CN217421337U - Three-in-one radiator - Google Patents

Abstract

The utility model discloses a trinity radiator belongs to auto radiator technical field. It includes: the first heat dissipation core and the second heat dissipation core are adjacently arranged and detachably connected; oil cooling fittings disposed at both sides of the first heat dissipation core and communicated with the inner passage of the first heat dissipation core; air cooling fittings arranged at both sides of the first heat dissipation core and communicated with the internal channel of the first heat dissipation core; and water-cooling fittings which are disposed at both sides of the second heat dissipation core and communicate with the inner channel of the second heat dissipation core. The oil cooling part and the air cooling part are integrated on the first heat dissipation core to form an oil cooling assembly and an air cooling assembly, and the water cooling part is connected with the second heat dissipation core to form a water cooling assembly, so that the whole radiator is integrated with an oil cooling function, an air cooling function and a water cooling function, and the requirement for cooling the cooling liquid, the air entering the combustion chamber and the engine oil in the running process of the internal combustion engine is met.

Description

Three-in-one radiator

Technical Field

The utility model belongs to the technical field of auto radiator, concretely relates to trinity radiator.

Background

In the prior art, the radiator of the internal combustion engine generator set is used for respectively radiating heat carried by cooling liquid and pressurized air into air so as to reduce the temperature of the cooling liquid entering a steel jacket water chamber of the internal combustion engine and the temperature of the air entering a combustion chamber of the internal combustion engine.

In the running process of the internal combustion engine, the engine oil plays roles of lubricating, bearing and heat transfer, and the normal working temperature of the engine oil is about 80-90 ℃ and about 5 ℃ lower than the water temperature of a steel sleeve. If the temperature of the engine oil is too high, the viscosity of the engine oil is reduced to reduce the pressure of the engine oil, so that the bearing burning and axle locking accidents are easily caused; meanwhile, the engine oil can be deteriorated and failed too early due to overhigh temperature.

Therefore, in the operation process of the internal combustion engine, the cooling liquid, the air entering the combustion chamber and the engine oil need to be radiated, but the existing single radiator does not integrate the three functions of water cooling, oil cooling and air cooling, so that certain limitation exists.

Disclosure of Invention

The utility model provides a to the above-mentioned problem that prior art exists, provide a trinity radiator of water-cooling, oil cooling and air cooling in an organic whole.

The utility model discloses the accessible is realized by following technical scheme:

a three-in-one heat sink comprising:

the first heat dissipation core and the second heat dissipation core are adjacently arranged and detachably connected;

the oil cooling fittings are arranged on two sides of the first heat dissipation core and are communicated with the internal channel of the first heat dissipation core, and the oil cooling fittings and the first heat dissipation core form an oil cooling assembly;

air cooling fittings which are arranged on two sides of the first heat dissipation core and communicated with the internal channel of the first heat dissipation core, wherein the air cooling fittings and the first heat dissipation core form an air cooling assembly;

and the water-cooling fittings are arranged on two sides of the second heat dissipation core and are communicated with the internal channel of the second heat dissipation core, and the water-cooling fittings and the second heat dissipation core form a water-cooling assembly.

As a further improvement of the present invention, the first heat dissipation core includes a plurality of first hot passageways and a plurality of first cold passageways, the first hot passageway with the parallel and cross arrangement of first cold passageway, the second heat dissipation core includes a plurality of second hot passageways and a plurality of second cold passageways, the second hot passageway with the parallel and cross arrangement of second cold passageway.

As the utility model discloses a further improvement, the cold accessory of oil includes the cold head of first oil and the cold head of second oil, first oil cold head with the cold head of second oil sets up respectively the both sides of first heat dissipation core.

As a further improvement of the utility model, first oil cooling head is equipped with oil inlet and first oil cooling cavity, second oil cooling head is equipped with oil-out and the cold cavity of second oil, the oil inlet first oil cooling cavity first hot aisle second oil cooling cavity and the oil-out communicates in proper order.

As a further improvement of the utility model, the air-cooled accessory includes first air-cooled head and second air-cooled head, first air-cooled head with second air-cooled head sets up respectively the both sides of first heat dissipation core.

As a further improvement, the first air-cooled head is provided with air inlet and first air-cooled cavity, the second air-cooled head is equipped with gas outlet and second air-cooled cavity, the air inlet first air-cooled cavity first hot aisle the second air-cooled cavity and the gas outlet communicates in proper order.

