CN114674030A

CN114674030A - Novel hot water supply system

Info

Publication number: CN114674030A
Application number: CN202210330581.XA
Authority: CN
Inventors: 王杰; 宫锐; 宋晨; 索静; 张晓望
Original assignee: Jiangsu Longjing Kejie Environmental Protection Technology Co ltd
Current assignee: Jiangsu Longjing Kejie Environmental Protection Technology Co ltd
Priority date: 2022-03-30
Filing date: 2022-03-30
Publication date: 2022-06-28

Abstract

The invention provides a novel hot water supply system, which comprises: the spiral pipe is wound in the combustion furnace and communicated with the first water tank, one end of the water supply pipe is communicated with the first water tank, and the other end of the water supply pipe is communicated with a user side to supply hot water. The invention aims to provide a novel hot water supply system to solve the problem of heat waste of a rotary kiln in the prior art.

Description

Novel hot water supply system

Technical Field

The invention relates to the technical field of hot water supply systems, in particular to a novel hot water supply system.

Background

In recent years, with the continuous development of the green industry in China, large-scale incineration equipment such as a rotary kiln is increasingly used, as shown in fig. 1, however, the equipment such as the rotary kiln can generate a large amount of heat when in use, the dissipation of the heat can cause a large amount of energy waste, meanwhile, a factory dormitory and the like need to supply hot water, at the moment, the heating of the water also needs to consume a large amount of energy, so that a novel hot water supply system needs to be designed, the heating and water supply are carried out by utilizing the redundant heat of the rotary kiln, and the problem of heat waste of the rotary kiln in the prior art is solved.

Disclosure of Invention

The invention provides a novel hot water supply system, which aims to solve the problem of heat waste of a rotary kiln in the prior art.

Therefore, the technical scheme adopted by the invention is that the novel hot water supply system comprises: the spiral pipe is wound in the combustion furnace and communicated with the first water tank, one end of the water supply pipe is communicated with the first water tank, and the other end of the water supply pipe is communicated with a user side to supply hot water.

Preferably, the first water tank is divided into a hot water cavity and a cold water cavity by a partition plate, the cold water cavity is communicated with one end of the coiled pipe and used for supplying water to the coiled pipe, and the hot water cavity is communicated with the other end of the coiled pipe and used for storing hot water.

Preferably, an overflow port is arranged above the side wall of the hot water cavity, a drain valve is arranged at the overflow port, and a liquid level meter is arranged in the hot water cavity.

Preferably, the water-cooling boiler further comprises a distribution box, the distribution box is electrically connected with the combustion furnace and used for controlling the start and stop of the combustion furnace, a flow sensor is connected into the water supply pipe, a first water pump is connected between the cold water cavity and the spiral pipe, and the first water pump and the flow sensor are respectively and electrically connected with the distribution box.

Preferably, a second water tank and a second water pump are communicated in the water supply pipeline, a water level controller is arranged in the second water tank and electrically connected with the distribution box, and the water level controller is electrically connected with the second water pump through the distribution box.

Preferably, still the intercommunication has the moisturizing pipe on the second water tank, the moisturizing pipe other end and running water source intercommunication, it has the moisturizing solenoid valve to insert in the moisturizing pipe line, the moisturizing solenoid valve pass through the block terminal with flow sensor electricity is connected.

Preferably, the air energy water heater is communicated with the second water tank through a pipeline, a temperature control sensor is arranged in the second water tank and communicated with the air energy water heater through a distribution box, and the air energy water heater is electrically connected with a controller.

Preferably, a booster pump is connected to the end of the water supply pipeline.

Preferably, a filter assembly is further disposed in the second water tank, and the filter assembly includes:

the screening filter screen is fixedly arranged in the second water tank and is obliquely arranged, and a sewage discharge groove is formed in the side wall of the second water tank above the screening filter screen;

the screening motor is embedded in the inner wall of the second water tank, an output shaft of the screening motor is horizontally arranged, a first crank is fixedly arranged on the output shaft of the screening motor and is perpendicular to the output shaft of the screening motor, a first convex column is rotatably arranged at one end, away from the screening motor, of the first crank, a second crank is rotatably arranged on the first convex column and is perpendicular to the first convex column;

a first fixed block is arranged above the second crank and fixedly connected with the inner wall of the second water tank, the first fixed block is close to one end, far away from the first convex column, of the second crank, a tension spring is fixedly arranged on the lower surface of the first fixed block, the axis of the tension spring is vertically arranged, and the lower end of the tension spring is fixedly connected with the second crank;

