CN114383177A

CN114383177A - Uniform high heat dissipation type water heating system

Info

Publication number: CN114383177A
Application number: CN202210059496.4A
Authority: CN
Inventors: 雷铭
Original assignee: Tianjin Jingzhan Technology Development Co ltd
Current assignee: Tianjin Jingzhan Technology Development Co ltd
Priority date: 2022-01-19
Filing date: 2022-01-19
Publication date: 2022-04-22

Abstract

The invention discloses a uniform high-heat-dissipation water heating system, which belongs to the technical field of water heating and comprises a circulating water inlet pipe, wherein one end of the circulating water inlet pipe is connected with a circulating pump machine, a first connecting pipe is installed at the input end of the circulating pump machine, and one end of the first connecting pipe is connected with a parallel mechanism; the parallel mechanism comprises a water distribution box arranged at one end of a first connecting pipe, and a first water distribution pipe is arranged on one side of the water distribution box. The invention adopts the parallel mechanism, heat can be dissipated through parallel connection, the heat contained in each pipeline is the same, the heat is uniformly diffused along the plurality of capillary heat conduction pipes, and the heat dissipation area is greatly increased, so that the heat dissipation performance of hot water is better and more uniform during heat dissipation, the rapid and uniform heat dissipation effect can be achieved during each heating, the hot water is dissipated into a room side by side, the heat is fully utilized, and the better heat dissipation effect can be achieved through internal circulation, so that the energy loss is reduced.

Description

Uniform high heat dissipation type water heating system

Technical Field

The invention relates to the technical field of water heating, in particular to uniform high-heat-dissipation water heating.

Background

The water heating is one of floor radiation heating, is also the most popular heating mode, and is quite advantageous compared with electric heating, the water heating is that hot water which circularly flows is arranged in a pipeline through a ground coil pipe, the whole ground is uniformly heated through a heating medium in a floor radiation layer, and the heat storage and the heat radiation rule of the ground are utilized to conduct from bottom to top, so that the purpose of heating is achieved. Due to the gradually decreasing temperature gradient from the sole to the head formed in the chamber.

In the actual use process, the pipeline laid by the floor heating is a serpentine pipeline, and is laid under the floor to dissipate heat through hot water to form the heat exchange effect, so that a room is warmed, and the following defects exist;

the serpentine pipeline circularly dissipates heat for series connection when dissipating heat, and the heat dissipation area of the single heat dissipation pipeline is small, so that heat dissipation is from strong to weak, the heat exchange efficiency is low, the heat dissipation area is small, the heat dissipation performance is poor, the heat dissipation uniformity of water heating is greatly reduced, and the heat dissipation effect is poor

Disclosure of Invention

Therefore, the invention provides a uniform high-heat-dissipation water heater, which adopts a parallel mechanism, can dissipate heat in parallel, has the same heat contained in each pipeline and uniformly diffuses along a plurality of capillary heat conduction pipes, and solves the technical problems in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: a uniform high-heat-dissipation water heater comprises a circulating inlet pipe, wherein one end of the circulating inlet pipe is connected with a circulating pump, a first connecting pipe is mounted at the input end of the circulating pump, and one end of the first connecting pipe is connected with a parallel mechanism;

parallel mechanism is including installing the water knockout drum in first connecting pipe one end, water knockout drum one side is provided with first water diversion pipe, first water diversion pipe one side is provided with the second water diversion pipe, the third water diversion pipe is installed to second water diversion pipe one side, coupling mechanism is all installed to third water diversion pipe, first water diversion pipe, second water diversion pipe one end, a plurality of first module heat dissipation case are installed to coupling mechanism one side, first module heat dissipation case one side is provided with a plurality of second module heat dissipation cases, second module heat dissipation case one side is provided with a plurality of third module heat dissipation cases, and is a plurality of second module heat dissipation case one end intercommunication has installs first collector pipe, first collector pipe one side is installed second collector pipe and opposite side and is installed the third collector pipe, third collector pipe one end intercommunication has the header tank.

