CN114278574A

CN114278574A - High-efficiency energy-saving circulating pump

Info

Publication number: CN114278574A
Application number: CN202111610553.5A
Authority: CN
Inventors: 蒋星学; 于学志; 储志明
Original assignee: Yimai Industrial Co ltd
Current assignee: Yimai Industrial Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-04-05

Abstract

The invention discloses a high-efficiency energy-saving circulating pump, which comprises a circulating pump, a fixing frame, a base, a water inlet pipe and a water outlet pipe, wherein the circulating pump is arranged at the upper end of the fixing frame; when the device is used, cold water and hot water are guided and layered by the spiral pipe, the cold water flows on the upper layer, so that the circulating pump flows, the cold water and the hot water are impacted to be fully mixed in the pipeline to flow, and simultaneously, vortex is generated in the device to attract impurities, so that the blockage of a fixed channel caused by the impurities is avoided.

Description

High-efficiency energy-saving circulating pump

Technical Field

The invention relates to the technical field of circulating pumps, in particular to a high-efficiency energy-saving circulating pump.

Background

The circulating pump is the pump that will make the hydrologic cycle flow, often use in hot-water heating heat supply pipeline, still have some shortcomings when the circulating pump is used, for example, general circulating pump drives when making it flow to hot water, hot water has the effect of heating to the circulating pump, thereby make the circulating pump at the in-process that uses, its temperature can be in higher state, cause the operation of circulating pump to need consume more energy, make the efficiency of circulating pump lower, simultaneously at the in-process that the circulating pump used, when producing impurity in the pipeline, when impurity winding is on the impeller, will influence the slew velocity of impeller, can make the consumption increase of circulating pump simultaneously, be unfavorable for the use of circulating pump, when impurity piles up in the circulating pipe, will make local heat supply effect variation in the circulating pipe, thereby influence the heat supply effect of pipeline.

Disclosure of Invention

The invention aims to provide an efficient and energy-saving circulating pump to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an energy-efficient circulating pump, includes circulating pump, mount, base, inlet tube and outlet pipe, the circulating pump sets up the upper end at the mount, the lower extreme of mount is provided with the base, one side of mount is provided with the inlet tube, the opposite side of mount is provided with the outlet pipe, the inside of mount is provided with rivers layered structure, impurity collection structure, impurity crushing structure and the structure of flowing automatically respectively, the inside of outlet pipe is provided with the clean structure of direction, the fixed way that the water supply flow flows is seted up to the inside of mount.

Further, the water flow layered structure comprises a spiral pipe, a partition plate and a guide plate, the spiral pipe is arranged inside the fixing frame, the partition plate for preventing water flow from mixing is arranged at the corner inside the spiral pipe, one end of the spiral pipe is connected with the water inlet pipe, the other end of the spiral pipe is connected with the guide plate, the guide plate is arranged inside the fixing channel, as shown in fig. 3, water can flow into the inside of the spiral pipe from the water inlet pipe, as the inside of the spiral pipe is arc-shaped, when water flows along the spiral pipe, hot water can suspend on the upper layer of cold water due to the density of the hot water is smaller than that of cold water, the spiral pipe can guide the hot water and the cold water, and when the cold water and the hot water flow into the corner of the spiral pipe, the partition plate can prevent the cold water from exchanging phenomenon, and then the cold water can flow out from the upper layer of the spiral pipe to the inside of the fixing channel, hot water can flow out of the lower layer of the spiral pipe to the inside of the fixed channel, the guide plate can guide cold water, the cold water can flow along the inner wall of the upper layer of the fixed channel, heat can be prevented from being transferred upwards due to the fact that the water flows along the upper layer of the fixed channel, meanwhile, the cold water is close to the circulating pump, the circulating pump can be cooled by the cold water, the problem that the efficiency of the circulating pump is reduced due to the fact that the temperature of the circulating pump is too high is effectively avoided, operation of the circulating pump is enabled to be more effective, meanwhile, when the circulating pump operates at high temperature, energy required to be consumed can be increased, and the effect of saving energy is achieved;

like figure 1 and figure 2, cold water can flow along the inside right side of fixed way, and hot water can flow along the inside left side of fixed way, and cold water has played thermal-insulated effect, and can produce the vortex when cold water and hot water take place the striking, can produce the appeal when the vortex produces to avoid impurity storage to locate in the inside center of fixed way, and then the effectual effect that has played the edulcoration, avoid causing the device can not the continuous operation because the inside jam of fixed way.

