CN220288302U - Fin tube radiator based on forced air cooling circulation - Google Patents

Abstract

The utility model discloses a finned tube radiator based on air cooling circulation, wherein a plurality of return tubes are arranged at the top end of an attaching plate, screw interfaces are connected to two ends of each return tube, a plurality of radiating fins are connected to the outer side surface of each return tube, radiating grooves are formed in the two ends of the outer side of each radiating fin, a radiating bowl is connected to the outer side surface of each return tube, a broken-connection closed tube is connected to the two ends of each return tube, and an opposite interface is formed in one end of each broken-connection closed tube.

Description

Fin tube radiator based on forced air cooling circulation

Technical Field

The utility model relates to the technical field of finned tube heat dissipation, in particular to a finned tube radiator based on air cooling circulation.

Background

The device or instrument for timely transferring heat generated by machines or other appliances in the working process to avoid influencing the normal work of the devices or instruments can be divided into various types such as air cooling, heat pipe radiators, liquid cooling, semiconductor refrigeration, compressor refrigeration and the like according to a heat radiation mode, and at present, with the appearance of more and more flexible devices, more and more standard radiators appear, and with the appearance of more and more radiators, the device or instrument for optimizing the performance of the radiators becomes a point which needs to be broken through by the heavy points of the existing radiators.

But the existing finned tube radiator with air cooling circulation at present is mainly only capable of radiating through the heat conduction capacity of an aluminum sheet, the heat difference between two articles with heat transfer efficiency of the heat radiation capacity is related through a fan, the larger the difference is, the more excellent the heat radiation capacity is, the slower the heat radiation capacity is only through the heat conduction capacity of metal, thereby affecting the heat radiation effect, the working efficiency of a machine is also affected, and the heat radiation fin of the existing heat radiation device cannot be adjusted according to the surface area of the device needing heat radiation, so that special conditions of a special fence are caused.

Disclosure of Invention

The utility model provides a finned tube radiator based on air cooling circulation, which can effectively solve the problems that in the background technology, most of the heat conduction capacity of an aluminum sheet can be used for radiating heat through a fan, the heat dissipation capacity is higher than the heat dissipation capacity, the heat dissipation capacity is slower only through the heat conduction capacity of metal, the heat dissipation effect is influenced, the working efficiency of a machine is also influenced, and the surface area of a radiating fin of the existing radiating device cannot be adjusted according to the requirement of the radiating device, so that special conditions of a special fence are caused.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the fin tube radiator based on air cooling circulation comprises an attaching plate, wherein the top end of the attaching plate is connected with a heat radiation mechanism;

the heat dissipation mechanism comprises a return pipe, a spiral interface, a heat dissipation fin, a heat dissipation groove, a heat dissipation pot, a broken connection closed pipe, an opposite interface, a turnover groove, a one-way turnover plate, a rubber sleeve and a rotary valve;

the utility model discloses a thermal insulation board, including attached board, back flow, rubber sleeve, sealing tube, upset groove has all been connected with the spiral interface on attached board top, the back flow both ends all are connected with the spiral interface, back flow outside surface connection has a plurality of fin, the radiating groove has all been seted up at fin outside both ends, back flow outside surface connection has the heat dissipation alms bowl, the sealing tube is sealed to the back flow both ends all be connected with the disconnection, sealing tube one end has been seted up to the interface, the upset groove has been seted up in the middle of the sealing tube inboard to the disconnection, the one-way upset board is installed to the inboard inlay card of upset groove, the rubber sleeve has been cup jointed in the one-way upset board outside, sealing tube one end through connection has the rotary valve.

Preferably, the spiral directions of the two spiral interfaces are opposite and the lengths are the same, the sizes and depths of the radiating grooves are the same, and the depths of the radiating grooves are half of that of the radiating fins.

Preferably, the thickness of the heat dissipation bowl is the same as that of the heat dissipation fins, the inner side of the heat dissipation bowl is hollow, the intervals between the heat dissipation bowl and the heat dissipation fins are the same, the spiral interface is kneaded with the opposite interface, and one end of the rotary valve penetrates through the broken-connection closed pipe to be connected with the unidirectional overturning plate.

