阅读说明：本技术 一种高效型锅炉 (High-efficiency boiler ) 是由 胡显昌 于 2021-08-03 设计创作，主要内容包括：本发明涉及一种高效型锅炉,包括炉体,所述炉体内设有辅助机构和收集机构,所述辅助机构包括传动轴、驱动电机、桨叶、固定管、密封盘和两个辅助组件,所述辅助组件包括导管、密封块、支撑杆、连接管、通孔、圆孔和密封单元,所述收集机构包括两个收集组件,所述收集组件与导管一一对应,所述收集组件包括滤网、第一滑块、第一弹簧、第一连杆、刮杆、支撑块、导杆和搅拌单元,所述搅拌单元包括搅棒、轴承、连接轴和传动单元,所述连接轴的轴线与传动轴的轴线垂直且相交,该高效型锅炉通过辅助机构提高了工作效率,不仅如此,还通过收集机构实现了水质杂质的收集。(The invention relates to a high-efficiency boiler, which comprises a boiler body, wherein an auxiliary mechanism and a collecting mechanism are arranged in the boiler body, the auxiliary mechanism comprises a transmission shaft, a driving motor, a blade, a fixed pipe, a sealing disc and two auxiliary components, the auxiliary assembly comprises a guide pipe, a sealing block, a support rod, a connecting pipe, a through hole, a round hole and a sealing unit, the collecting mechanism comprises two collecting components, the collecting components correspond to the guide pipes one by one, each collecting component comprises a filter screen, a first sliding block, a first spring, a first connecting rod, a scraping rod, a supporting block, a guide rod and a stirring unit, the stirring unit comprises a stirring rod, a bearing, a connecting shaft and a transmission unit, the axis of the connecting shaft is vertical to and intersected with the axis of the transmission shaft, this high-efficient type boiler passes through complementary unit and has improved work efficiency, not only so, has still realized the collection of quality of water impurity through collecting the mechanism.)

1. A high-efficiency boiler comprises a boiler body (1), and is characterized in that an auxiliary mechanism and a collecting mechanism are arranged in the boiler body (1);

the auxiliary mechanism comprises a transmission shaft (2), a driving motor (3), a blade (4), a fixed pipe (5), a sealing disc (6) and two auxiliary components, the bottom of the furnace body (1) is provided with a mounting hole, the transmission shaft (2) vertically penetrates through the mounting hole, the transmission shaft (2) is connected with the inner wall of the mounting hole in a sliding and sealing way, the driving motor (3) is connected with the bottom end of the transmission shaft (2) in a transmission way, the driving motor (3) is connected with the bottom of the shell, the paddle (4) is arranged at the top end of the transmission shaft (2), the fixed pipe (5) and the sealing disc (6) are both arranged coaxially with the transmission shaft (2), the sealing disc (6) is arranged at the top end of the fixed pipe (5) in a sealing way, the sealing disc (6) is connected with the inner wall of the furnace body (1), the blades (4) are positioned in the fixed pipe (5), and all the auxiliary components are circumferentially and uniformly distributed by taking the axis of the transmission shaft (2) as a center;

the auxiliary assembly comprises a guide pipe (7), a sealing block (8), a support rod (9), a connecting pipe (10), a through hole, a round hole and a sealing unit, wherein the guide pipe (7) is vertically arranged, the fixed pipe (5) is positioned between the two guide pipes (7), the sealing block (8) is arranged at the top end of the guide pipe (7) in a sealing manner, the axis of the connecting pipe (10) is perpendicular to the axis of the transmission shaft (2) and intersected with the axis of the transmission shaft, the connecting pipe (10) is positioned between the guide pipe (7) and the fixed pipe (5), one end of the connecting pipe (10) is arranged in the guide pipe (7), the other end of the connecting pipe (10) is abutted against the outer wall of the fixed pipe (5), the connecting pipe (10) is communicated with the guide pipe (7), the connecting pipe (10) is connected with the outer wall of the fixed pipe (5) in a sliding manner and in a sealing manner, and the connecting pipe (10) is arranged above the paddle (4), the through hole is formed in the fixed pipe (5), the through hole and the connecting pipe (10) are coaxially arranged, the aperture of the through hole is smaller than the inner diameter of the connecting pipe (10), the round hole is formed in the top of the sealing disc (6), the round hole is communicated with the top end of the fixed pipe (5), the supporting rod (9) is parallel to the connecting pipe (10), the supporting rod (9) is located between the guide pipe (7) and the transmission shaft (2), two ends of the supporting rod (9) are respectively arranged on the transmission shaft (2) and the guide pipe (7), and the sealing unit is arranged in the fixed pipe (5);