Further, adjacent two first module heat dissipation case and adjacent two second module heat dissipation case and adjacent two third module heat dissipation case all connect through coupling mechanism between two liang, first module heat dissipation case, second module heat dissipation case, the inside a plurality of capillary heat pipes of all installing of third module heat dissipation case, capillary heat pipe one end is connected with first shunt pipe and the second shunt pipe is installed to the other end, first connecting pipe both ends are linked together with shunt pipe and circulating pump machine input respectively between two liang, are linked together between header tank and the circulation honeycomb duct.

Further, the connecting mechanism comprises a butt joint pipe arranged at one end of the first water distribution pipe, an embedding swivel is installed outside the butt joint pipe in an embedding mode, one side of the embedding swivel is connected with a sealing extrusion plate, a rotating cap is sleeved outside the sealing extrusion plate, one side of the rotating cap is connected with a threaded frame, an embedding sealing ring is installed inside the threaded frame, one side of the threaded frame is provided with a positioning butt joint cylinder, an embedded groove clamped with the embedding sealing ring is formed between the positioning butt joint cylinder and the threaded frame, a rotating spiral ring is arranged outside the positioning butt joint cylinder, a gap formed between the inside of the rotating spiral ring and the outside of the positioning butt joint cylinder is a threaded butt joint groove, one side of the positioning butt joint cylinder is connected with a second connecting pipe, the outside of the positioning butt joint cylinder is connected with the internal thread of the threaded frame, and the outside of the threaded frame is in threaded connection with the rotating spiral ring, the butt joint pipe is externally movably connected with the inside of the embedded rotating ring, the pipe diameter of the inner wall at the end, opposite to the second connecting pipe, of the butt joint pipe is smaller than that of the inner wall of the second connecting pipe in terms of the pipe diameter of the inner wall of the butt joint pipe, and the pipe thickness of the butt joint pipe is the same as that of the second connecting pipe.

Further, embedding friction plate is installed to first module heat dissipation case bottom, second shunt tubes one side is provided with the arc and measures the strip, the arc is measured the strip inner wall and has been seted up and has been checked the groove, check the groove top and install the measurement pointer, the inside cover of measurement pointer is equipped with the supporting shaft pole, the supporting shaft pole outside just is located measurement pointer one side and is provided with the supporting shaft collar, measure pointer and supporting shaft pole swing joint, it has the balancing weight to measure the pointer to be close to bottom internally mounted, the balancing weight cross section sets up to circular, first module heat dissipation case one side is provided with the flat board, the flat board bottom is provided with the embedding board.

The invention has the following advantages:

1. the invention adopts a parallel mechanism to enter the butt joint pipe along the first water distribution pipe, pour the butt joint pipe into the second connecting pipe, distribute the water into a plurality of capillary heat conduction pipes along the first water distribution pipe, gather the water into the second water collection pipe along the capillary heat conduction pipes, gather the water into the water collection tank, the other part of hot water enters a plurality of second module heat dissipation tanks in turn through the second water distribution pipe, then input the water into the first water collection tank through the last second module heat dissipation tank, gather the water into the water collection tank, the other part of hot water enters the third water distribution pipe along the water distribution tank, a plurality of third module heat dissipation tanks enter the third water collection pipe, thus the heat can be dissipated by parallel connection, the heat contained in each pipeline is the same, the heat is uniformly diffused along the plurality of capillary heat conduction pipes, and the heat dissipation area is greatly increased, thereby the heat dissipation performance of the hot water is better, the heat dissipation effect is more uniform, the rapid and uniform heat dissipation effect can be achieved during each heating, the heat is dissipated into a room side by side, the heat is fully utilized, and the better heat dissipation effect can be achieved during the internal circulation, so that the energy loss is reduced;