Preferably, the top end of the attaching plate is connected with a heat absorption blowing mechanism;

the heat absorption blowing mechanism comprises a collecting pipe, a copper column, a cleaning window sealing plate, a butt joint window sealing plate, a circulating pump, a water inlet pipe, a water outlet pipe and a fan;

two collecting pipes are arranged at the top ends of the attaching plates, copper columns are embedded and arranged at the bottom ends of the two collecting pipes, a cleaning window is arranged at the bottom end of the collecting pipe, a cleaning window sealing plate is arranged on the outer side surface of the cleaning window, a butt joint window is connected to one end of the collecting pipe, a butt joint window sealing plate is arranged on the outer side of the butt joint window, a circulating pump is connected to the top end of the collecting pipe, a water inlet pipe is connected to the water inlet end of the circulating pump, a water outlet pipe is connected to the water outlet end of the circulating pump, and a fan is arranged at the top end of the attaching plate;

a return pipe is connected between the two collecting pipes.

Preferably, the copper column extends to the inner side of the collecting pipe through the bottom end of the collecting pipe, and one end of the collecting pipe is connected with the broken-connection closed pipe.

Preferably, the water inlet end of the water inlet pipe and the water outlet end of the water outlet pipe are connected with the top end of the collecting pipe, and the power input ends of the circulating pump and the fan are connected with the power output end of the external control terminal.

Compared with the prior art, the utility model has the beneficial effects that: the utility model has scientific and reasonable structure, safe and convenient use,

1. be provided with back flow, the fin, heat sink and heat dissipation alms bowl, along with the circulation flow of back flow inside water, with every department of heat transfer to the device, carry thermal cooling water, can dispel the heat by the fin, and the heat sink that the fin both ends were seted up can increase the fin with air area of contact, thereby increase heat dissipation capacity, inside cooling water also can enter into the heat dissipation alms bowl inside simultaneously, increase heat dissipation water and air area of contact more, thereby increase heat dissipation capacity, make the heat dissipation capacity of device more superior, the side aspect also can increase the operating efficiency of the motorized equipment that generates heat.

2. The heat radiator is provided with a spiral interface, a counter interface, a rotary valve, a rubber sleeve, a disconnection sealing pipe and a unidirectional overturning plate, the connection between the backflow pipe and the disconnection sealing pipe is completed through the butt joint of the spiral interfaces at two ends of the backflow pipe, the unidirectional overturning plate can ensure the safety of the heat radiator, when the unidirectional overturning plate is opened, heat radiation water can smoothly circulate, the backflow pipe can be isolated when the unidirectional overturning plate is sealed, the backflow pipe can be rotationally taken down through the spiral interfaces and the counter interfaces, the backflow pipe is replaced when damaged, and the normal work of the heat radiator can not be influenced.

3. Be provided with header, inlet tube, outlet pipe, copper post, clearance window, butt joint window, circulating pump and fan, copper post through header bottom connection can be with the giving off heat absorption of mobile device, circulate the hot water inside header and the back flow through the circulating pump, the hot water of the inside every department of device can all be taken out to the back flow inside at this time, by the fan heat dissipation of wind circulation, the heat-sinking capability of device has been increased, and the device can also be through butt joint window one-to-one connection, can splice according to the size of heating device, thereby the use universality of device has been increased, and the device can also clear up the header inside through the clearance window.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model.

In the drawings:

FIG. 1 is a schematic view of an attachment plate structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of a return tube of the present utility model;

FIG. 3 is a schematic cross-sectional view of a broken-off closed tube according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a header of the present utility model;

reference numerals in the drawings: 1. attaching a plate;

2. a heat dissipation mechanism; 201. a return pipe; 202. a screw interface; 203. a heat sink; 204. a heat sink; 205. a heat dissipation bowl; 206. disconnecting the closed pipe; 207. an interface; 208. a turnover groove; 209. a one-way turnover plate; 210. a rubber sleeve; 211. a rotary valve;

3. a heat absorption blowing mechanism; 301. a header; 302. copper columns; 303. cleaning a window; 304. cleaning a window closing plate; 305. a butt joint window; 306. abutting against a window closing plate; 307. a circulation pump; 308. a water inlet pipe; 309. a water outlet pipe; 310. a blower.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Examples: as shown in fig. 1-4, the utility model provides a technical scheme, namely a finned tube radiator based on air cooling circulation, which comprises an attaching plate 1, wherein the top end of the attaching plate 1 is connected with a radiating mechanism 2;

the heat radiation mechanism 2 comprises a return pipe 201, a spiral interface 202, a heat radiation fin 203, a heat radiation groove 204, a heat radiation bowl 205, a disconnected closed pipe 206, an interface 207, a turnover groove 208, a one-way turnover plate 209, a rubber sleeve 210 and a rotary valve 211;