the collecting mechanism comprises two collecting assemblies, and the collecting assemblies correspond to the guide pipes (7) one by one;

the collecting component comprises a filter screen (11), a first sliding block (12), a first spring (13), a first connecting rod (14), a scraping rod (15), a supporting block (16), a guide rod (17) and a stirring unit, the filter screen (11) is installed in the guide pipe (7), the filter screen (11) is located below the connecting pipe (10), the axis of the scraping rod (15) is perpendicular to the axis of the transmission shaft (2) and intersected with the axis of the transmission shaft, the scraping rod (15) is located below the guide pipe (7), a gap is formed between the scraping rod (15) and the bottom in the furnace body (1), the first sliding block (12) is sleeved on the supporting rod (9), one side of the first sliding block (12) is abutted to the transmission shaft (2), the other side of the first sliding block (12) is connected with the guide pipe (7) through the spring, the first connecting rod (14) is obliquely arranged between the first sliding block (12) and the scraping rod (15), the first sliding block (12) is hinged to the top of the scraping rod (15) through a first connecting rod (14), the distance between one end, close to the first sliding block (12), of the first connecting rod (14) and the transmission shaft (2) is smaller than the distance between the other end of the first connecting rod (14) and the transmission shaft (2), the guide rod (17) is vertically arranged at the top of the scraping rod (15), the supporting block (16) is arranged on one side, far away from the transmission shaft (2), of the guide pipe (7), a guide hole is formed in the supporting block (16), the guide rod (17) penetrates through the guide hole, the guide rod (17) is in sliding connection with the inner wall of the guide hole, the stirring unit is arranged on one side, far away from the transmission shaft (2), of the guide pipe (7), and the stirring unit is located above the guide rod (17);

the stirring unit comprises a stirring rod (18), a bearing (19), a connecting shaft (20) and a transmission unit, wherein the axis of the connecting shaft (20) is perpendicular to the axis of the transmission shaft (2) and intersected with the axis of the transmission shaft, the middle end of the stirring rod (18) is arranged at one end, far away from the transmission shaft (2), of the connecting shaft (20), the inner ring of the bearing (19) is installed on the connecting shaft (20), the outer ring of the bearing (19) is connected with the guide pipe (7), and the connecting shaft (20) is connected with the guide rod (17) through the transmission unit.

2. The high efficiency type boiler according to claim 1, wherein the transmission unit comprises a torsion spring (21) and a connection wire (22), the stirring rod (18) is connected with the outer ring of the bearing (19) through the torsion spring (21), one end of the connection wire (22) is disposed at the top end of the guide bar (17), and the other end of the connection wire (22) is wound on the connection shaft (20).

3. The high efficiency type boiler as claimed in claim 1, wherein the sealing unit comprises a first magnet block (23), a second magnet block (24), a connecting unit and two returning units, the second magnet block (24) has a cylindrical shape, the second magnet block (24) is coaxially disposed with the through-hole, the second magnet block (24) has a diameter equal to the diameter of the through-hole, a gap is formed between the second magnet block (24) and the inner wall of the fixed tube (5), the first magnet block (23) is positioned in the connecting tube (10), the first magnet block (23) is disposed on the inner wall of the connecting tube (10), the first magnet block (23) is disposed opposite to the second magnet block (24), a side of the first magnet block (23) close to the axis of the driving shaft (2) has the same magnetic pole as a side of the second magnet block (24) far from the axis of the driving shaft (2), each reset unit uses the axis of through-hole as the even setting of center circumference on second magnet piece (24), second magnet piece (24) are connected with the inner wall of fixed pipe (5) through reset unit, round hole and linkage unit all are located one side that is close to transmission shaft (2) of second magnet piece (24).

4. The high efficiency boiler according to claim 3, wherein the connection unit comprises a sealing plate (25), a lifting rod (26), a fixing block (27) and a second connecting rod (28), the lifting rod (26) is vertically arranged, the sealing plate (25) is horizontally arranged at the top end of the lifting rod (26), the sealing plate (25) is attached to the bottom of the sealing plate (6), the sealing plate (25) is hermetically connected with the circular hole, the fixing block (27) is arranged on the inner wall of the fixing pipe (5), an assembly hole is arranged on the fixing block (27), the lifting rod (26) passes through the assembly hole, the lifting rod (26) is slidably connected with the inner wall of the assembly hole, the second connecting rod (28) is obliquely arranged between the lifting rod (26) and the second magnet block (24), the bottom end of the lifting rod (26) is hinged to the second magnet block (24) through the second connecting rod (28), the distance between one end of the second connecting rod (28) close to the lifting rod (26) and the sealing disc (6) is smaller than the distance between the other end of the second connecting rod (28) and the sealing disc (6).