2. the invention adopts the connecting mechanism to enable the threaded frame to enter the position of the threaded butt joint groove, the rotating cap drives the threaded frame to rotate, the outer part of the threaded frame is in threaded connection with the inner part of the rotating spiral ring, the embedded sealing ring enters the embedded groove, the butt joint pipe is inserted into the second connecting pipe to form butt joint installation, the embedded rotating ring is enabled to rotate outside the butt joint pipe by the sealing extrusion plate, the butt joint pipe of the third module radiating box and the second connecting pipe are in embedded butt joint along with continuous threaded connection, the multi-point embedding and the edge covering sealing effect are formed, the sealing connection performance is higher after the installation, the water leakage problem among the pipelines is difficult to occur, meanwhile, the later period can be distributed and maintained according to a plurality of second module radiating boxes, a plurality of third module radiating boxes and a plurality of first module radiating boxes, the maintenance does not need to disassemble the whole pipeline, the multi-point modularized disassembly can be realized, the later-stage maintenance is facilitated, the maintenance cost is reduced, and the replacement is more convenient;

3. according to the invention, when the first module heat dissipation box is installed, the supporting shaft rod plays a supporting role for the measuring pointer, when the first module heat dissipation box is inclined, the measuring pointer rotates on the supporting shaft rod and always keeps vertical under the action of gravity of the balancing weight, the deflection angle can be judged according to the pointer condition of the measuring pointer on the arc-shaped measuring strip, the angle of the first module heat dissipation box is rotated, and the balancing weight points to the checking groove on the arc-shaped measuring strip, so that the parallel operation of the first module heat dissipation box is realized, and in this way, the installation is not needed, the level meter is used for installation, so that the parallel installation of a plurality of modules can be realized, and the installation can be completed according to the parallel series connection, so that the floor is more uniform and flat when laid at the later stage, the bulge or the depression is not easily caused, and the floor laying is more convenient;

to sum up, influence each other through above-mentioned a plurality of effects, can be through parallelly connected heat dissipation, the heat that each pipeline contains is the same, and the heat is along a plurality of capillary heat pipes evenly spread, radiating area has been increased substantially, thereby hot water thermal diffusivity is better when the heat dissipation, installation back sealing connection nature is higher, thereby be difficult for causing the problem of leaking between the pipeline to appear, the later stage can be according to a plurality of second module heat dissipation boxes simultaneously, a plurality of third module heat dissipation boxes, a plurality of first module heat dissipation boxes distribute the maintenance, make things convenient for the later stage to overhaul, reduce the cost of overhaul, it is more convenient to change, establish ties according to the parallelism and accomplish the installation, it is more even when laying the floor in the later stage like this, it is difficult for causing the arch or producing sunkenly, it is more convenient to lay the floor.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a part of the structure of the connection between the water distribution box and the first water distribution pipe;

FIG. 3 is a schematic view of a portion of the second header pipe and the header tank according to the present invention;

FIG. 4 is a schematic diagram of a tiled structure according to the present invention;

FIG. 5 is a schematic view of a structure for separating a thread frame from an insertion groove in the present invention;

FIG. 6 is an enlarged view of the structure at A in FIG. 5;

FIG. 7 is a schematic view of an embedded seal ring structure according to the present invention;

FIG. 8 is a schematic structural view of a section of a first shunt tube according to the present invention;

FIG. 9 is a schematic view of a counterweight according to the present invention;

in the figure: 1. circulating water inlet pipes; 2. a circulation pump machine; 3. a first connecting pipe; 4. a water distribution box; 5. a first water diversion pipe; 6. a second water dividing pipe; 7. a third water diversion pipe; 8. a first module heat dissipation box; 9. a second module heat dissipation box; 10. a third module heat dissipation box; 11. embedding a friction plate; 12. a first header pipe; 13. a second header pipe; 14. a third water collecting pipe; 15. a water collection tank; 16. a circulating flow guide pipe; 17. butt-joint pipes; 18. embedding a rotating ring; 19. sealing the extrusion plate; 20. rotating the cap; 21. a thread frame; 22. embedding a sealing ring; 23. positioning the butting cylinder; 24. a groove is embedded; 25. a rotating toroid; 26. a threaded butt-joint groove; 27. a second connecting pipe; 28. a first shunt pipe; 29. a capillary heat conducting pipe; 30. a second shunt pipe; 31. an arc-shaped measuring strip; 32. checking the groove; 33. measuring a pointer; 34. a balancing weight; 35. a support shaft; 36. a support collar; 37. flatly paving a plate; 38. a plate is embedded.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. 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 the specification, the uniform high heat dissipation type water heating system shown in the attached drawings 1-9 comprises a circulating water inlet pipe 1, wherein one end of the circulating water inlet pipe 1 is connected with a circulating pump machine 2, a first connecting pipe 3 is installed at the input end of the circulating pump machine 2, and one end of the first connecting pipe 3 is connected with a parallel mechanism;