in order to increase the heat radiation capability of the device, the top end of the attaching plate 1 is provided with a plurality of return pipes 201, both ends of each return pipe 201 are connected with spiral interfaces 202, spiral directions of the two spiral interfaces 202 are opposite and have the same length, the outer side surface of each return pipe 201 is connected with a plurality of radiating fins 203, both outer side ends of each radiating fin 203 are provided with radiating grooves 204, the depth of each radiating groove 204 is the same, the depth of each radiating groove 204 is half of that of each radiating fin 203, the outer side surface of each return pipe 201 is connected with a radiating bowl 205, the thickness of each radiating bowl 205 is the same as that of each radiating fin 203, the inner side of each radiating bowl 205 is hollow, the intervals between each radiating bowl 205 and each radiating fin 203 are the same, both ends of each return pipe 201 are connected with a broken-connection closed pipe 206, one end of each broken-connection closed pipe 206 is provided with an opposite interface 207, each spiral interface 202 is kneaded with each butt-connection interface 207, a turnover groove 208 is formed in the middle of the inner side of the broken-connection closed pipe 206, a unidirectional turnover plate 209 is mounted in a clamping manner, the outer side of each turnover plate 209 is sleeved with a rubber sleeve 210, one end of the broken-connection closed pipe 206 is connected with a rotary valve 211 in a penetration way, one end of the turnover valve 211, and one end of the rotary valve 211 penetrates through the broken-connection closed pipe 206, and the end is in the connection;

the top end of the attaching plate 1 is connected with a heat absorption blowing mechanism 3;

the heat absorption blowing mechanism 3 comprises a collecting pipe 301, a copper column 302, a cleaning window 303, a cleaning window closing plate 304, a butt joint window 305, a butt joint window closing plate 306, a circulating pump 307, a water inlet pipe 308, a water outlet pipe 309 and a fan 310;

in order to increase the use universality of the device, two collecting pipes 301 are arranged at the top end of the attaching plate 1, copper columns 302 extend to the inner side of the collecting pipes 301 through the bottom ends of the collecting pipes 301, one end of each collecting pipe 301 is connected with a broken sealing pipe 206, copper columns 302 are embedded in the bottom ends of the two collecting pipes 301, a cleaning window 303 is arranged at the bottom end of each collecting pipe 301, a cleaning window sealing plate 304 is arranged on the outer side surface of each cleaning window 303, a butt joint window 305 is connected to one end of each collecting pipe 301, a butt joint window sealing plate 306 is arranged on the outer side of each butt joint window 305, a circulating pump 307 is connected to the top end of each collecting pipe 301, a water inlet end of each circulating pump 307 is connected to a water inlet pipe 308, a water outlet end of each circulating pump 307 is connected to a water outlet pipe 309, a water inlet end of each water outlet pipe 308 is connected to the top end of each collecting pipe 301, a fan 310 is arranged at the top end of the attaching plate 1, and power input ends of each circulating pump 307 and each fan 310 are connected to power output ends of external control terminals;

while between the two headers 301 a return pipe 201 is connected for better installation.

The working principle and the using flow of the utility model are as follows: firstly, an operator needs to connect the collecting pipes 301 according to the size of a heating device through the butt joint window 305, the heat absorption area of the device can be increased, so that the heat dissipation efficiency of the device is increased, after the connection of the device is completed, the circulating pump 307 and the fan 310 are started, heat on the inner side of the heat source is absorbed by the copper column 302 at the bottom end of the collecting pipe 301, the circulating pump 307 absorbs water through the water inlet pipe 308 and then discharges water from the water outlet pipe 309, so that hot water in the device is always circulated and flows, the water in the device is always in a cooling state, the water is always sucked into the reflux pipe 201, the heat dissipation efficiency of the device is ensured by the reflux pipes 201, the water entering the reflux pipe 201 is circulated and flows in the reflux pipe 201, heat is transferred to each part of the device, the heat dissipation water carrying the heat is dissipated by the heat dissipation fins 203, the heat dissipation grooves 204 formed at the two ends of the heat dissipation fins 203 can increase the contact area with the air of the heat dissipation fins 203, so that the heat dissipation capacity is increased, meanwhile, the water in the interior can enter the heat dissipation bowl 205, the heat dissipation area is further increased, the heat dissipation efficiency is increased, the heat dissipation efficiency of the heat dissipation equipment is further increased, and the heat dissipation efficiency is increased;