5. The high efficiency boiler in accordance with claim 4, wherein the material of the sealing plate (25) is rubber.

6. The high efficiency boiler according to claim 3, wherein the reset unit comprises a fixed rod (29), a second slider (30) and a second spring (31), the fixed rod (29) is parallel to the connecting pipe (10), the fixed rod (29) is disposed on the inner wall of the fixed pipe (5), the second slider (30) is sleeved on the fixed rod (29), the second slider (30) is disposed on one side of the second magnet block (24) close to the axis of the transmission shaft (2), the second spring (31) is disposed on one side of the second slider (30) far from the axis of the transmission shaft (2), the second slider (30) is connected with the inner wall of the fixed pipe (5) through the second spring (31), and the second spring (31) is in a stretching state.

Technical Field

The invention relates to the field of boilers, in particular to an efficient boiler.

Background

The boiler is an energy conversion device, the energy input to the boiler comprises chemical energy and electric energy in fuel, and the boiler outputs steam, high-temperature water or an organic heat carrier with certain heat energy.

The existing boiler is used for heating water, and because water is a hot poor conductor, the heating time is longer, the working efficiency is reduced, and moreover, impurities in water are easy to block pipelines in the boiler, and the impurities are not easy to remove and the practicability is reduced.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, a high-efficiency boiler is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a high-efficiency boiler comprises a boiler body, wherein an auxiliary mechanism and a collecting mechanism are arranged in the boiler body;

the auxiliary mechanism comprises a transmission shaft, a driving motor, blades, a fixed pipe, a sealing disc and two auxiliary assemblies, wherein the bottom of the furnace body is provided with a mounting hole, the transmission shaft vertically penetrates through the mounting hole, the transmission shaft is in sliding and sealing connection with the inner wall of the mounting hole, the driving motor is in transmission connection with the bottom end of the transmission shaft, the driving motor is connected with the bottom of the shell, the blades are installed at the top end of the transmission shaft, the fixed pipe and the sealing disc are coaxially arranged with the transmission shaft, the sealing disc is arranged at the top end of the fixed pipe in a sealing manner, the sealing disc is connected with the inner wall of the furnace body, the blades are positioned in the fixed pipe, and the auxiliary assemblies are uniformly distributed by taking the axis of the transmission shaft as the central circumferential direction;

the auxiliary assembly comprises a guide pipe, a sealing block, a support rod, a connecting pipe, a through hole, a round hole and a sealing unit, wherein the guide pipe is vertically arranged, the fixed pipe is positioned between the two guide pipes, the sealing block is arranged at the top end of the guide pipe in a sealing way, the axis of the connecting pipe is perpendicular to and intersected with the axis of the transmission shaft, the connecting pipe is positioned between the guide pipe and the fixed pipe, one end of the connecting pipe is arranged in the guide pipe, the other end of the connecting pipe is abutted against the outer wall of the fixed pipe, the connecting pipe is communicated with the guide pipe, the connecting pipe is in sliding and sealing connection with the outer wall of the fixed pipe, the connecting pipe is arranged above the paddle, the through hole is arranged on the fixed pipe, the through hole and the connecting pipe are coaxially arranged, the aperture of the through hole is smaller than the inner diameter of the connecting pipe, the round hole is arranged at the top of the sealing disc, and the round hole is communicated with the top end of the fixed pipe, the supporting rod is parallel to the connecting pipe, the supporting rod is positioned between the guide pipe and the transmission shaft, two ends of the supporting rod are respectively arranged on the transmission shaft and the guide pipe, and the sealing unit is arranged in the fixed pipe;

the collecting mechanism comprises two collecting assemblies, and the collecting assemblies correspond to the guide pipes one by one;