the second fixing shaft is fixedly arranged on the inner wall of the second water tank and is parallel to the first convex column, a third crank is rotatably arranged on the second fixing shaft, the middle part of the third crank is rotatably connected with the second fixing shaft, one end of the third crank can be abutted against the second crank when the third crank rotates, and the other end of the third crank is rotatably provided with the second convex column;

the second water tank is characterized in that a third fixed block is fixedly arranged on the outer wall of the second water tank, a third convex column is rotatably arranged on the third fixed block, a fourth crank perpendicular to the third convex column is rotatably arranged on the third convex column, a fourth convex column is rotatably arranged on the fourth crank, the fourth convex column is connected with the second convex column through a fifth crank, the fifth crank horizontally penetrates through the side wall of the second water tank, and two ends of the fifth crank are respectively rotatably connected with the second convex column and the fourth convex column;

the lower end of the second crank is fixedly provided with a scraping connecting rod which is vertically arranged, the lower end of the scraping connecting rod is provided with a cleaning scraper, and the cleaning scraper is obliquely arranged and can be abutted against the surface of the screening filter screen;

a plurality of fourth fixed shafts are arranged below the screening and filtering net and are parallel to the third fixed shafts, and the fourth fixed shafts are rotatably connected with the inner wall of the second water tank;

drive gear rack, the fixed drive gear rack that is provided with of second crank lower surface, the fixed drive gear that is provided with on the fixed axle of fourth, drive gear with drive gear rack meshes, the fixed brush of cleaing away that is provided with on the fixed axle of fourth, it is located to clear away the brush screening filter screen below and can with screening filter screen butt.

Preferably, the lower end of the scraping connecting rod is hinged to the clearing scraper, a thrust spring is fixedly arranged between the scraping connecting rod and the clearing scraper, and the thrust spring is obliquely arranged.

The working principle and the beneficial effects of the invention are as follows: through installing the coiled pipe in the burning furnace at the gyration kiln, when the gyration kiln of mill was moving, the water in the coiled pipe was heated, thereby the water after being heated reaches the delivery pipe through first water tank and realizes supplying hot water to facilities such as staff, thereby the realization is to the reuse of gyration kiln residual heat, reduces the required energy of supplying hot water simultaneously, thereby promotes resource utilization, reduces the energy waste, impels green sustainable development's implementation.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

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 view of a rotary kiln in the prior art;

FIG. 2 is a schematic structural diagram of a novel hot water supply system according to an embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating a first tank structure of a novel hot water supply system according to an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating a second tank of the novel hot water supply system according to an embodiment of the present invention;

FIG. 5 is a first schematic view of a filter assembly in a hot water supply system according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a filtering assembly in a novel hot water supply system according to an embodiment of the present invention.

The reference numbers in the drawings are as follows: 1. a combustion furnace; 11. a coiled pipe; 2. a first water tank; 21. a partition plate; 22. a hot water chamber; 23. a cold water chamber; 24. an overflow port; 25. a drain valve; 26. a liquid level meter; 27. a first water pump; 3. a water supply pipe; 31. a flow sensor; 32. a second water tank; 33. a second water pump; 34. a water level controller; 35. a water replenishing pipe; 36. a water replenishing electromagnetic valve; 4. a distribution box; 5. an air energy water heater; 51. a temperature control sensor; 52. a controller; 6. a booster pump; 7. a filter assembly; 701. screening a filter screen; 702. a sewage draining groove; 703. a screening motor; 704. a first crank; 705. a first convex column; 706. a second crank; 707. a first fixed block; 708. a second fixed shaft; 709. a third crank; 710. a second convex column; 711. a third fixed block; 712. a third convex column; 713. a fourth crank; 714. a fourth convex column; 715. a fifth crank; 716. scraping the connecting rod; 717. removing the scraper; 718. a fourth fixed shaft; 719. a drive rack; 720. a drive gear; 721. cleaning brushes; 722. a thrust spring; 723. a tension spring; 8. a furnace body; 81. a power section; 82. a combustion section.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

An embodiment of the present invention provides a novel hot water supply system, as shown in fig. 2 to 4, including: the device comprises a combustion furnace 1, a spiral pipe 11, a first water tank 2 and a water supply pipe 3, wherein the spiral pipe 11 is wound in the combustion furnace 1, the spiral pipe 11 is communicated with the first water tank 2, one end of the water supply pipe 3 is communicated with the first water tank 2, and the other end of the water supply pipe 3 is communicated with a user end to supply hot water.

