame 66 through the connecting rod is limited by the impurity discharging plate 67 and the frame chute 65, and the drain 610 is arranged at the positions of the outer side wall of the frame chute 65 and the impurity discharging chute 69 respectively, impurities in the sewage entering the inner sides of the frame sliding groove 65 and the impurity discharging sliding groove 69 can be extruded and discharged from the sewage outlet 610 at the corresponding position in the moving process of the sliding block and the impurity discharging sliding block 68;

in the prior art, in order to prevent impurities in sewage from entering the self-priming pump body 3 to cause the self-priming pump body 3 to be blocked in the process of sewage extraction by the self-priming pump body 3, the impurities in the sewage are mostly filtered at the position of the water inlet 1 on the self-priming pump body 3, the impurities filtered by the filter screen are extruded on the filter screen under the action of the flow action of the water flow, so that the filter screen is easily blocked, the water flow flowing to the inside of the self-priming pump body 3 is reduced, the filter screen is cleaned while the filtration is performed, the cleaned impurities are difficult to separate from the filter screen under the action of the flow action of the water flow, and the cleaning effect on the filter screen is poor;

in the process that sewage flows into the self-priming pump body 3 from the position of the water inlet 1, the filter screen frame 64 which is rotatably connected with the inner side of the impurity filtering box 61 and is arranged at the position of the water inlet 1 can filter impurities in the sewage, the supporting rotating shaft of the filter screen frame 64 is in transmission with the impurity filtering driving wheel 63 on the outer side wall of the second connecting shaft 413 through the transmission belt 410, so that the filter screen frame 64 rotates around the supporting rotating shaft through the driving of the second connecting shaft 413 while filtering the impurities, the region of the filter screen frame 64 blocked by the impurities in the sewage can be far away from the position of the water inlet 1 after rotating and is not influenced by the action of the flow force of water flow, the filter screen frame 64 is convenient to separate from the filter screen frame 64 under the action of the impurity discharging plate 67, the filter screen frame 64 drives the adjusting frame 66 to slide on the outer side wall of the impurity discharging plate 67 through the connecting rod when rotating, the impurity discharging plate 67 performs reciprocating sliding of position on the sliding plate 62 while the filter screen frame 64 rotates, promote impurity on the filter screen frame 64 to both sides, make impurity and filter screen frame 64 separate, prevent that filter screen frame 64 from blockking up the inflow that influences inlet 1 position department on the self priming pump body 3, and the rotation through filter screen frame 64 from blocking up on the filter screen frame 64 regional rotation to one side of rivers flow position department after carry out the clearance of impurity through row miscellaneous board 67, prevent that impurity from receiving the influence of rivers flow effort to be difficult to separate with filter screen frame 64, influence the effect of clearance.