As a further improvement, the water-cooling accessory includes water-cooling head and water tank, the water-cooling head with the water tank sets up respectively the both sides of second heat dissipation core.

As the utility model discloses a further improvement, the water-cooling head is equipped with water inlet and first water-cooling cavity, the water tank is equipped with the delivery port just the water tank with be formed with second water-cooling cavity between the second heat dissipation core, the water inlet first water-cooling cavity the second hot aisle second water-cooling cavity and the delivery port communicates in proper order.

As a further improvement, the water-cooling head is also provided with a water drain plug, and the water inlet is also provided with a circulating water interface.

As a further improvement of the utility model, the water tank still is equipped with water hole, filler, drain and sensor interface, the water tank through cross the water hole with second water-cooling cavity intercommunication.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the oil cooling part and the air cooling part are integrated on the first heat dissipation core to form an oil cooling assembly and an air cooling assembly, and the water cooling part is connected with the second heat dissipation core to form a water cooling assembly, so that the whole radiator is integrated with an oil cooling function, an air cooling function and a water cooling function, and the requirement for cooling the cooling liquid, the air entering the combustion chamber and the engine oil in the running process of the internal combustion engine is met.

2. The water cooling assembly is detachably connected with the air cooling assembly, so that the water cooling assembly is convenient to replace and maintain independently, and the convenience is high.

3. The space has been practiced thrift to the radiator of trinity form, and the installation of being more convenient for of a whole radiator that high-efficient set formed simultaneously.

4. The radiator is provided with a water tank which is used as a water storage source and can be used for supplementing water level.

Drawings

FIG. 1 is a schematic view of the three-in-one radiator of the present invention;

fig. 2 is a schematic structural view of the present invention from another view angle in fig. 1;

FIG. 3 is a cross-sectional view of the three-in-one heat sink of the present invention;

fig. 4 is a partially enlarged view of a portion a in fig. 3 according to the present invention.

In the drawing, 100, a first heat dissipation core; 101. a first thermal channel; 102. a first cold aisle; 110. a second heat dissipation core; 111. a second thermal channel; 112. a second cold aisle; 120. a connecting plate; 130. an outer panel; 200. oil-cooled fittings; 210. a first oil-cooled head; 220. a second oil-cooled end enclosure; 211. an oil inlet; 212. a first oil-cooled cavity; 220. a second oil-cooled end enclosure; 221. an oil outlet; 222. a second oil-cooled cavity; 300. air-cooled fittings; 310. a first air-cooled end enclosure; 311. an air inlet; 312. a first air-cooled cavity; 320. a second air-cooled end enclosure; 321. an air outlet; 322. a second air-cooled cavity; 400. a water-cooled fitting; 410. water-cooling the end socket; 411. a water inlet; 4111. a circulating water interface; 412. a first water-cooled cavity; 413. a water discharging plug; 420. a water tank; 421. a water outlet; 422. a second water-cooled cavity; 423. water passing holes; 424. a water filling port; 4241. an overpressure overflow port; 425. a water discharge outlet; 426. two sensors interface.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical method of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-4, the utility model provides a three-in-one radiator, include:

the first heat dissipation core 100 and the second heat dissipation core 110 are adjacently arranged and detachably connected, specifically, one side of the first heat dissipation core 100, which is in contact with the second heat dissipation core 110, is provided with a connection plate 120, and the two connection plates 120 can be connected and fixed by a fastener.

And oil cooling fittings 200 disposed at both sides of the first heat dissipation core 100 and communicated with the inner channel of the first heat dissipation core 100, wherein the oil cooling fittings 200 and the first heat dissipation core 100 constitute an oil cooling assembly for reducing the temperature of the engine oil and preventing the engine oil from being deteriorated too early due to an excessively high temperature.

And air-cooling fittings 300 disposed at both sides of the first heat dissipation core 100 and communicating with the internal channel of the first heat dissipation core 100, wherein the air-cooling fittings 300 and the first heat dissipation core 100 constitute an air-cooling assembly for reducing the temperature of air entering the gas chamber of the internal combustion engine, and in addition, in the present embodiment, the air-cooling fittings 300 and the oil-cooling fittings 200 are connected to the first heat dissipation core 100, such that the whole air-cooling assembly and the oil-cooling assembly are integrated, but the air-cooling fittings 300 and the oil-cooling fittings 200 are separated by a partition, such that the whole air-cooling assembly and the whole oil-cooling assembly are independent from each other, thereby ensuring that the two processes of air-cooling and oil-cooling can be performed simultaneously and complementarily interfered.