Furthermore, a fixed shaft is rotatably arranged inside the fixed channel and connected with the circulating pump, two ends of the fixed shaft are in a circular truncated cone shape, the diameter of the two ends of the fixed shaft is larger than the diameter of the middle part of the fixed shaft, as shown in fig. 4, the circulating pump can drive the fixed shaft to rotate, and when the fixed shaft rotates, impurities can move inwards along the two ends of the fixed shaft due to the fact that the diameter of the two ends of the fixed shaft is larger than the diameter of the middle part of the fixed shaft, so that the situation that the impurities fill the joint of the fixed shaft and the fixed frame and the fixed shaft cannot continuously operate is avoided.

Furthermore, the impurity collecting structure is arranged inside the upper end and the lower end of the fixing shaft, the impurity collecting structure comprises a fixing groove, a receiving rod and a first spring, the fixing groove is arranged inside the fixing shaft at equal angles, the receiving rod is arranged inside the fixing groove in a sliding manner, the first spring is arranged outside the receiving rod and is arranged inside the fixing groove, the longitudinal section of the receiving rod is triangular, as shown in fig. 6, when the fixing shaft rotates, the receiving rod can move outwards under the action of centrifugal force, when the receiving rod moves outwards, impurities can be wound on the surface of the receiving rod after the impurities are contacted with the receiving rod, and because the receiving rod is triangular, the top end of the side surface of the receiving rod is sharp, the impurities can be cut, and when the fixing shaft does not rotate, the first spring can push the receiving rod to move reversely, thereby make and accomodate the inside of pole retraction to the fixed slot, impurity will not twine the side of accomodating the pole this moment, so impurity can suspend in the inside of fixed way to when making the device restart, impurity enters into the inside of impurity crushing structure and smashes the material.

Furthermore, the impurity crushing structure comprises a fixing sleeve, a cutting knife and a guide way, the fixing sleeve is rotatably arranged on the side surface of the fixing shaft, the inner diameters of the two ends of the fixing sleeve are gradually reduced from outside to inside, the cutting knife is arranged in the fixing sleeve in an equiangular sliding manner, the guide way in an inclined manner is arranged in the cutting knife, a fixing ring is arranged on the outer side of the fixing shaft in a sliding manner, and the fixing ring is connected with the fixing sleeve in a laminating manner, as shown in fig. 5, when external water flows into the fixing sleeve, water flow can enter the guide way from outside to inside, and the guide way is inclined, so that the water flow can generate outward thrust to the guide way, thereby pushing the cutting knife to move outwards, at the moment, the cutting knife can cut the material, and when the water flows out from the inside of the fixing sleeve, the water flow can push the cutting knife to move inwards, thereby enabling the cutting knife to retract into the inside of the fixing sleeve, when the water flow moves, the fixing ring in the shape of a filter screen can be driven to move, and when the fixing ring moves outwards, impurities in the gap between the fixing ring and the fixing shaft can be pushed out;

when the device does not operate, because impurity is stored in the gap department of fixed cover and fixed axle, so can seal the inside of fixed cover for the inside of fixed cover is in the state of relative seal, and the internal pressure of fixed cover is easily influenced by ambient pressure this moment.

Further, the self-flowing structure comprises a first blade and a second blade, a torsion spring is arranged at the center of the fixed shaft, the other end of the torsion spring is connected with a fixed sleeve, the side surface of the fixed sleeve is provided with the first blade, the inside of the first blade is slidably provided with the second blade, the torsion spring can be driven to rotate when the fixed shaft rotates, the fixed sleeve, the first blade and the second blade can be driven to rotate after the torsion spring is charged, the second blade can move outwards to extend out of the inside of the first blade when rotating, when the second blade moves outwards, negative pressure can be generated due to the increase of the inner space of the first blade, so that external water flow enters the inside of the first blade and the fixed sleeve, and the second blade inclines upwards in the inside of the first blade, so that when the device does not operate, the second blade slides downwards under the action of gravity to recover the original position, the fixed sleeve rotates by virtue of the torsion spring, the elasticity of the torsion spring is influenced by impurities at the gap between the fixed sleeve and the fixed shaft, so that the torsion spring can move, the rotating speed of the fixed sleeve also changes, and when the rotating speeds between the fixed sleeve and the fixed shaft are different, the fixed shaft and the fixed sleeve can grind and crush the impurities at the gap;