When the invention is used, a user places the bottom plate 7 supporting the self-priming pump body 3 on the liquid surface of sewage, transmits a signal to the PLC 417 through a remote control device, so that the PLC 417 transmits the signal to control the exhaust valve on the exhaust pipe outside the inflatable bag 45 to open and exhaust outwards, the buoyancy force applied to the self-priming pump body 3 is reduced due to the exhaust of the gas and slowly subsides below the liquid surface, the sewage flows into the self-priming pump body 3 from the position of the water inlet 1 in the process of settlement to drive the impeller of the self-priming pump body 3 to rotate, the first rotating wheel 47 connected with the rotating shaft of the impeller through the rotating shaft rotates along with the impeller, the first rotating wheel 47 is in transmission connection with the second rotating wheel 48 through the transmission belt 410, the first rotating wheel 47 drives the second connecting shaft 413 connected with the second rotating wheel 48 to rotate, the first gear 412 connected on one side of the second connecting shaft 413 drives the second gear 411 which is vertical to and is embedded with the first gear 412, the second gear 411 is driven by a sixth rotating wheel 416 and a fourth rotating wheel 414 on the outer side wall of the self-priming pump through a driving belt 410, a fifth rotating wheel 415 coaxial with the fourth rotating wheel 414 is driven by a third rotating wheel 49 on the outer side wall of the first connecting shaft 46 through a driving belt 410, one side of the outer side wall of the first connecting shaft 46 far away from the third rotating wheel 49 is driven by a connecting shaft of the driving belt 410 and another roller 44, so that the rotation of the impeller inside the self-priming pump body 3 can drive the four rollers 44 on the two sides of the upper surface of the bottom plate 7 to synchronously rotate, the self-priming pump body 3 below the sewage liquid level moves to a deeper position under the water-scratching action of the planar plate on the rollers 44, and in the process that the self-priming pump body 3 moves to the designated position, the floating plate 42 connected through the connecting line 41 on the outer side wall of the self-priming pump shell 8 always floats above the liquid level, the position of the self-sucking pump body 3 below the sewage liquid level can be conveniently judged by a user, and the remote control signal receiver on the floating plate 42 can receive signals through the signal receiving antenna, so that the user can move the self-sucking pump body 3 to a deeper position at the position of the water flow to be extracted through the driving of the rotation of the impeller in the self-sucking pump body 3, the convenience is improved, and the water flow extraction efficiency of the self-sucking pump body 3 is improved; in the process of rotating the second connecting shaft 413, the water-cooling transmission wheel 53 is in transmission with a transmission rotating wheel on the outer side wall of the third connecting shaft 57 through a transmission belt 410, so that the second connecting shaft 413 drives the third connecting shaft 57 to rotate, the third connecting shaft 57 drives a helical blade on the inner side of a helical blade frame 55 on the outer side wall of the third connecting shaft 57 to rotate when rotating under the support of a support base 54, and drives a shaftless auger 58 connected to one end of the third connecting shaft 57 to rotate, the rotational movement of the helical blade on the inner side of the helical blade frame 55 sucks sewage into the water-cooling tube 51 for transmission, the outer side wall of the rotating shaftless auger 58 is tightly attached to the inner wall of the water-cooling tube 51 to stir impurities in the settled sewage in the water-cooling tube 51, so that the settled impurities are mixed in the circulating sewage to flow away to achieve the cleaning effect, and the stirring of the shaftless auger 58 can drive the sewage to be transmitted in the water-cooling tube 51, impurities in the sewage can be stirred to prevent sedimentation, so that when the self-priming pump body 3 works, the sewage can be sucked into the water cooling pipe 51 through the rotation of the spiral blade on the inner side of the spiral blade frame 55 on the feed hopper 56, and the sewage is wound on the water cooling pipe 51 at the position of an element inside the self-priming pump body 3 along the spiral to be transmitted, so that heat generated by the operation of the element inside the self-priming pump body 3 can be quickly subjected to heat exchange with water flow inside the water cooling pipe 51 to be dissipated, elements inside the structure of the closed self-priming pump body 3 can be quickly dissipated, and the water cooling heat dissipation mode can not consume power resources and can not generate extra heat in the operation process; in the process that sewage flows into the self-priming pump body 3 from the position of the water inlet 1, the filter screen frame 64 which is rotatably connected with the inner side of the impurity filtering box 61 and is arranged at the position of the water inlet 1 can filter impurities in the sewage, the supporting rotating shaft of the filter screen frame 64 is in transmission with the impurity filtering driving wheel 63 on the outer side wall of the second connecting shaft 413 through the transmission belt 410, so that the filter screen frame 64 rotates around the supporting rotating shaft through the driving of the second connecting shaft 413 while filtering the impurities, the region of the filter screen frame 64 blocked by the impurities in the sewage can be far away from the position of the water inlet 1 after rotating and is not influenced by the action of the flow force of water flow, the filter screen frame 64 is convenient to separate from the filter screen frame 64 under the action of the impurity discharging plate 67, the filter screen frame 64 drives the adjusting frame 66 to slide on the outer side wall of the impurity discharging plate 67 through the connecting rod when rotating, the impurity discharging plate 67 performs reciprocating sliding of position on the sliding plate 62 while the filter screen frame 64 rotates, promote impurity on the filter screen frame 64 to both sides, make impurity and filter screen frame 64 separate, prevent that filter screen frame 64 from blockking up the inflow that influences inlet 1 position department on the self priming pump body 3, and the rotation through filter screen frame 64 from blocking up on the filter screen frame 64 regional rotation to one side of rivers flow position department after carry out the clearance of impurity through row miscellaneous board 67, prevent that impurity from receiving the influence of rivers flow effort to be difficult to separate with filter screen frame 64, influence the effect of clearance.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. The self-priming sewage pump with the moving structure comprises a water inlet (1), a water outlet (2), a self-priming pump body (3), a bottom plate (7) and a self-priming pump shell (8), wherein the self-priming pump body (3) is connected to the middle position of the upper surface of the bottom plate (7), the self-priming pump shell (8) is connected to one side of the outer side wall of the self-priming pump body (3), the water inlet (1) is connected to the other side of the outer side wall of the self-priming pump body (3), the water outlet (2) is connected to the position, close to the water inlet (1), of the upper surface of the self-priming pump body (3), and the moving mechanism (4) is arranged on the position, close to the self-priming pump body (3), of the upper surface of the bottom plate (7);