The working principle and the beneficial technical effects of the technical scheme are as follows: through installing the coiled pipe 11 in the burning furnace 1 at the gyration kiln, when the gyration kiln operation of mill, the water in the coiled pipe 11 is heated, thereby the water after being heated reaches the delivery pipe 3 through first water tank 2 and realizes supplying hot water to facilities such as staff, thereby realize the reuse to the residual heat of gyration kiln, reduce the required energy of supplying hot water simultaneously, thereby promote resource utilization, reduce the energy waste, impel the implementation of green sustainable development.

In one embodiment, the first water tank 2 is divided into a hot water chamber 22 and a cold water chamber 23 by a partition plate 21, the cold water chamber 23 is communicated with one end of the spiral pipe 11 for supplying water to the spiral pipe 11, and the hot water chamber 22 is communicated with the other end of the spiral pipe 11 for storing hot water.

The working principle and the beneficial technical effects of the technical scheme are as follows: divide into hot water chamber 22 and cold water chamber 23 with first water tank 2 through setting up division board 21 to can supply hot water simultaneously like injecting cold water in the coiled pipe 11, thereby guarantee to have water heating in the coiled pipe 11 all the time, thereby realize the utilization to the residual heat of gyration kiln, promote energy utilization in the at utmost.

In one embodiment, an overflow port 24 is disposed above a side wall of the hot water chamber 22, a drain valve 25 is disposed at the overflow port 24, and a liquid level gauge 26 is disposed in the hot water chamber 22.

The working principle and the beneficial technical effects of the technical scheme are as follows: through setting up overflow mouth 24, can discharge the steam that hot water gived off from overflow mouth 24, avoid hot water cavity 22 internal gas pressure to cause the damage to the cavity excessively, simultaneously, also can discharge hot water from overflow mouth 24 when the hot water of storing in hot water cavity 22 is too much, avoid the cavity to damage to hoisting device's security avoids causing the damage to factory worker.

In one embodiment, the system further comprises a distribution box 4, the distribution box 4 is electrically connected with the combustion furnace 1 for controlling the opening and closing of the combustion furnace 1, a flow sensor 31 is connected into a pipeline of the water supply pipe 3, a first water pump 27 is connected between the cold water cavity 23 and the coil 11, and the first water pump 27 and the flow sensor 31 are respectively electrically connected with the distribution box 4.

The working principle and the beneficial technical effects of the technical scheme are as follows: through setting up each part such as block terminal 4 and flow sensor 31, can conveniently realize the control to whole delivery pipe 3 way on the one hand, simultaneously, through setting up flow sensor 31, control when detecting that there is not rivers to pass through in the delivery pipe 3 pipeline and fire burning furnace 1 and close when first water pump 27 stop work to fire burning furnace 1 and also close when avoiding having no water in the coiled pipe 11 and cause the damage to coiled pipe 11 futilely, thereby hoisting device's practicality and security.

In one embodiment, the water supply pipe 3 is further connected to a second water tank 32 and a second water pump 33, a water level controller 5234 is disposed in the second water tank 32, the water level controller 5234 is electrically connected to the distribution box 4, and the water level controller 5234 is electrically connected to the second water pump 33 through the distribution box 4.

The working principle and the beneficial technical effects of the technical scheme are as follows: through setting up water level controller 5234, second water pump 33 is opened and is supplied water with hot water from first water tank 2 pump sending to second water tank 32 when the water level is in the low water level, second water pump 33 closes and stops the pump sending when the water level is in the high water level, thereby make to leave comparatively appropriate amount of hot water in the second water tank 32 all the time, hot water supply is untimely when avoiding using when needing on the one hand, on the other hand also avoids the pump sending too much to lead to the fact the damage to the box in the second water tank 32 internal water pressure, thereby hoisting device's practicality and security.

In one embodiment, the second water tank 32 is further communicated with a water replenishing pipe 35, the other end of the water replenishing pipe 35 is communicated with a tap water source, a water replenishing electromagnetic valve 36 is connected into a pipeline of the water replenishing pipe 35, and the water replenishing electromagnetic valve 36 is electrically connected with the flow sensor 31 through the distribution box 4.