when the device does not operate, the inside of fixed cover is in relative sealing state, because the temperature propagation speed of solid is very fast, can cause the temperature of fixed cover and first blade to rise after the temperature of external world risees to make first blade get the pressure increase and promote the outside removal of second blade, can drive rivers and remove when the outside removal of second blade, thereby avoid rivers not flowing, cause the bacterium in the water to breed fast and lead to the device can not continue to use.

Furthermore, the guide cleaning structure comprises a fixing rod, a fixing plate, a guide frame, a second spring, a slide way, a third spring and a guide plate, wherein the fixing rod is arranged inside the water outlet pipe, 2 fixing plates are symmetrically arranged on the outer side of the fixing rod, the fixing rod penetrates through the guide frame, the second spring is arranged on two sides inside the guide frame, the second spring and the fixing plates are in fit connection, the slide way is arranged inside the guide frame, the third spring and the guide plate are respectively arranged inside the slide way, the guide plate is arranged inside the guide frame in a sliding manner, the third spring is symmetrically arranged on the side surface of the guide plate, as shown in figure 7, the guide frame and the guide plate can guide water flow, so that the water flowing out of the water outlet pipe flows along the inner wall of the water pipe, and when foreign matters are locally generated in the pipeline, the local temperature of the pipeline is reduced, and when the foreign matter appeared, the water that here flows can receive great resistance, thereby make water reduce the partial pressure of leading truck and guide plate, leading truck and guide plate are not balanced this moment, thereby make leading truck and guide plate take place the skew, and dead lever and fixed plate can carry on spacingly to the leading truck, avoid the leading truck to appear the dislocation, the second spring can increase the range that the leading truck removed simultaneously, when the leading truck removes, the guide plate also can remove in the inside of slide, because the third spring can carry on spacingly to the guide plate, thereby make the removal frequency of guide plate and leading truck inequality, the two can make the clearance with the outlet pipe littleer when leading truck and guide plate remove, thereby increase water pressure and come to clean the inner wall of pipeline, avoid the pipeline phenomenon that the jam appears.

Further, the guide plate is the hemisphere, the inside center department of guide plate is provided with the fixed orifices, the inside of fixed orifices is curved drainage way, the inside of fixed orifices and the side of guide plate have been seted up and have been curved drainage way, and when as figure 8, rivers can flow along the drainage way after going into the inside of fixed orifices, and the drainage way is the arc, and the drainage way leads rivers for rivers are rotatory form and move, further improve the clean efficiency to the pipeline.

Compared with the prior art, the invention has the following beneficial effects: when the device is used, cold water and hot water are guided and layered by using the spiral pipe, so that the cold water flows on the upper layer, a circulating pump flows, the cold water and the hot water are impacted to be fully mixed in the pipeline to flow, and meanwhile, vortex is generated in the device to attract impurities, so that the blockage of a fixed channel caused by the impurities is avoided;

when the circulating pump is started, the fixed sleeve can generate suction to suck impurities into the device, then the cutting knife is used for cutting the impurities, and the fixed shaft and the fixed sleeve grind the impurities, so that the impurities are crushed;

when the pipeline is blocked, the local water pressure changes, and the guide cleaning structure has unbalanced stress, so that the guide cleaning structure moves, water rotates along the inner wall of the pipeline, and the pipeline is cleaned;

when the device is not using, because impurity can seal the inside of first blade, so can arouse earlier the pressure change in the first blade when ambient temperature equipment risees after to promote the second blade and take place to remove, can promote rivers and move after the second blade takes place to remove, thereby avoid the water in the pipeline static, cause the bacterium to breed in a large number.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall front cross-sectional structural view of the present invention;

FIG. 2 is a schematic view of the water flow within the mount of the present invention;

FIG. 3 is a schematic view of the internal structure of the spiral tube of the present invention;

FIG. 4 is a schematic view of a fixed shaft and sleeve mounting arrangement of the present invention;

FIG. 5 is an enlarged schematic view of FIG. 4 at A in accordance with the present invention;

FIG. 6 is a top cross-sectional structural view of the stationary shaft and stowing rod mounting of the present invention;

FIG. 7 is a schematic view of the leading frame and baffle installation front view configuration of the present invention;

fig. 8 is a schematic view of the baffle and duct mounting arrangement of the present invention.