The water-cooling fittings 400 are arranged on two sides of the second heat dissipation core 110 and communicated with the internal channel of the second heat dissipation core 110, the water-cooling fittings 400 and the second heat dissipation core 110 form a water-cooling assembly, the water-cooling assembly is used for reducing the temperature of cooling liquid, namely, after the second heat dissipation core 110 is connected with the first heat dissipation core 100, the whole radiator can be integrated with an oil cooling function, an air cooling function and a water cooling function, so that the requirements of cooling liquid, air entering a combustion chamber and engine oil in the operation process of an internal combustion engine are met, the space of the radiator in the form of three-in-one is saved, and the whole radiator formed by high-efficiency integration is more convenient to install.

In addition, in the present embodiment, since the first heat dissipation core 100 and the second heat dissipation core 110 are detachably connected and the water cooling fitting 400 is connected to the second heat dissipation core 110, the entire water cooling assembly can be separately replaced and maintenance is facilitated.

Preferably, the first heat dissipation core 100 includes a plurality of first hot channels 101 and a plurality of first cold channels 102, the first hot channels 101 are parallel to and cross the first cold channels 102, the second heat dissipation core 110 includes a plurality of second hot channels 111 and a plurality of second cold channels 112, and the second hot channels 111 are parallel to and cross the second cold channels 112. High-temperature air and engine oil enter the first hot channel 101, the cooling liquid enters the second hot channel 111, and an external air cooler continuously blows cold air to flow through the first cold channel 102 and the second cold channel 112, so that heat exchange is continuously performed between the air cooler and media in the first hot channel 101 and the second hot channel 111, the temperature of the media in the first hot channel 101 and the second hot channel 111 is reduced, and the purpose of heat dissipation is achieved.

Preferably, the oil cooling fitting 200 includes a first oil cooling head 210 and a second oil cooling head 220, and the first oil cooling head 210 and the second oil cooling head 220 are respectively disposed at two sides of the first heat dissipation core 100.

Further preferably, the first oil cooling head 210 is provided with an oil inlet 211 and a first oil cooling cavity 212, the second oil cooling head 220 is provided with an oil outlet 221 and a second oil cooling cavity 222, the oil inlet 211, the first oil cooling cavity 212, the first hot channel 101, the second oil cooling cavity 222 and the oil outlet 221 are sequentially communicated, external high-temperature engine oil enters the first oil cooling cavity 212 from the oil inlet 211 and is dispersed all around, the dispersed engine oil flows into the plurality of first hot channels 101 and continuously exchanges heat with cold air flowing through the first cold channel 102, so that the temperature of the engine oil is reduced, and finally, the cooled engine oil flows into the second oil cooling cavity 222 and flows out from the oil outlet 221.

Preferably, the air-cooling fitting 300 includes a first air-cooling head 310 and a second air-cooling head 320, and the first air-cooling head 310 and the second air-cooling head 320 are respectively disposed at two sides of the first heat dissipation core 100.

Further preferably, the first air-cooled end enclosure 310 is provided with an air inlet 311 and a first air-cooled cavity 312, the second air-cooled end enclosure 320 is provided with an air outlet 321 and a second air-cooled cavity 322, the air inlet 311, the first air-cooled cavity 312, the first hot channel 101, the second air-cooled cavity 322 and the air outlet 321 are sequentially communicated, external high-temperature air enters the first air-cooled cavity 312 from the air inlet 311 and is dispersed all around, the dispersed high-temperature air enters the plurality of first hot channels 101 and continuously generates heat exchange with cold air flowing through the first cold channels 102, so that the temperature of the air is reduced, and finally, the cooled air enters the second air-cooled cavity 322 and flows out from the air outlet 321.

Preferably, the water-cooling fitting 400 includes a water-cooling head 410 and a water tank 420, and the water-cooling head 410 and the water tank 420 are respectively disposed at both sides of the second heat dissipation core 110, wherein water inside the water tank 420 mainly serves as a water storage source and can supplement a water level.