The working principle and the beneficial technical effects of the technical scheme are as follows: through setting up moisturizing pipe 35 and moisturizing solenoid valve 36, when flow sensor 31 detects no water and passes through, moisturizing solenoid valve 36 opens and supplies water in the second water tank 32 like the running water source department to avoid taking place anhydrous available problem under the special circumstances in the second water tank 32, thereby hoisting device's stability.

In one embodiment, the water heater further comprises an air energy water heater 5, the air energy water heater 5 is communicated with the second water tank 32 through a pipeline, a temperature control sensor 51 is arranged in the second water tank 32, the temperature control sensor 51 is communicated with the air energy water heater 5 through a distribution box 4, and a controller 52 is electrically connected to the air energy water heater 5.

The working principle and the beneficial technical effects of the technical scheme are as follows: through setting up air can water heater 5 and temperature control sensor 51, the air can water heater 5 start-up carry out the air can heat water when detecting that the water temperature is crossed lowly in the second water tank 32 to make the water in the second water tank 32 be in higher temperature all the time, hoisting device's stability.

In one embodiment, the end of the water supply pipe 3 is also connected with a booster pump 6.

The working principle and the beneficial technical effects of the technical scheme are as follows: through setting up booster pump 6, carry out the pressure boost to delivery pipe 3 end and make the water pressure increase to can carry hot water to higher position and use, avoid leading to the unstable problem of delivery pipe 3 end water supply because of the water pressure undersize.

In one embodiment, a filter assembly 7 is further disposed in the second water tank 32, as shown in fig. 5 and 6, the filter assembly 7 includes:

the screening filter screen 701 is fixedly arranged in the second water tank 32, the screening filter screen 701 is obliquely arranged, and a sewage discharge groove 702 is formed in the side wall of the second water tank 32 above the screening filter screen 701 in an oblique direction;

the screening motor 703 is embedded on the inner wall of the second water tank 32, an output shaft of the screening motor 703 is horizontally arranged, a first crank 704 is fixedly arranged on the output shaft of the screening motor 703, the first crank 704 is perpendicular to the output shaft of the screening motor 703, a first convex column 705 is rotatably arranged at one end, away from the screening motor 703, of the first crank 704, a second crank 706 is rotatably arranged on the first convex column 705, and the second crank 706 is perpendicular to the first convex column 705;

a first fixing block 707 is arranged above the second crank 706, the first fixing block 707 is fixedly connected with the inner wall of the second water tank 32, the first fixing block 707 is close to one end, far away from the first convex column 705, of the second crank 706, a tension spring 723 is fixedly arranged on the lower surface of the first fixing block 707, the axis of the tension spring 723 is vertically arranged, and the lower end of the tension spring 723 is fixedly connected with the second crank 706;

a second fixed shaft 708 is fixedly arranged on the inner wall of the second water tank 32, the second fixed shaft 708 is parallel to the first convex column 705, a third crank 709 is rotatably arranged on the second fixed shaft 708, the middle part of the third crank 709 is rotatably connected with the second fixed shaft 708, one end of the third crank 709 can be abutted against the second crank 706 when the third crank 709 rotates, and a second convex column 710 is rotatably arranged at the other end of the third crank 709;

a third fixing block 711, wherein a third fixing block 711 is fixedly disposed on an outer wall of the second water tank 32, a third convex column 712 is rotatably disposed on the third fixing block 711, a fourth crank 713 perpendicular to the third convex column 712 is rotatably disposed on the third convex column 712, a fourth convex column 714 is rotatably disposed on the fourth crank 713, the fourth convex column 714 is connected with the second convex column 710 through a fifth crank 715, the fifth crank 715 horizontally penetrates through a sidewall of the second water tank 32, and two ends of the fifth crank 715 are respectively rotatably connected with the second convex column 710 and the fourth convex column 714;

a scraping connecting rod 716 is fixedly arranged at the lower end of the second crank 706, the scraping connecting rod 716 is vertically arranged, a cleaning scraper 717 is arranged at the lower end of the scraping connecting rod 716, the cleaning scraper 717 is obliquely arranged and can be abutted against the surface of the screening filter screen 701;

a plurality of fourth fixed shafts 718 are arranged below the screening filter screen 701, the fourth fixed shafts 718 are parallel to the third fixed shafts, and the fourth fixed shafts 718 are rotatably connected with the inner wall of the second water tank 32;

the lower surface of the second crank 706 is fixedly provided with a driving rack 719, the fourth fixed shaft 718 is fixedly provided with a driving gear 720, the driving gear 720 is meshed with the driving rack 719, the fourth fixed shaft 718 is fixedly provided with a cleaning brush 721, and the cleaning brush 721 is positioned below the screening filter screen 701 and can be abutted against the screening filter screen 701.