In the figure: 1. a circulation pump; 101. a fixed shaft; 102. fixing grooves; 103. a storage rod; 104. a first spring; 105. a torsion spring; 106. fixing a sleeve; 107. a first blade; 108. a second blade; 109. a fixing ring; 110. a cutting knife; 111. a guide way; 2. a fixed mount; 201. a spiral tube; 202. a partition plate; 203. a guide plate; 204. a fixed way; 3. a base; 4. a water inlet pipe; 5. a water outlet pipe; 501. fixing the rod; 502. a fixing plate; 503. a guide frame; 504. a second spring; 505. a slideway; 506. a third spring; 507. a baffle; 508. a fixing hole; 509. a drainage channel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

Referring to fig. 1 to 8, the present invention provides a technical solution: the utility model provides an energy-efficient circulating pump, including circulating pump 1, mount 2, base 3, inlet tube 4 and outlet pipe 5, circulating pump 1 sets up the upper end at mount 2, the lower extreme of mount 2 is provided with base 3, one side of mount 2 is provided with inlet tube 4, the opposite side of mount 2 is provided with outlet pipe 5, the inside of mount 2 is provided with rivers layered structure respectively, impurity collection structure, impurity crushing structure and flowing structure certainly, the inside of outlet pipe 5 is provided with the clean structure of direction, the fixed way 204 that the water supply flow flows is seted up to the inside of mount 2.

The water flow layered structure comprises a spiral pipe 201, a partition plate 202 and a guide plate 203, the spiral pipe 201 is arranged inside the fixed frame 2, the partition plate 202 for avoiding water flow mixing is arranged at the corner inside the spiral pipe 201, one end of the spiral pipe 201 is connected with the water inlet pipe 4, the guide plate 203 is connected with the other end of the spiral pipe 201, the guide plate 203 is arranged inside the fixed channel 204, as shown in fig. 3, water can flow into the spiral pipe 201 from the water inlet pipe 4, as the inside of the spiral pipe 201 is arc-shaped, when water flows along the spiral pipe 201, hot water can suspend on the upper layer of cold water due to the density of the hot water being smaller than that of the cold water, the spiral pipe 201 can guide the hot water and the cold water, and when the cold water flows into the corner of the spiral pipe 201, the partition plate 202 can avoid the phenomenon of cold and hot water exchange, and then the cold water can flow out to the inside the fixed channel 204 from the upper layer of the spiral pipe 201, hot water flows out of the lower layer of the spiral pipe 201 to the inside of the fixed channel 204, the guide plate 203 can guide cold water, the cold water flows along the inner wall of the upper layer of the fixed channel 204, heat can be prevented from being transferred upwards due to the fact that the water flows along the upper layer of the fixed channel 204, meanwhile, the cold water is close to the circulating pump 1, the circulating pump 1 can be cooled by the cold water, the phenomenon that the circulating pump 1 is too high in temperature and the efficiency of the circulating pump 1 is reduced is effectively avoided, operation of the circulating pump 1 is enabled to be more effective, meanwhile, when the circulating pump 1 runs at high temperature, energy consumed by the circulating pump 1 can be increased, and the effect of energy conservation is achieved;

as shown in fig. 1 and 2, cold water flows along the right side of the inside of the fixed passage 204, hot water flows along the left side of the inside of the fixed passage 204, the cold water plays a role in heat insulation, and generates vortex when the cold water and the hot water collide with each other, and attraction is generated when vortex generation, so that impurities are prevented from being stored in the center of the inside of the fixed passage 204, impurity removal is effectively performed, and the phenomenon that the device cannot continuously run due to internal blockage of the fixed passage 204 is avoided.

The fixed shaft 101 is rotatably arranged inside the fixed channel 204, the fixed shaft 101 is connected with the circulating pump 1, two ends of the fixed shaft 101 are in a circular truncated cone shape, the diameter of two ends of the fixed shaft 101 is larger than the diameter of the middle part of the fixed shaft 101, as shown in fig. 4, the circulating pump 1 can drive the fixed shaft 101 to rotate, when the fixed shaft 101 rotates, impurities can move inwards along two ends of the fixed shaft 101 due to the fact that the diameter of two ends of the fixed shaft 101 is larger than the diameter of the middle part of the fixed shaft 101, and therefore the situation that the connecting position of the fixed shaft 101 and the fixed frame 2 is filled with impurities is avoided, and the fixed shaft 101 cannot continuously operate.