parallel mechanism is including installing water distribution box 4 in 3 one ends of first connecting pipe, water distribution box 4 one side is provided with first water distribution pipe 5, first water distribution pipe 5 one side is provided with second water distribution pipe 6, third water distribution pipe 7 is installed to 6 one sides of second water distribution pipe, third water distribution pipe 7, first water distribution pipe 5, coupling mechanism is all installed to 6 one ends of second water distribution pipe, coupling mechanism installs a plurality of first module heat dissipation case 8 in one side, first module heat dissipation case 8 one side is provided with a plurality of second module heat dissipation case 9, second module heat dissipation case 9 one side is provided with a plurality of third module heat dissipation case 10, a plurality of second module heat dissipation case 9 one end intercommunication have install first collector pipe 12, first collector pipe 12 one side is installed second collector pipe 13 and the opposite side and is installed third collector pipe 14, third collector pipe 14 one end intercommunication has collector tank 15.

In some embodiments, as shown in fig. 1-8, the first module heat dissipation box 8, two adjacent second module heat dissipation boxes 9, and two adjacent third module heat dissipation boxes 10 are connected by a connection mechanism, a plurality of capillary heat pipes 29 are installed inside each of the first module heat dissipation box 8, the second module heat dissipation box 9, and the third module heat dissipation box 10, one end of each capillary heat pipe 29 is connected with a first shunt pipe 28, and the other end of each capillary heat pipe is installed with a second shunt pipe 30, two ends of the first connection pipe 3 are respectively communicated with two adjacent water distribution boxes 4 and input ends of the circulation pump 2, the water collection box 15 is communicated with the circulation flow guide pipe 16, so that the second connection pipe 27 enters the first shunt pipe 28 for shunting, shunts into the plurality of capillary heat pipes 29 along the first shunt pipe 28, and enters into the second water collection pipe 13 along with the capillary heat pipes 29 collected in the second shunt pipe 30, the hot water is collected in the water collecting tank 15, the other part of the hot water enters the second module radiating tank 9 through the second water dividing pipe 6, is input into the first water collecting pipe 12 through the last second module radiating tank 9 and then is collected in the water collecting tank 15, the third water dividing pipe 7 is divided into the third module radiating tanks 10, and the hot water enters the third water collecting pipe 14 through the plurality of third module radiating tanks 10 and enters the water collecting tank 15 to finish the collecting operation.

In some embodiments, as shown in fig. 4-7, the connection mechanism includes a butt joint pipe 17 disposed at one end of the first water dividing pipe 5, an embedded rotary ring 18 is embedded and installed outside the butt joint pipe 17, a sealing extrusion plate 19 is connected to one side of the embedded rotary ring 18, a rotating cap 20 is sleeved outside the sealing extrusion plate 19, a threaded frame 21 is connected to one side of the rotating cap 20, an embedded sealing ring 22 is installed inside the threaded frame 21, a positioning butt joint cylinder 23 is disposed on one side of the threaded frame 21, an embedded groove 24 engaged with the embedded sealing ring 22 is disposed between the positioning butt joint cylinder 23 and the threaded frame 21, a rotating spiral ring 25 is disposed outside the positioning butt joint cylinder 23, a gap formed between the inside of the rotating spiral ring 25 and the outside of the positioning butt joint cylinder 23 is a threaded butt joint groove 26, a second connection pipe 27 is connected to one side of the positioning butt joint cylinder 23, the outside of the positioning butt joint cylinder 23 is connected with an internal thread of the threaded frame 21, and the outside of the threaded frame 21 is connected with an internal thread of the rotating spiral ring 25, the external part of the butt joint pipe 17 is movably connected with the internal part of the embedded rotary ring 18, the pipe diameter ratio of the inner wall of the butt joint pipe 17 and the opposite end of the second connecting pipe 27 is that the pipe diameter of the inner wall of the butt joint pipe 17 is smaller than that of the inner wall of the second connecting pipe 27, and the pipe thickness of the butt joint pipe 17 is the same as that of the second connecting pipe 27, so that the first module radiating box 8 drives the second connecting pipe 27 to move, the rotating cap 20 is rotated while pushing the first module radiating box 8, the thread is continuously connected, the embedded sealing ring 22 can enter the embedded groove 24, the butt joint pipe 17 is inserted into the second connecting pipe 27 to form butt joint installation, along with continuous thread connection, the butt joint pipe 17 of the third module radiating box 10 and the second connecting pipe 27 can complete the embedded butt joint, the multi-point embedding and the marginal covering sealing function are formed, and the sealing connectivity is higher after the installation, thereby being not easy to cause the water leakage problem among the pipelines.