The working principle and the beneficial technical effects of the technical scheme are as follows: by arranging the filtering component 7, when hot water enters the second water tank 32, the screening filter screen 701 firstly filters the hot water to filter out larger impurities contained in the water, the impurities are accumulated at the bottom of the screening filter screen 701 due to the inclined arrangement of the screening filter screen 701, at the moment, the screening motor 703 is started and drives the first crank 704 to rotate, the first crank 704 is matched with the tension spring 723 to drive the second crank 706 to reciprocate in the obliquely upward direction when rotating, the scraping connecting rod 716 drives the scraping plate 717 to reciprocate when the second crank 706 moves, so that the impurities accumulated at the bottom of the screening filter screen 701 are scraped obliquely upward, the impurities move to the sewage discharge groove 702 to be discharged from the screening filter screen 701, the impurities contained in the water are cleaned, and the use is prevented from being influenced by more impurities; after filtering a period of time, the fourth crank 713 is pushed upwards, at the moment, the fourth crank 713 drives the third crank 709 to rotate through the fifth crank 715 during swinging, the third crank 709 is abutted to the second crank 706 during rotating, so that the second crank 706 is pressed downwards, the second crank 706 is pressed downwards and then drives the rack 719 to be meshed with the driving gear 720, at the moment, the second crank 706 drives the fourth fixed shaft 718 to rotate in a reciprocating manner through the meshing of the rack 719 and the driving gear 720 during movement, and then the cleaning brush 721 is driven to brush the lower surface of the screening filter screen 701, the blocking of the screening filter screen 701 after long-time use is avoided, so that the screening effect is further improved, and the use is avoided being influenced by excessive impurities in water.

In one embodiment, the lower end of the scraping link 716 is hinged to the cleaning blade 717, a thrust spring 722 is fixedly arranged between the scraping link 716 and the cleaning blade 717, and the thrust spring 722 is obliquely arranged.

The working principle and the beneficial technical effects of the technical scheme are as follows: through scraping articulated and the setting of thrust spring 722 between connecting rod 716 and the clearance scraper 717, on the one hand can make under the clearance scraper 717 along keeping throughout and sieving the filter screen 701 contact, guarantee to scrape the effect, on the other hand clears away scraper 717 and rotates under the thrust spring 722 effect when the scraper 717 pushes away impurity from blowdown groove 702 and avoids impurity to remain on the scraper 717 to hoisting device's practicality.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A novel hot water supply system is characterized by comprising: the device comprises a combustion furnace (1), a coil pipe (11), a first water tank (2) and a water supply pipe (3), wherein the coil pipe (11) is wound in the combustion furnace (1), the coil pipe (11) is communicated with the first water tank (2), one end of the water supply pipe (3) is communicated with the first water tank (2), and the other end of the water supply pipe (3) is communicated with a user side to supply hot water.

2. A novel hot water supply system according to claim 1, wherein the first water tank (2) is divided into a hot water chamber (22) and a cold water chamber (23) by a partition plate (21), the cold water chamber (23) is communicated with one end of the coil (11) for supplying water to the coil (11), and the hot water chamber (22) is communicated with the other end of the coil (11) for storing hot water.

3. A novel hot water supply system as claimed in claim 2, wherein an overflow port (24) is provided above the side wall of the hot water chamber (22), a drain valve (25) is provided at the overflow port (24), and a liquid level meter (26) is provided in the hot water chamber (22).

4. A novel hot water supply system according to claim 2, further comprising a distribution box (4), wherein the distribution box (4) is electrically connected with the combustion furnace (1) and used for controlling the start and stop of the combustion furnace (1), a flow sensor (31) is connected to the pipeline of the water supply pipe (3), a first water pump (27) is connected between the cold water cavity (23) and the coiled pipe (11), and the first water pump (27) and the flow sensor (31) are electrically connected with the distribution box (4) respectively.

5. A novel hot water supply system as claimed in claim 4, characterized in that the water supply pipe (3) is further connected to a second water tank (32) and a second water pump (33), a water level controller (52) (34) is disposed in the second water tank (32), the water level controller (52) (34) is electrically connected to the distribution box (4), and the water level controller (52) (34) is electrically connected to the second water pump (33) through the distribution box (4).