The inner parts of the upper and lower ends of the fixed shaft 101 are provided with impurity collecting structures, each impurity collecting structure comprises a fixed groove 102, a receiving rod 103 and a first spring 104, the fixed groove 102 is arranged in the fixed shaft 101 at equal angles, the receiving rod 103 is arranged in the fixed groove 102 in a sliding manner, the first spring 104 is arranged on the outer side of the receiving rod 103, the first spring 104 is arranged in the fixed groove 102, the longitudinal section of the receiving rod 103 is triangular, as shown in fig. 6, when the fixed shaft 101 rotates, the receiving rod 103 moves outwards under the action of centrifugal force, when the receiving rod 103 moves outwards, impurities are wound on the surface of the receiving rod 103 after contacting with the receiving rod 103, and because the receiving rod 103 is triangular, the top end of the side surface of the receiving rod 103 is sharp, so that the impurities can be cut, and when the fixed shaft 101 does not rotate, the first spring 104 can push the receiving rod 103 to move reversely, thereby make and accomodate pole 103 and retract into the inside of fixed slot 102, impurity will not twine the side of accomodating pole 103 this moment, so impurity can suspend in the inside of fixed way 204 to when making the device restart, impurity enters into the inside of impurity crushing structure and smashes the material.

The impurity crushing structure comprises a fixed sleeve 106, a cutting knife 110 and a guide way 111, the fixed sleeve 106 is rotatably arranged on the side surface of a fixed shaft 101, the inside diameter of the two ends of the fixed sleeve 106 is gradually reduced from outside to inside, the inside of the fixed sleeve 106 is provided with the cutting knife 110 in an equiangular sliding manner, the inside of the cutting knife 110 is provided with the guide way 111 in an inclined manner, the outside of the fixed shaft 101 is provided with a fixed ring 109 in a sliding manner, and the fixed ring 109 and the fixed sleeve 106 are connected in a bonding manner, as shown in fig. 5, when outside water flows into the inside of the fixed sleeve 106, the water flow can enter the inside of the guide way 111 from outside to inside, because the guide way 111 is in an inclined manner, the water flow can generate outward thrust on the guide way 111, thereby pushing the cutting knife 110 to move outwards, at the moment, the cutting knife 110 can cut materials, and when the water flows out from the inside of the fixed sleeve 106, the water flow can push the cutting knife 110 to move inwards, thereby enabling the cutting knife 110 to retract into the inside of the fixed sleeve 106, when the water flow moves, the fixing ring 109 in the shape of a filter screen can be driven to move, and when the fixing ring 109 moves outwards, impurities in the gap between the fixing sleeve 106 and the fixing shaft 101 can be pushed out;

when the device is not operated, because the gap between the fixed sleeve 106 and the fixed shaft 101 is stored with impurities, the inside of the fixed sleeve 106 is sealed, so that the inside of the fixed sleeve 106 is in a relatively sealed state, and the internal pressure of the fixed sleeve 106 is easily influenced by the external pressure.

The self-flowing structure comprises a first blade 107 and a second blade 108, a torsion spring 105 is arranged at the center of the fixed shaft 101, the other end of the torsion spring 105 is connected with a fixed sleeve 106, a first blade 107 is arranged on the side surface of the fixed sleeve 106, a second blade 108 is arranged inside the first blade 107 in a sliding manner, the torsion spring 105 is driven to rotate when the fixed shaft 101 rotates, the fixed sleeve 106, the first blade 107 and the second blade 108 are driven to rotate when the torsion spring 105 is charged completely, the second blade 108 can move outwards and extend out of the inside of the first blade 107 when rotating, when the second blade 108 moves outwards, negative pressure can be generated due to the increase of the inner space of the first blade 107, so that external water flows into the inside of the first blade 107 and the fixed sleeve 106, and because the second blade 108 inclines upwards inside the first blade 107, when the device does not operate, the second blade 108 slides downwards under the action of gravity to recover the original position, because the fixing sleeve 106 rotates by virtue of the torsion spring 105, the elasticity of the torsion spring 105 is influenced by impurities at the gap between the fixing sleeve 106 and the fixing shaft 101, so that the torsion spring 105 can move, the rotating speed of the fixing sleeve 106 can change at the moment, and when the rotating speeds between the fixing sleeve 106 and the fixing shaft 101 are different, the fixing shaft 101 and the fixing sleeve 106 can grind and crush the impurities at the gap;