the collecting component comprises a filter screen, a first sliding block, a first spring, a first connecting rod, a scraping rod, a supporting block, a guide rod and a stirring unit, the filter screen is installed in the guide pipe, the filter screen is located below the connecting pipe, the axis of the scraping rod is perpendicular to and intersected with the axis of the transmission shaft, the scraping rod is located below the guide pipe, a gap is formed between the scraping rod and the bottom in the furnace body, the first sliding block is sleeved on the supporting rod, one side of the first sliding block abuts against the transmission shaft, the other side of the first sliding block is connected with the guide pipe through the spring, the first connecting rod is obliquely arranged between the first sliding block and the scraping rod, the first sliding block is hinged to the top of the scraping rod through the first connecting rod, the distance between one end of the first connecting rod, which is close to the first sliding block, and the transmission shaft is smaller than the distance between the other end of the first connecting rod and the transmission shaft, the guide rod is vertically arranged at the top of the scraping rod, the stirring device comprises a guide pipe, a supporting block, a guide rod, a stirring unit and a stirring unit, wherein the supporting block is arranged on one side of the guide pipe, which is far away from a transmission shaft, the guide rod penetrates through the guide hole, the guide rod is in sliding connection with the inner wall of the guide hole, the stirring unit is arranged on one side of the guide pipe, which is far away from the transmission shaft, and the stirring unit is positioned above the guide rod;

the stirring unit comprises a stirring rod, a bearing, a connecting shaft and a transmission unit, the axis of the connecting shaft is perpendicular to and intersected with the axis of the transmission shaft, the middle end of the stirring rod is arranged at one end, far away from the transmission shaft, of the connecting shaft, the inner ring of the bearing is arranged on the connecting shaft, the outer ring of the bearing is connected with the guide pipe, and the connecting shaft is connected with the guide rod through the transmission unit.

Preferably, in order to realize the rotation of the connecting shaft, the transmission unit comprises a torsion spring and a connecting wire, the stirring rod is connected with the outer ring of the bearing through the torsion spring, one end of the connecting wire is arranged at the top end of the guide rod, and the other end of the connecting wire is wound on the connecting shaft.

Preferably, in order to realize the sealing of the through hole, the sealing unit comprises a first magnet block, a second magnet block, a connecting unit and two resetting units, the second magnet block is cylindrical, the second magnet block and the through hole are coaxially arranged, the diameter of the second magnet block is equal to the aperture of the through hole, a gap is arranged between the second magnet block and the inner wall of the fixed pipe, the first magnet block is positioned in the connecting pipe, the first magnet block is arranged on the inner wall of the connecting pipe, the first magnet block and the second magnet block are oppositely arranged, one side of the first magnet block close to the axis of the transmission shaft is the same as one side of the second magnet block far away from the axis of the transmission shaft, each resetting unit is circumferentially and uniformly arranged on the second magnet block by taking the axis of the through hole as a center, and the second magnet block is connected with the inner wall of the fixed pipe through the resetting units, the round hole and the connecting unit are both positioned on one side, close to the transmission shaft, of the second magnet block.

As preferred, in order to realize the sealed of round hole, the coupling unit includes closing plate, lifter, fixed block and second connecting rod, the vertical setting of lifter, the closing plate level sets up the top at the lifter, the closing plate is laminated with the bottom of sealed dish, closing plate and round hole sealing connection, the fixed block sets up on the inner wall of fixed pipe, be equipped with the pilot hole on the fixed block, the lifter passes the pilot hole, the inner wall sliding connection of lifter and pilot hole, the slope of second connecting rod sets up between lifter and second magnet piece, the bottom of lifter is articulated through second connecting rod and second magnet piece, the one end that is close to the lifter of second connecting rod and the distance between the sealed dish are less than the distance between the other end of second connecting rod and the sealed dish.

Preferably, the sealing plate is made of rubber for achieving buffering and vibration reduction.

Preferably, in order to realize the second magnet piece towards the removal of keeping away from transmission shaft axis direction, the reset unit includes dead lever, second slider and second spring, the dead lever is parallel with the connecting pipe, the dead lever sets up on the inner wall of fixed pipe, the second slider cover is established on the dead lever, the second slider sets up the one side that is close to the transmission shaft axis at the second magnet piece, the second spring is located the one side of keeping away from the axis of transmission shaft of second slider, the second slider passes through the inner wall connection of second spring and fixed pipe, the second spring is in tensile state.