In some embodiments, as shown in fig. 8-9, the bottom end of the first module heat dissipation box 8 is installed with an embedded friction plate 11, one side of the second shunt pipe 30 is provided with an arc-shaped measuring bar 31, the inner wall of the arc-shaped measuring bar 31 is provided with a checking groove 32, a measuring pointer 33 is installed above the checking groove 32, the inside of the measuring pointer 33 is sleeved with a supporting shaft 35, the outside of the supporting shaft 35 and the side of the measuring pointer 33 are provided with a supporting shaft collar 36, the measuring pointer 33 is movably connected with the supporting shaft 35, the measuring pointer 33 is installed with a balancing weight 34 near the bottom end, the cross section of the balancing weight 34 is circular, one side of the first module heat dissipation box 8 is provided with a flat plate 37, the bottom end of the flat plate 37 is provided with an embedded plate 38, so that when the first module heat dissipation box 8 is deflected, the measuring pointer 33 rotates on the supporting shaft 35 by an angle, and the balancing weight 34 on the supporting shaft 35 is kept vertical under the action of the gravity shaft, the deflection angle is judged according to the pointer condition of the measuring pointer 33 on the arc measuring strip 31, then the angle of the first module heat dissipation box 8 is rotated, and when the balancing weight 34 points to the checking groove 32 on the arc measuring strip 31, the first module heat dissipation box 8 is installed below the floor in parallel, so that the parallelism of the first module heat dissipation box 8 in each installation can be ensured.

The using process of the invention is as follows:

when butt joint installation is carried out, the water distribution box 4 and the water collection box 15 can be installed at two sides of a wall, external pipelines are welded one by one, then the first module heat dissipation box 8 is pushed to one side, the first module heat dissipation box 8 drives the second connecting pipe 27 to move, so that the thread frame 21 can enter the position of the thread butt joint groove 26, then the rotating cap 20 is rotated while pushing the first module heat dissipation box 8, the rotating cap 20 drives the thread frame 21 to rotate, the outer part of the thread frame 21 is in threaded connection with the inside of the rotating spiral ring 25, the inner part of the thread frame 21 is in threaded connection with the outer part of the positioning butt joint barrel 23, the embedded sealing ring 22 can enter the embedded groove 24 along with continuous connection of threads, the butt joint pipe 17 is inserted into the second connecting pipe 27 to form butt joint installation, and the sealing extrusion plate 19 is also driven by the thread frame 21 so that the embedded rotary ring 18 rotates outside the butt joint pipe 17, with continuous threaded connection, the butt joint pipe 17 of the third module heat dissipation box 10 and the second connecting pipe 27 can complete embedded butt joint, a multi-point embedded sealing effect is formed, the sealing extrusion plate 19 plays a role in edge coverage sealing, so that one first module heat dissipation box 8 can be installed and butted on the first water diversion pipe 5, the plurality of first module heat dissipation boxes 8, the plurality of second module heat dissipation boxes 9 and the plurality of third module heat dissipation boxes 10 are connected in parallel in sequence according to the mode, and the right flat-laying plate 37 and the embedded plate 38 form a joint sealing effect when the two first module heat dissipation boxes 8 are installed, so that a supporting effect on a floor is achieved, and the problem of hollowing caused by treading is avoided;