when the device does not operate, the inside of fixed cover 106 is in a relatively sealed state, because the temperature propagation speed of solid is very fast, can cause the temperature rise of fixed cover 106 and first blade 107 after the temperature rise of external world to make first blade 107 get the pressure increase and promote second blade 108 outwards to move, can drive rivers and move when second blade 108 outwards moves, thereby avoid rivers not flowing, cause the bacterium in the water to breed fast and lead to the device can not continue to use.

The guide cleaning structure comprises a fixed rod 501, a fixed plate 502, a guide frame 503, a second spring 504, a slide way 505, a third spring 506 and a guide plate 507, wherein the fixed rod 501 is arranged inside the water outlet pipe 5, 2 fixed plates 502 are symmetrically arranged on the outer side of the fixed rod 501, the fixed rod 501 penetrates through the guide frame 503, the second springs 504 are arranged on two sides inside the guide frame 503, the second springs 504 and the fixed plates 502 are in fit connection, the slide way 505 is arranged inside the guide frame 503, the third springs 506 and the guide plate 507 are respectively arranged inside the slide way 505, the guide plate 507 is arranged inside the guide frame 503 in a sliding manner, the third springs 506 are symmetrically arranged on the side surface of the guide plate 507, as shown in fig. 7, the guide frame 503 and the guide plate 507 can guide water flow, so that water flowing out of the water outlet pipe 5 flows along the inner wall of the water pipe, when foreign matters are locally generated in the pipe, the local temperature of the pipe is reduced, when foreign matters occur, the flowing water can be subjected to larger resistance, so that the partial pressure of the water on the guide frame 503 and the guide plate 507 is reduced, at the moment, the guide frame 503 and the guide plate 507 are not balanced, thereby leading the guide frame 503 and the guide plate 507 to generate deviation, and the fixed rod 501 and the fixed plate 502 can limit the guide frame 503, avoiding the dislocation of the guide frame 503, at the same time, the second spring 504 can increase the moving amplitude of the guide frame 503, when the guide frame 503 moves, the guide plate 507 also moves in the slide 505, because the third spring 506 limits the air deflector 507, the moving frequency of the air deflector 507 is different from that of the guide frame 503, the guide frame 503 and the guide plate 507 are moved to make the clearance between the guide frame 503 and the water outlet pipe 5 smaller, thereby increasing the water pressure and cleaning the inner wall of the pipeline and avoiding the phenomenon of blockage of the pipeline.

Guide plate 507 is the hemisphere, the inside center department of guide plate 507 is provided with fixed orifices 508, the inside of fixed orifices 508 is curved drainage way 509, the inside of fixed orifices 508 and the side of guide plate 507 have been seted up and have been curved drainage way 509, if as figure 8, water can flow along drainage way 509 after flowing into the inside of fixed orifices 508, and drainage way 509 is the arc, drainage way 509 leads rivers, make rivers be rotatory form and remove, further improve the clean efficiency to the pipeline.

The working principle of the invention is as follows: when the device is used, cold water and hot water are guided and layered by using the spiral pipe 201, the cold water flows in the upper layer, so that the circulating pump 1 flows, the cold water and the hot water are impacted to be fully mixed in the pipeline to flow, and meanwhile, vortex is generated in the device to attract impurities, so that the impurities are prevented from blocking the fixed channel 204;

when the circulating pump 1 is started, the fixing sleeve 106 can generate suction force to suck impurities into the device, then the impurities are cut by the cutting knife 110, and the fixed shaft 101 and the fixing sleeve 106 grind the impurities, so that the impurities are crushed;