The efficient boiler has the beneficial effects that the working efficiency is improved through the auxiliary mechanism, compared with the existing auxiliary mechanism, the auxiliary mechanism can also drive the scraping rod to rotate through the rotation of the supporting rod, an integrated linkage structure is realized with the collecting mechanism, the practicability is higher, not only is the practicability higher, but also the collection of water quality impurities is realized through the collecting mechanism, compared with the existing collecting mechanism, the working efficiency can be further improved through the rotation of the stirring rod by the collecting mechanism, and the practicability is higher.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view showing the construction of a high efficiency type boiler according to the present invention;

FIG. 2 is a schematic structural view of an auxiliary mechanism of the high efficiency type boiler of the present invention;

FIG. 3 is a schematic structural view of a stirring unit of the high efficiency type boiler of the present invention;

FIG. 4 is an enlarged view of portion A of FIG. 2;

FIG. 5 is an enlarged view of portion B of FIG. 2;

in the figure: 1. the novel high-speed electric cooker comprises a cooker body, 2. a transmission shaft, 3. a driving motor, 4. a blade, 5. a fixed pipe, 6. a sealing disc, 7. a guide pipe, 8. a sealing block, 9. a support rod, 10. a connecting pipe, 11. a filter screen, 12. a first sliding block, 13. a first spring, 14. a first connecting rod, 15. a scraping rod, 16. a support block, 17. a guide rod, 18. a stirring rod, 19. a bearing, 20. a connecting shaft, 21. a torsion spring, 22. a connecting wire, 23. a first magnet block, 24. a second magnet block, 25. a sealing plate, 26. a lifting rod, 27. a fixed block, 28. a second connecting rod, 29. a fixed rod, 30. a second sliding block, 31. a second spring.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1-2, a high-efficiency boiler comprises a boiler body 1, wherein an auxiliary mechanism and a collecting mechanism are arranged in the boiler body 1;

the auxiliary mechanism comprises a transmission shaft 2, a driving motor 3, blades 4, a fixed pipe 5, a sealing disc 6 and two auxiliary components, wherein a mounting hole is formed in the bottom of the furnace body 1, the transmission shaft 2 vertically penetrates through the mounting hole, the transmission shaft 2 is in sliding and sealing connection with the inner wall of the mounting hole, the driving motor 3 is in transmission connection with the bottom end of the transmission shaft 2, the driving motor 3 is connected with the bottom of the shell, the blades 4 are installed at the top end of the transmission shaft 2, the fixed pipe 5 and the sealing disc 6 are coaxially arranged with the transmission shaft 2, the sealing disc 6 is arranged at the top end of the fixed pipe 5 in a sealing mode, the sealing disc 6 is connected with the inner wall of the furnace body 1, the blades 4 are located in the fixed pipe 5, and the auxiliary components are circumferentially and uniformly distributed by taking the axis of the transmission shaft 2 as the center;

the auxiliary assembly comprises guide pipes 7, a sealing block 8, a support rod 9, a connecting pipe 10, a through hole, a round hole and a sealing unit, wherein the guide pipes 7 are vertically arranged, the fixed pipe 5 is positioned between the two guide pipes 7, the sealing block 8 is arranged at the top end of the guide pipes 7 in a sealing manner, the axis of the connecting pipe 10 is perpendicular to and intersected with the axis of the transmission shaft 2, the connecting pipe 10 is positioned between the guide pipes 7 and the fixed pipe 5, one end of the connecting pipe 10 is arranged in the guide pipes 7, the other end of the connecting pipe 10 is abutted against the outer wall of the fixed pipe 5, the connecting pipe 10 is communicated with the guide pipes 7, the connecting pipe 10 is connected with the outer wall of the fixed pipe 5 in a sliding and sealing manner, the connecting pipe 10 is arranged above the paddle 4, the through hole is arranged on the fixed pipe 5, the through hole is coaxially arranged with the connecting pipe 10, and the aperture of the through hole is smaller than the inner diameter of the connecting pipe 10, the round hole is formed in the top of the sealing disc 6 and is communicated with the top end of the fixed tube 5, the supporting rod 9 is parallel to the connecting tube 10, the supporting rod 9 is located between the guide tube 7 and the transmission shaft 2, two ends of the supporting rod 9 are respectively arranged on the transmission shaft 2 and the guide tube 7, and the sealing unit is arranged in the fixed tube 5;