when the first module heat dissipation box 8 is laid, and when the first module heat dissipation box 8 is installed, the supporting shaft lever 35 inside the supporting shaft collar 36 can support the measuring pointer 33, so that when the first module heat dissipation box 8 deflects, the measuring pointer 33 can rotate on the supporting shaft lever 35, meanwhile, the counterweight block 34 on the supporting shaft lever 35 is kept vertical under the action of gravity, the deflection angle is judged according to the pointer condition of the measuring pointer 33 on the arc-shaped measuring strip 31, then the angle of the first module heat dissipation box 8 is rotated, and when the counterweight block 34 points to the check groove 32 on the arc-shaped measuring strip 31, the first module heat dissipation box 8 can be installed under the floor in parallel, and the embedded friction plate 11 at the bottom end of the first module heat dissipation box 8 can increase the area contacting the ground and increase the friction force, thus, the parallelism of each installation of the first module heat dissipation box 8 can be ensured, in this way, the bottom of the first module heat dissipation box 8 can be filled with wood boards for keeping parallelism, and in this way, balanced series connection can be carried out;

when in use, the circulating water inlet pipe 1 can be connected with the water outlet of the external heater by starting the circulating pump 2, then the circulating pump 2 is started, so that the circulating water inlet pipe 1 generates suction force, hot water is guided into the first connecting pipe 3, enters the water diversion box 4 along the first connecting pipe 3 to be diverted, is diverted into the first water diversion pipe 5 from the water diversion box 4, enters the butt joint pipe 17 along the first water diversion pipe 5, is poured into the second connecting pipe 27 from the butt joint pipe 17, enters the first water diversion pipe 28 through the second connecting pipe 27 to be diverted, is diverted into the plurality of capillary heat conduction pipes 29 along the first water diversion pipe 28, is converged into the second water diversion pipe 30 along the capillary heat conduction pipes 29, flows into the next first module heat dissipation box 8 through the second water diversion pipe 30, then enters the second water collection pipe 13 to be converged into the water collection box 15, and the other part of hot water enters the second module radiating tanks 9 through the second water dividing pipe 6, sequentially enters the plurality of second module radiating tanks 9, is input into the first water collecting pipe 12 through the last second module radiating tank 9 and then is collected into the water collecting tank 15, the other part of hot water enters the third water dividing pipe 7 along the water dividing tank 4, is divided into the third module radiating tank 10 through the third water dividing pipe 7, enters the third water collecting pipe 14 through the plurality of third module radiating tanks 10, enters the water collecting tank 15 along the third water collecting pipe 14 to finish the collection operation, is guided into the circulation flow guide pipe 16 through the water collecting tank 15 in a recirculation mode, enters the first connecting pipe 3 along the circulation flow guide pipe 16, enters the water return port of the heater through the first connecting pipe 3 to continuously finish heating, and is circulated into the circulation water inlet pipe 1 for continuous use.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

In the present specification, the terms "upper", "lower", "left", "right", "middle", and the like are used for clarity of description, and are not intended to limit the scope of the present invention, and changes or modifications in the relative relationship may be made without substantial changes in the technical content.

Claims

1. The utility model provides an even high heat dissipation formula hot-water heating, includes circulation oral siphon (1), its characterized in that: one end of the circulating water inlet pipe (1) is connected with a circulating pump machine (2), a first connecting pipe (3) is installed at the input end of the circulating pump machine (2), and one end of the first connecting pipe (3) is connected with a parallel mechanism;

parallel mechanism is including installing water diversion box (4) in first connecting pipe (3) one end, water diversion box (4) one side is provided with first water diversion pipe (5), first water diversion pipe (5) one side is provided with second water diversion pipe (6), third water diversion pipe (7) are installed to second water diversion pipe (6) one side, coupling mechanism is all installed to third water diversion pipe (7), first water diversion pipe (5), second water diversion pipe (6) one end, a plurality of first module heat dissipation case (8) are installed to coupling mechanism one side, first module heat dissipation case (8) one side is provided with a plurality of second module heat dissipation case (9), second module heat dissipation case (9) one side is provided with a plurality of third module heat dissipation case (10), and is a plurality of second module heat dissipation case (9) one end intercommunication has installed first collector pipe (12), first collector pipe (12) one side is installed second collector pipe (13) and the opposite side and is installed third collector pipe (10), (a plurality of) 14) One end of the third water collecting pipe (14) is communicated with a water collecting tank (15).