the connection between the spiral interface 202 and the butt 207 at two ends of the return pipe 201 is completed through the butt joint between the spiral interface 202 and the butt 207, the safety of the heat dissipating device can be guaranteed through the unidirectional overturning plate 209, the rotary valve 211 is rotated, water flows, the unidirectional overturning plate 209 is opened, heat dissipating water can smoothly circulate, the rotary valve 211 is closed, the return pipe 201 is isolated when the unidirectional overturning plate 209 is closed, the return pipe 201 can be rotationally taken down through the spiral interface 202 and the butt 207, the heat dissipating pipe 201 is replaced when the return pipe 201 is damaged, normal operation of a radiator is not affected, the usability of the heat dissipating device is higher, the heat dissipating device can absorb heat dissipated by the motor device through the copper column 302 connected with the bottom end of the collecting pipe 301, hot water in the collecting pipe 301 and the return pipe 201 can circulate through the circulating pump 307, the heat dissipating capability of the heat dissipating device can be pumped into the interior of the return pipe 201 through the fan 310, the heat dissipating capability of the device can be increased, the heat dissipating device can be spliced according to the size of the heat dissipating device, the heat dissipating device can be widely used for cleaning the collecting pipe 301, and the heat dissipating device can be widely used through the collecting pipe 301.

Finally, it should be noted that: the foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides a finned tube radiator based on forced air cooling circulation, includes attached board (1), its characterized in that: the top end of the attaching plate (1) is connected with a heat dissipation mechanism (2);

the heat dissipation mechanism (2) comprises a return pipe (201), a spiral interface (202), a heat dissipation fin (203), a heat dissipation groove (204), a heat dissipation bowl (205), a broken closed pipe (206), a butt joint interface (207), a turnover groove (208), a one-way turnover plate (209), a rubber sleeve (210) and a rotary valve (211);

attached board (1) top is provided with a plurality of back flows (201), back flow (201) both ends all are connected with spiral connector (202), back flow (201) outside surface connection has a plurality of fin (203), radiating groove (204) have all been seted up at fin (203) outside both ends, back flow (201) outside surface connection has heat dissipation alms bowl (205), back flow (201) both ends all are connected with disconnection sealed tube (206), disconnection sealed tube (206) one end has been seted up to interface (207), upset groove (208) have been seted up in the middle of disconnection sealed tube (206) inboard, unidirectional turnover plate (209) are installed to inboard inlay card of upset groove (208), rubber sleeve (210) have been cup jointed in the unidirectional turnover plate (209) outside, disconnection sealed tube (206) one end through connection has rotary valve (211).

2. A finned tube radiator based on air cooling circulation according to claim 1, wherein the spiral directions of the two spiral interfaces (202) are opposite and the same in length, the heat dissipation grooves (204) are all the same in size and depth, and the heat dissipation grooves (204) are half the depth of the heat dissipation fins (203).

3. The finned tube radiator based on air cooling circulation according to claim 1, wherein the thickness of the radiating bowl (205) is the same as that of the radiating fins (203), the inner side of the radiating bowl (205) is hollow, the intervals between the radiating bowl (205) and the radiating fins (203) are the same, the spiral interface (202) and the butt joint (207) are kneaded, and one end of the rotary valve (211) penetrates through the broken joint closed tube (206) to be connected with the unidirectional overturning plate (209).

4. The fin tube radiator based on air cooling circulation according to claim 1, wherein the top end of the attaching plate (1) is connected with a heat absorption and blowing mechanism (3);

the heat absorption blowing mechanism (3) comprises a collecting pipe (301), a copper column (302), a cleaning window (303), a cleaning window sealing plate (304), a butt joint window (305), a butt joint window sealing plate (306), a circulating pump (307), a water inlet pipe (308), a water outlet pipe (309) and a fan (310);

two collection pipes (301) are placed at the top end of the attaching plate (1), copper columns (302) are embedded and installed at the bottom ends of the two collection pipes (301), cleaning windows (303) are installed at the bottom ends of the collection pipes (301), cleaning window sealing plates (304) are installed on the outer side surfaces of the cleaning windows (303), butt joint windows (305) are connected to one ends of the collection pipes (301), butt joint window sealing plates (306) are installed on the outer sides of the butt joint windows (305), circulating pumps (307) are connected to the top ends of the collection pipes (301), water inlet ends of the circulating pumps (307) are connected with water inlet pipes (308), water outlet ends of the circulating pumps (307) are connected with water outlet pipes (309), and fans (310) are placed at the top ends of the attaching plate (1);

a return pipe (201) is connected between the two collecting pipes (301).

5. A finned tube radiator based on an air-cooled cycle according to claim 4 wherein the copper studs (302) extend through the bottom end of the header (301) to the inside of the header (301), said header (301) being connected at one end to the broken-closed tube (206).

6. The finned tube radiator based on air cooling circulation according to claim 4, wherein the water inlet end of the water inlet tube (308) and the water outlet end of the water outlet tube (309) are connected with the top end of the collecting tube (301), and the power input ends of the circulating pump (307) and the fan (310) are connected with the power output end of an external control terminal.