during the use of the boiler, the driving motor 3 is started, the transmission shaft 2 drives the paddle 4 to rotate, so that water can be conveyed into the fixed pipe 5 from the bottom end of the fixed pipe 5, the transmission shaft 2 also drives the guide pipe 7 and the connecting pipe 10 to rotate through the supporting rod 9, the connecting pipe 10 is intermittently communicated with the fixed pipe 5 through the through hole by rotating the connecting pipe 10, when the connecting pipe 10 is communicated with the through hole, the round hole can be in a sealing state through the sealing unit, clean water in the fixed pipe 5 can be conveyed into the guide pipe 7 from the connecting pipe 10, clean water in the guide pipe 7 is discharged from the bottom end of the guide pipe 7, when the connecting pipe 10 is separated from the through hole, the through hole can be in a sealing state through the sealing unit, the sealing unit stops sealing the round hole, so that the clean water in the fixed pipe 5 can be discharged from the round hole, the circulation is carried out, so that the guide pipe 7 and the round hole realize intermittent drainage, here, through the rotation of bracing piece 9 and pipe 7, then can realize the stirring of clear water, make heat evenly distributed in aqueous to can improve the heating efficiency of water, and, through the intermittent type nature drainage of round hole and pipe 7, then can increase the stirring mode of water, thereby promote clear water stirring effect, can be in order to further improve work efficiency.

As shown in fig. 3, the collecting mechanism includes two collecting assemblies, which correspond one-to-one to the conduits 7;

the collecting component comprises a filter screen 11, a first sliding block 12, a first spring 13, a first connecting rod 14, a scraping rod 15, a supporting block 16, a guide rod 17 and a stirring unit, the filter screen 11 is installed in the guide pipe 7, the filter screen 11 is located below the connecting pipe 10, the axis of the scraping rod 15 is perpendicular to and intersected with the axis of the transmission shaft 2, the scraping rod 15 is located below the guide pipe 7, a gap is formed between the bottom of the scraping rod 15 and the bottom of the furnace body 1, the first sliding block 12 is sleeved on the supporting rod 9, one side of the first sliding block 12 is abutted against the transmission shaft 2, the other side of the first sliding block 12 is connected with the guide pipe 7 through the spring, the first connecting rod 14 is obliquely arranged between the first sliding block 12 and the scraping rod 15, the first sliding block 12 is hinged with the top of the scraping rod 15 through the first connecting rod 14, the distance between one end of the first connecting rod 14, which is close to the first sliding block 12, and the transmission shaft 2 is smaller than the distance between the other end of the first connecting rod 14 and the transmission shaft 2, the guide rod 17 is vertically arranged at the top of the scraping rod 15, the supporting block 16 is arranged on one side, far away from the transmission shaft 2, of the guide pipe 7, a guide hole is formed in the supporting block 16, the guide rod 17 penetrates through the guide hole, the guide rod 17 is in sliding connection with the inner wall of the guide hole, the stirring unit is arranged on one side, far away from the transmission shaft 2, of the guide pipe 7, and the stirring unit is located above the guide rod 17;

the stirring unit comprises a stirring rod 18, a bearing 19, a connecting shaft 20 and a transmission unit, wherein the axis of the connecting shaft 20 is perpendicular to and intersected with the axis of the transmission shaft 2, the middle end of the stirring rod 18 is arranged at one end, far away from the transmission shaft 2, of the connecting shaft 20, the inner ring of the bearing 19 is arranged on the connecting shaft 20, the outer ring of the bearing 19 is connected with the guide pipe 7, and the connecting shaft 20 is connected with the guide rod 17 through the transmission unit.

The rotation of the supporting rod 9 drives the scraping rod 15 to rotate through the first sliding block 12 and the first connecting rod 14, the first sliding block 12 moves towards the direction far away from the transmission shaft 2 under the action of centrifugal force, and the first spring 13 deforms, the movement of the first sliding block 12 drives the scraping rod 15 to move downwards through the first connecting rod 14 and abut against the bottom in the furnace body 1, namely, the bottom of the scraping rod 15 in the furnace body 1 can slide, the scraping rod 15 scrapes impurities at the bottom in the furnace body 1, at the moment, the impurities can enter the guide pipe 7 along with water flow and are intercepted through the filter screen 11, the collection of the impurities in water can be realized, after the transmission shaft 2 stops rotating, the first sliding block 12 can reversely move to realize resetting through the elastic action of the first spring 13, the resetting of the first sliding block 12 drives the scraping rod 15 to ascend through the first connecting rod 14 to realize resetting, when the scraping rod 15 moves downwards, the guide rod 17 is driven to move on the supporting block 16, the connecting shaft 20 is driven to rotate under the supporting effect of the bearing 19 through the transmission unit when the guide rod 17 descends, when the scraping rod 15 ascends, the connecting shaft 20 reversely rotates through the transmission unit, in addition, the stirring rod 18 is driven to rotate through the rotation of the connecting shaft 20, the stirring of water can be realized, the stirring effect can be improved again, and the working efficiency is improved again.