6. A novel hot water supply system according to claim 5, characterized in that the second water tank (32) is further communicated with a water supply pipe (35), the other end of the water supply pipe (35) is communicated with a tap water source, a water supply solenoid valve (36) is connected to the pipeline of the water supply pipe (35), and the water supply solenoid valve (36) is electrically connected with the flow sensor (31) through a distribution box (4).

7. A novel hot water supply system according to claim 5, characterized by further comprising an air energy water heater (5), wherein the air energy water heater (5) is communicated with the second water tank (32) through a pipeline, a temperature control sensor (51) is arranged in the second water tank (32), the temperature control sensor (51) is communicated with the air energy water heater (5) through a distribution box (4), and a controller (52) is electrically connected to the air energy water heater (5).

8. A new type of hot water supply system, as claimed in claim 1, characterized in that said water supply pipe (3) is connected to a booster pump (6) at the end of the pipe.

9. A novel hot water supply system according to claim 7, characterized in that a filter assembly (7) is further arranged in the second water tank (32), the filter assembly (7) comprising:

the screening filter screen (701) is fixedly arranged in the second water tank (32), the screening filter screen (701) is obliquely arranged, and a sewage discharge groove (702) is formed in the side wall of the second water tank (32) above the screening filter screen (701) in an oblique direction;

the screening motor (703) is embedded on the inner wall of the second water tank (32), an output shaft of the screening motor (703) is horizontally arranged, a first crank (704) is fixedly arranged on the output shaft of the screening motor (703), the first crank (704) is perpendicular to the output shaft of the screening motor (703), a first convex column (705) is rotatably arranged at one end, far away from the screening motor (703), of the first crank (704), a second crank (706) is rotatably arranged on the first convex column (705), and the second crank (706) is perpendicular to the first convex column (705);

a first fixing block (707) is arranged above the second crank (706), the first fixing block (707) is fixedly connected with the inner wall of the second water tank (32), the first fixing block (707) is close to one end, away from the first convex column (705), of the second crank (706), a tension spring (723) is fixedly arranged on the lower surface of the first fixing block (707), the axis of the tension spring (723) is vertically arranged, and the lower end of the tension spring (723) is fixedly connected with the second crank (706);

the inner wall of the second water tank (32) is fixedly provided with a second fixed shaft (708), the second fixed shaft (708) is parallel to the first convex column (705), a third crank (709) is rotatably arranged on the second fixed shaft (708), the middle part of the third crank (709) is rotatably connected with the second fixed shaft (708), one end of the third crank (709) can be abutted to the second crank (706) when rotating, and the other end of the third crank (709) is rotatably provided with a second convex column (710);

a third fixing block (711), a third fixing block (711) is fixedly arranged on the outer wall of the second water tank (32), a third convex column (712) is rotatably arranged on the third fixing block (711), a fourth crank (713) perpendicular to the third convex column (712) is rotatably arranged on the third convex column (712), a fourth convex column (714) is rotatably arranged on the fourth crank (713), the fourth convex column (714) is connected with the second convex column (710) through a fifth crank (715), the fifth crank (715) horizontally penetrates through the side wall of the second water tank (32), and two ends of the fifth crank (715) are respectively rotatably connected with the second convex column (710) and the fourth convex column (714);

the scraping connecting rod (716) is fixedly arranged at the lower end of the second crank (706), the scraping connecting rod (716) is vertically arranged, a cleaning scraper (717) is arranged at the lower end of the scraping connecting rod (716), and the cleaning scraper (717) is obliquely arranged and can be abutted against the surface of the screening filter screen (701);

the screening filter screen (701) is provided with a plurality of fourth fixed shafts (718), the fourth fixed shafts (718) are parallel to the third fixed shafts, and the fourth fixed shafts (718) are rotatably connected with the inner wall of the second water tank (32);

drive rack (719), second crank (706) lower surface is fixed and is provided with drive rack (719), fixed drive gear (720) that is provided with on fourth fixed axle (718), drive gear (720) with drive rack (719) meshing, fixed brush (721) of clearing away that is provided with on fourth fixed axle (718), clear away brush (721) and be located screening filter screen (701) below and can with screening filter screen (701) butt.

10. A novel hot water supply system as claimed in claim 9, characterized in that the lower end of the scraper link (716) is hinged to the scavenger blade (717), a thrust spring (722) is fixedly arranged between the scraper link (716) and the scavenger blade (717), and the thrust spring (722) is obliquely arranged.