2. The uniform high heat dissipation type water heater as claimed in claim 1, wherein: every two adjacent first module radiating boxes (8), every two adjacent second module radiating boxes (9) and every two adjacent third module radiating boxes (10) are connected through a connecting mechanism.

3. The uniform high heat dissipation type water heater as claimed in claim 1, wherein: a plurality of capillary heat conduction pipes (29) are installed inside the first module heat dissipation box (8), the second module heat dissipation box (9) and the third module heat dissipation box (10), and one end of each capillary heat conduction pipe (29) is connected with a first shunt pipe (28) and the other end of each capillary heat conduction pipe is provided with a second shunt pipe (30).

4. The uniform high heat dissipation type water heater as claimed in claim 1, wherein: and two ends of the first connecting pipe (3) are respectively communicated with the water distribution box (4) and the input end of the circulating pump (2) in pairs, and the water collection box (15) is communicated with the circulating flow guide pipe (16).

5. The uniform high heat dissipation type water heater as claimed in claim 1, wherein: the connecting mechanism comprises a butt joint pipe (17) arranged at one end of a first water distribution pipe (5), an embedding swivel (18) is installed in the external embedding of the butt joint pipe (17), one side of the embedding swivel (18) is connected with a sealing extrusion plate (19), a rotating cap (20) is sleeved outside the sealing extrusion plate (19), one side of the rotating cap (20) is connected with a threaded frame (21), an embedding sealing ring (22) is installed inside the threaded frame (21), one side of the threaded frame (21) is provided with a positioning butt joint barrel (23), an embedded groove (24) clamped with the embedding sealing ring (22) is arranged between the positioning butt joint barrel (23) and the threaded frame (21), a rotating spiral ring (25) is arranged outside the positioning butt joint barrel (23), and a gap formed between the inside of the rotating spiral ring (25) and the outside of the positioning butt joint barrel (23) is a threaded butt joint groove (26), one side of the positioning butt joint cylinder (23) is connected with a second connecting pipe (27).

6. The uniform high heat dissipation type water heater as claimed in claim 5, wherein: the external part of the positioning butt joint barrel (23) is connected with the internal thread of the thread frame (21), the external part of the thread frame (21) is connected with the internal thread of the rotary spiral ring (25), and the external part of the butt joint pipe (17) is movably connected with the internal part of the embedded rotary ring (18).

7. The uniform high heat dissipation type water heater as claimed in claim 5, wherein: the pipe diameter of the inner wall at the opposite end of the butt joint pipe (17) and the second connecting pipe (27) is smaller than that of the inner wall of the second connecting pipe (27) by the pipe diameter ratio of the inner wall of the butt joint pipe (17), and the pipe thickness of the butt joint pipe (17) and the pipe thickness of the second connecting pipe (27) are the same.

8. A uniform high heat dissipation water heater as recited in claim 3, wherein: embedding friction plate (11) are installed to first module heat dissipation case (8) bottom, second shunt tubes (30) one side is provided with arc measurement strip (31), arc measurement strip (31) inner wall has been seted up and has been checked groove (32), check groove (32) top and install measurement pointer (33), it is equipped with supporting shaft pole (35) to measure inside the cover of pointer (33), supporting shaft pole (35) outside just is located and measures pointer (33) one side and be provided with supporting shaft collar (36).

9. The uniform high heat dissipation type water heater as claimed in claim 8, wherein: the measuring pointer (33) is movably connected with the supporting shaft rod (35), a balancing weight (34) is installed inside the measuring pointer (33) close to the bottom end, and the cross section of the balancing weight (34) is circular.

10. The uniform high heat dissipation type water heater as claimed in claim 1, wherein: one side of the first module heat dissipation box (8) is provided with a flat plate (37), and the bottom end of the flat plate (37) is provided with an embedded plate (38).