Preferably, in order to realize the rotation of the connecting shaft 20, the transmission unit comprises a torsion spring 21 and a connecting wire 22, the stirring rod 18 is connected with the outer ring of the bearing 19 through the torsion spring 21, one end of the connecting wire 22 is arranged at the top end of the guide rod 17, and the other end of the connecting wire 22 is wound on the connecting shaft 20.

When the guide rod 17 descends, the connecting wire 22 pulls the connecting shaft 20 to rotate, the torsion spring 21 is deformed, when the connecting wire 22 ascends, the connecting wire 22 is loosened, and the connecting shaft 20 can reversely rotate and wind the connecting wire 22 through the elastic action of the torsion spring 21.

As shown in fig. 4, preferably, in order to realize the sealing of the through hole, the sealing unit includes a first magnet block 23, a second magnet block 24, a connecting unit and two reset units, the second magnet block 24 is cylindrical, the second magnet block 24 is coaxially disposed with the through hole, the diameter of the second magnet block 24 is equal to the aperture of the through hole, a gap is provided between the second magnet block 24 and the inner wall of the fixed tube 5, the first magnet block 23 is located in the connecting tube 10, the first magnet block 23 is disposed on the inner wall of the connecting tube 10, the first magnet block 23 and the second magnet block 24 are disposed oppositely, the side of the first magnet block 23 close to the axis of the transmission shaft 2 is the same as the side of the second magnet block 24 far from the axis of the transmission shaft 2, each reset unit is circumferentially and uniformly disposed on the second magnet block 24 with the axis of the through hole as the center, the second magnet block 24 is connected with the inner wall of the fixed tube 5 through a reset unit, and the round hole and the connecting unit are both positioned on one side of the second magnet block 24 close to the transmission shaft 2.

When the connecting pipe 10 rotates, the distance between the first magnet block 23 and the second magnet block 24 is increased, i.e. the repulsive force between the first magnet block 23 and the second magnet block 24 is decreased, at this time, the second magnet block 24 is moved away from the axis of the transmission shaft 2 by the restoring unit, and the second magnet block 24 is inserted into the through hole, and the moving of the second magnet block 24 stops the sealing of the connecting unit to the circular hole, when the rotating of the connecting pipe 10 drives the distance between the first magnet block 23 and the second magnet block 24 to decrease and the connecting pipe 10 is communicated with the through hole, the repulsive force between the first magnet block 23 and the second magnet block 24 is greater than the repulsive force of the restoring unit to the second magnet block 24, i.e. the second magnet block 24 is restored, so that the water in the fixed pipe 5 can be transported from the through hole to the fixed pipe 10, and the restoring of the second magnet block 24 realizes the sealing of the circular hole by the connecting unit, and the process is circulated.

As shown in fig. 5, the connection unit includes a sealing plate 25, a lifting rod 26, a fixing block 27 and a second connecting rod 28, the lifting rod 26 is vertically arranged, the sealing plate 25 is horizontally arranged at the top end of the lifting rod 26, the sealing plate 25 is attached to the bottom of the sealing plate 6, the sealing plate 25 is connected with the round hole in a sealing way, the fixing block 27 is arranged on the inner wall of the fixing pipe 5, the fixing block 27 is provided with an assembling hole, the lifting rod 26 passes through the assembly hole, the lifting rod 26 is connected with the inner wall of the assembly hole in a sliding way, the second connecting rod 28 is obliquely arranged between the lifting rod 26 and the second magnet block 24, the bottom end of the lifting rod 26 is hinged with the second magnet block 24 through the second connecting rod 28, the distance between one end of the second link 28 close to the lifting rod 26 and the sealing disc 6 is smaller than the distance between the other end of the second link 28 and the sealing disc 6.

When the second magnet block 24 moves towards the direction away from the transmission shaft 2, the second connecting rod 28 drives the lifting rod 26 to descend on the fixing block 27, the descending of the lifting rod 26 drives the sealing plate 25 to descend synchronously, so that the sealing plate 25 is separated from the sealing plate 6, and when the second magnet block 24 moves reversely, the sealing plate 25 can ascend to realize resetting, and the sealing plate 25 blocks the round hole.

Preferably, the material of the sealing plate 25 is rubber for achieving cushioning and vibration reduction.

The rubber is soft, so that the impact force generated when the sealing plate 25 abuts against the sealing plate 6 can be reduced, and buffering and vibration reduction are realized.