when the device is not in use, because impurity can seal the inside of first blade 107, so can arouse earlier the pressure change in first blade 107 after ambient temperature equipment risees to promote second blade 108 to take place to remove, can promote rivers and move after second blade 108 takes place to remove, thereby avoid the water in the pipeline static, cause the bacterium to breed in a large number.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. 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. The utility model provides an energy-efficient circulating pump, includes circulating pump (1), mount (2), base (3), inlet tube (4) and outlet pipe (5), its characterized in that: circulating pump (1) sets up the upper end at mount (2), the lower extreme of mount (2) is provided with base (3), one side of mount (2) is provided with inlet tube (4), the opposite side of mount (2) is provided with outlet pipe (5), the inside of mount (2) is provided with rivers layered structure, impurity collection structure, impurity crushing structure and flows the structure certainly respectively, the inside of outlet pipe (5) is provided with the clean structure of direction, fixed way (204) that the confession rivers flow are seted up to the inside of mount (2).

2. The energy-efficient circulating pump of claim 1, wherein: the rivers layered structure includes spiral pipe (201), baffle (202) and deflector (203), spiral pipe (201) set up the inside at mount (2), the inside corner of spiral pipe (201) is provided with baffle (202) of avoiding rivers to mix, the one end of spiral pipe (201) is connected with inlet tube (4), the other end of spiral pipe (201) is connected with deflector (203), deflector (203) set up the inside at fixed way (204).

3. The energy-efficient circulating pump of claim 1, wherein: the inner part of the fixed channel (204) is rotatably provided with a fixed shaft (101), the fixed shaft (101) is connected with the circulating pump (1), two ends of the fixed shaft (101) are in a cone shape, and the diameters of the two ends of the fixed shaft (101) are larger than the diameter of the middle part of the fixed shaft (101).

4. An energy-efficient circulating pump according to claim 3, characterized in that: the impurity collecting structure is arranged inside the upper end and the lower end of the fixing shaft (101), the impurity collecting structure comprises a fixing groove (102), a containing rod (103) and a first spring (104), the fixing groove (102) is formed in the fixing shaft (101) at equal angles, the containing rod (103) is arranged inside the fixing groove (102) in a sliding mode, the first spring (104) is arranged on the outer side of the containing rod (103), the first spring (104) is arranged inside the fixing groove (102), and the longitudinal section of the containing rod (103) is triangular.

5. An energy-efficient circulating pump according to claim 3, characterized in that: impurity crushing structure is including fixed cover (106), cutting knife (110) and direction way (111), fixed cover (106) are rotated and are set up the side at fixed axle (101), the both ends outside-in internal diameter of fixed cover (106) reduces gradually, the inside of fixed cover (106) is waited angular sliding and is provided with cutting knife (110), the inside of cutting knife (110) is provided with direction way (111) that are the slope form, the outside of fixed axle (101) is slided and is provided with solid fixed ring (109), and gu fixed ring (109) and fixed cover (106) are connected for laminating.

6. An energy-efficient circulating pump according to claim 3, characterized in that: the automatic flow structure comprises a first blade (107) and a second blade (108), a torsion spring (105) is arranged at the center of the fixed shaft (101), the other end of the torsion spring (105) is connected with a fixed sleeve (106), the side face of the fixed sleeve (106) is provided with the first blade (107), and the second blade (108) is arranged inside the first blade (107) in a sliding mode.

7. The energy-efficient circulating pump of claim 1, wherein: the guide cleaning structure comprises a fixing rod (501), a fixing plate (502), a guide frame (503), a second spring (504), a slide way (505), a third spring (506) and a guide plate (507), the fixing rod (501) is arranged inside the water outlet pipe (5), 2 fixing plates (502) are symmetrically arranged on the outer side of the fixing rod (501), the fixing rod (501) penetrates through a guide frame (503), second springs (504) are arranged on two sides of the interior of the guide frame (503), the second spring (504) is connected with the fixing plate (502) in a fitting manner, a slide way (505) is arranged inside the guide frame (503), a third spring (506) and a guide plate (507) are respectively arranged in the slideway (505), the guide plate (507) is arranged inside the guide frame (503) in a sliding mode, and third springs (506) are symmetrically arranged on the side face of the guide plate (507).

8. The energy-efficient circulating pump of claim 7, wherein: the guide plate (507) is the hemisphere, the inside center department of guide plate (507) is provided with fixed orifices (508), the inside of fixed orifices (508) is curved drainage (509), curved drainage (509) have been seted up to the inside of fixed orifices (508) and the side of guide plate (507).