the moving mechanism (4) comprises seal boxes (43), one side, far away from the self-priming pump body (3), of the outer side wall of each of the two seal boxes (43) is rotatably connected with a roller (44) through a rotating shaft, the middle position of the lower surface of the bottom plate (7) is connected with an inflatable bag (45), one side of the outer side wall of the self-priming pump body (3) is rotatably connected with a first rotating wheel (47) through the rotating shaft, the first rotating wheel (47) is in transmission connection with a second rotating wheel (48) through a driving belt (410), the position, close to the first rotating wheel (47), of the upper surface of the bottom plate (7) is rotatably connected with a first connecting shaft (46) through a rotating seat, the position, corresponding to the second rotating wheel (48), of the upper surface of the bottom plate (7) is rotatably connected with a second connecting shaft (413) through the rotating seat, one side, far away from the second rotating wheel (48), of the outer side wall of the second connecting shaft (413) is connected with a first gear (412), the upper surface of the bottom plate (7) is rotatably connected with a second gear (411) through a rotating seat at the position corresponding to the first gear (412), a sixth rotating wheel (416) is connected on the outer side wall of the rotating shaft connected with the second gear (411), the upper surface of the bottom plate (7) is rotatably connected with a fourth rotating wheel (414) through a rotating seat at the position corresponding to the sixth rotating wheel (416), the outer side wall of the rotating shaft connected with the fourth rotating wheel (414) is connected with a fifth rotating wheel (415) at the position corresponding to the third rotating wheel (49), one side of the upper surface of the bottom plate (7) close to the fifth rotating wheel (415) is connected with a PLC (417), an electric push rod (418) is connected to the upper surface of the bottom plate (7) close to the middle position of the fourth rotating wheel (414) and the sixth rotating wheel (416), and a supporting frame (419) is connected to the upper end of the electric push rod (418).

2. The self-priming sewage pump with a moving structure according to claim 1, characterized in that a heat dissipating mechanism (5) is arranged on the upper surface of the bottom plate (7) near the second connecting shaft (413);

radiating mechanism (5) include water-cooled tube (51), bottom plate (7) upper surface corresponds the one end of water-cooled tube (51) is connected with feeder hopper (56), bottom plate (7) upper surface corresponds the both sides of feeder hopper (56) are connected with supporting seat (54), supporting seat (54) lateral wall top is rotated and is connected with third connecting axle (57), feeder hopper (56) lateral wall intermediate position department is connected with helical blade frame (55), feeder hopper (56) inside wall is close to one side of helical blade frame (55) is connected with filter plate (52), second connecting axle (413) lateral wall corresponds third connecting axle (57) position department is connected with water-cooling drive wheel (53), third connecting axle (57) are located the one end of water-cooled tube (51) inboard connecting axle is connected with shaftless auger (58).

3. The self-priming sewage pump with a moving structure according to claim 1, characterized in that the outer side wall of the self-priming pump body (3) is provided with a filtering mechanism (6) at the position corresponding to the water inlet (1);

the impurity filtering mechanism (6) comprises an impurity filtering box (61), the inner side wall of the impurity filtering box (61) is rotationally connected with a filter screen frame (64) through a rotating shaft, the positions of one side of the outer side wall of the impurity filtering box (61) corresponding to the upper end and the lower end of the filter screen frame (64) are both connected with a sliding plate (62), one side of the outer side wall of the second connecting shaft (413) corresponding to the filter screen frame (64) is connected with a filtering transmission wheel (63), one side of the outer side wall of the filter screen frame (64) is connected with a trash discharge plate (67) in a sliding way at the position corresponding to the sliding plate (62), impurity-removing sliding blocks (68) are integrally formed at two ends of the impurity-removing plate (67), impurity-removing sliding grooves (69) are formed in the outer side wall of the sliding plate (62) corresponding to the impurity-removing sliding blocks (68), a frame sliding groove (65) is arranged on one side of the front surface of the filter screen frame (64), the outer side wall of the impurity discharging plate (67) is connected with an adjusting frame (66) in a sliding mode.

4. The self-priming sewage pump with a moving structure as claimed in claim 1, wherein a connecting line (41) is connected to a middle position of the upper surface of the self-priming pump housing (8), one end of the connecting line (41) far away from the self-priming pump housing (8) is connected to a floating plate (42), a remote control signal receiver is connected to a middle position of the upper surface of the floating plate (42), and a signal receiving antenna is connected to one side of the upper surface of the floating plate (42) close to the remote control signal receiver.

5. The self-priming sewage pump with a moving structure as claimed in claim 2, wherein the outer side wall of the third connecting shaft (57) is connected with a transmission wheel at a position corresponding to the water-cooling transmission wheel (53), the transmission wheel is in transmission connection with the water-cooling transmission wheel (53) through a transmission belt (410), the water-cooling pipes (51) are spirally distributed on the inner side wall of the self-priming pump housing (8), and the length and the outer diameter of the shaftless packing auger (58) inside the water-cooling pipes (51) are the same as those of the water-cooling pipes (51).