Preferably, in order to realize the movement of the second magnet block 24 in the direction away from the axis of the transmission shaft 2, the reset unit includes a fixed rod 29, a second slider 30 and a second spring 31, the fixed rod 29 is parallel to the connecting pipe 10, the fixed rod 29 is disposed on the inner wall of the fixed pipe 5, the second slider 30 is sleeved on the fixed rod 29, the second slider 30 is disposed on one side of the second magnet block 24 close to the axis of the transmission shaft 2, the second spring 31 is disposed on one side of the second slider 30 away from the axis of the transmission shaft 2, the second slider 30 is connected with the inner wall of the fixed pipe 5 through the second spring 31, and the second spring 31 is in a stretching state.

When the repulsive force between the first magnet 23 and the second magnet 24 is smaller than the elastic action of the second spring 31, the second slider 30 drives the second magnet 24 to move away from the axis of the transmission shaft 2 by the elastic action of the second spring 31, and when the repulsive force between the first magnet 23 and the second magnet 24 is larger than the elastic action of the second spring 31, the second magnet 24 can move in the opposite direction, and the second slider 30 can be driven to move in the opposite direction, and the second spring 31 can be deformed.

During the use of the boiler, the driving motor 3 is started, the transmission shaft 2 drives the paddle 4 to rotate, so that water can be conveyed into the fixed pipe 5 from the bottom end of the fixed pipe 5, the transmission shaft 2 also drives the guide pipe 7 and the connecting pipe 10 to rotate through the supporting rod 9, the connecting pipe 10 is intermittently communicated with the fixed pipe 5 through the through hole by rotating the connecting pipe 10, when the connecting pipe 10 is communicated with the through hole, the round hole can be in a sealing state through the sealing unit, clean water in the fixed pipe 5 can be conveyed into the guide pipe 7 from the connecting pipe 10, clean water in the guide pipe 7 is discharged from the bottom end of the guide pipe 7, when the connecting pipe 10 is separated from the through hole, the through hole can be in a sealing state through the sealing unit, the sealing unit stops sealing the round hole, so that the clean water in the fixed pipe 5 can be discharged from the round hole, the circulation is carried out, so that the guide pipe 7 and the round hole realize intermittent drainage, here, through the rotation of the supporting rod 9 and the guide pipe 7, the stirring of the clean water can be realized, the heat is uniformly distributed in the water, thereby the heating efficiency of the water can be improved, and through the intermittent drainage of the round hole and the guide pipe 7, the stirring mode of the water can be increased, thereby the stirring effect of the clean water is improved, i.e. the working efficiency can be further improved, furthermore, the rotation of the supporting rod 9 drives the scraping rod 15 to rotate through the first sliding block 12 and the first connecting rod 14, and the first sliding block 12 moves towards the direction far away from the transmission shaft 2 under the action of the centrifugal force, and the first spring 13 is deformed, the movement of the first sliding block 12 drives the scraping rod 15 to move downwards through the first connecting rod 14 and abut against the bottom in the furnace body 1, i.e. the bottom of the scraping rod 15 in the furnace body 1 can slide, so that the scraping rod 15 scrapes the impurities at the bottom in the furnace body 1, at this time, the impurities can enter the guide pipe 7 along with the water flow, the interception is realized through the filter screen 11, the collection of impurities in water can be realized, after the transmission shaft 2 stops rotating, the first sliding block 12 can move reversely to realize reset through the elastic action of the first spring 13, the reset of the first sliding block 12 drives the scraping rod 15 to ascend through the first connecting rod 14 to realize reset, when the scraping rod 15 moves downwards, the guide rod 17 is driven to move on the supporting block 16, the descending of the guide rod 17 enables the connecting shaft 20 to rotate under the supporting action of the bearing 19 through the transmission unit, when the scraping rod 15 ascends, the connecting shaft 20 rotates reversely through the transmission unit, in addition, the rotation of the connecting shaft 20 drives the stirring rod 18 to rotate, the stirring of water can be realized, the stirring effect can be improved again, and the working efficiency is improved again.

Compared with the prior art, this high-efficient type boiler has improved work efficiency through complementary unit, compares with current complementary unit, and this complementary unit can also drive through the rotation of bracing piece 9 and scrape pole 15 and rotate, has realized integral type linkage structure with collection mechanism, and the practicality is stronger, not only, has still realized the collection of quality of water impurity through collecting the mechanism, compares with current collection mechanism, and this collection mechanism can also further improve work efficiency through the rotation of stirring rod 18, and the practicality is stronger.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.