6. The self-priming sewage pump with a moving structure as claimed in claim 3, wherein the outer side wall of the adjusting frame (66) is rotatably connected with a connecting rod through a rotating shaft at the position corresponding to the frame sliding groove (65), one end of the connecting rod close to the inside of the frame sliding groove (65) is rotatably connected with a sliding block through a rotating shaft, and the outer side wall of the filter screen frame (64) and the outer side wall of the sliding plate (62) are respectively provided with a sewage outlet (610) at the position corresponding to the frame sliding groove (65) and the impurity discharging sliding groove (69).

7. The self-priming sewage pump with a moving structure as claimed in claim 1, wherein the upper and lower sides of the inner side wall of the supporting frame (419) are rotatably connected with rolling rollers through rotating shafts, the distance between the two rolling rollers is equal to the thickness of the driving belt (410), an exhaust pipe is integrally formed on one side of the outer side wall of the inflatable bag (45), and the outer side wall of the exhaust pipe is connected with an exhaust valve.

8. The self-priming sewage pump with mobile structure of claim 1, wherein the method for using the self-priming sewage pump with mobile structure comprises the following steps:

the method comprises the following steps: when a user utilizes the self-sucking pump body (3) to suck sewage, the bottom plate (7) supporting the self-sucking pump body (3) can be placed on the liquid level of the sewage, the bottom plate (7) floats above the liquid level under the buoyancy action of the inflatable bag (45), the user transmits signals to the PLC controller (417) through the remote control device, the PLC controller (417) transmits the signals to control the exhaust valve on the exhaust pipe at the outer side of the inflatable bag (45) to open and exhaust outwards, the self-sucking pump body (3) is settled below the liquid level, the sewage flows into the self-sucking pump body (3) from the position of the water inlet (1) and drives the impeller of the self-sucking pump body (3) to rotate, the first rotating wheel (47) connected with the rotating shaft of the impeller rotates along with the rotation, the first rotating wheel (47) is in transmission connection with the second rotating wheel (48) through the transmission belt (410), and the first rotating wheel (47) drives the second connecting shaft (413) connected with the second rotating wheel (48) to rotate, a first gear (412) connected on one side of a second connecting shaft (413) drives a second gear (411) which is perpendicular to the first gear (412) and is mutually embedded to rotate, the second gear (411) drives a fourth rotating wheel (414) through a driving belt (410) through a sixth rotating wheel (416) on the outer side wall of a rotating shaft of the second gear (411), a fifth rotating wheel (415) which is coaxial with the fourth rotating wheel (414) drives a third rotating wheel (49) on the outer side wall of a first connecting shaft (46) through the driving belt (410), one side of the outer side wall of the first connecting shaft (46) far away from the third rotating wheel (49) drives another connecting shaft of the rollers (44) through the driving belt (410), so that the rotation of an impeller inside the self-priming pump body (3) can drive the four rollers (44) on two sides of the upper surface of a bottom plate (7) to synchronously rotate, and the self-priming pump body (3) below sewage is moved under the rotation action of the rollers (44), the self-priming pump body (3) can be moved to a designated position, and the floating plate (42) connected with the outer side wall of the self-priming pump shell (8) through the connecting line (41) always floats above the liquid level, so that a user can conveniently judge the position of the self-priming pump body (3) below the sewage liquid level;

step two: in the rotating process of the second connecting shaft (413), the water-cooling transmission wheel (53) is in transmission with a transmission rotating wheel on the outer side wall of the third connecting shaft (57) through a transmission belt (410), so that the second connecting shaft (413) drives the third connecting shaft (57) to rotate, the third connecting shaft (57) drives a helical blade on the inner side of a helical blade frame (55) on the outer side wall of the third connecting shaft (57) to rotate when rotating under the support of a support seat (54), and drives the shaftless packing auger (58) connected with one end of the third connecting shaft (57) to rotate, the rotation of the helical blade on the inner side of the helical blade frame (55) sucks the sewage into the water cooling pipe (51) for transmission, the rotating shaftless packing auger (58) can clean the inner wall of the water cooling pipe (51), the sewage is driven to be transmitted inside the water cooling pipe (51), and the filter screen plate (52) connected with the inner side wall of the feed hopper (56) can filter impurities in the transmitted sewage;

step three: self priming pump body (3) submergence is after sewage liquid level, sewage flows into self priming pump body (3) inside from water inlet (1) position department, install filter screen frame (64) of straining miscellaneous case (61) inboard rotation connection of water inlet (1) position department and can filter the impurity in the sewage, the support pivot of filter screen frame (64) is passed through drive belt (410) and is strained miscellaneous drive wheel (63) and carry out the transmission with on second connecting axle (413) lateral wall, make filter screen frame (64) carry out impurity filterable drive through second connecting axle (413) and rotate around supporting the pivot, filter screen frame (64) drive adjusting frame (66) through sliding block and connecting rod when rotating and slide on trash discharging plate (67) lateral wall, trash discharging plate (67) carry out the slip of position on slide (62) when filter screen frame (64) are pivoted.

Images