Further preferably, the water-cooling sealing head 410 is provided with a water inlet 411 and a first water-cooling cavity 412, the water tank 420 is provided with a water outlet 421, a second water-cooling cavity 422 is formed between the water tank 420 and the second heat dissipation core 110, the water inlet 411, the first water-cooling cavity 412, the second heat channel 111, the second water-cooling cavity 422 and the water outlet 421 are sequentially communicated, and similarly, the cooling liquid can sequentially pass through the water inlet 411, the first water-cooling cavity 412, the second heat channel 111, the second water-cooling cavity 422 and the water outlet 421, so as to finally obtain the cooled cooling liquid.

In addition, the water tank 420 is further provided with a water through hole 423, and water in the water tank 420 enters the second water-cooling cavity 422 through the water through hole 423 and finally enters the second hot passageway 111 to achieve the purpose of supplementing water level.

Preferably, the water-cooled head 410 is further provided with a water discharging plug 413, after the water discharging plug 413 is removed, the water in the second hot channel 111 can flow out, and the water inlet 411 is further provided with a circulating water port 4111.

Preferably, the water tank 420 is further provided with a filler 424, a drain 425 and two sensor interfaces 426, wherein the filler 424 is further provided with an overpressure overflow port 4241, and the two sensor interfaces 426 are respectively used for connecting a temperature sensor and a pressure sensor, thereby detecting the temperature and the air pressure in the second hot channel 111.

Preferably, the outer side of the first heat dissipation core 100 and the second heat dissipation core 110 is further provided with an outer side plate 130, and the outer side plate 130 is arranged to facilitate the installation of the whole heat sink and protect the two heat dissipation cores.

The technical means disclosed by the scheme of the utility model is not limited to the technical means disclosed by the technical means, but also comprises the technical scheme formed by the arbitrary combination of the technical characteristics. The above is a detailed implementation manner of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered as the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, rear … …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

Furthermore, the descriptions in the present application as to "first," "second," "a," etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating a number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In addition, the technical solutions between the embodiments of the present invention can be combined with each other, but it is necessary to be able to be realized by a person having ordinary skill in the art as a basis, and when the technical solutions are contradictory or cannot be realized, the combination of such technical solutions should be considered to be absent, and is not within the protection scope of the present invention.

Claims (10)

1. A three-in-one radiator is characterized by comprising:

the first heat dissipation core and the second heat dissipation core are adjacently arranged and detachably connected;

the oil cooling fittings are arranged on two sides of the first heat dissipation core and are communicated with the internal channel of the first heat dissipation core, and the oil cooling fittings and the first heat dissipation core form an oil cooling assembly;

air cooling fittings which are arranged on two sides of the first heat dissipation core and communicated with the internal channel of the first heat dissipation core, wherein the air cooling fittings and the first heat dissipation core form an air cooling assembly;

and the water-cooling fittings are arranged on two sides of the second heat dissipation core and are communicated with the internal channel of the second heat dissipation core, and the water-cooling fittings and the second heat dissipation core form a water-cooling assembly.

2. The three-in-one heat sink as claimed in claim 1, wherein the first heat dissipating core comprises a plurality of first hot channels and a plurality of first cold channels, the first hot channels are parallel to and cross with the first cold channels, the second heat dissipating core comprises a plurality of second hot channels and a plurality of second cold channels, and the second hot channels are parallel to and cross with the second cold channels.

3. The three-in-one heat sink as claimed in claim 2, wherein the oil-cooling fitting comprises a first oil-cooling head and a second oil-cooling head, and the first oil-cooling head and the second oil-cooling head are respectively disposed at two sides of the first heat-dissipating core.

4. The three-in-one heat sink as claimed in claim 3, wherein the first oil-cooling head has an oil inlet and a first oil-cooling cavity, the second oil-cooling head has an oil outlet and a second oil-cooling cavity, and the oil inlet, the first oil-cooling cavity, the first hot channel, the second oil-cooling cavity and the oil outlet are sequentially connected.

5. The three-in-one heat sink as claimed in claim 2, wherein the air-cooled fitting comprises a first air-cooled head and a second air-cooled head, and the first air-cooled head and the second air-cooled head are respectively disposed at two sides of the first heat-dissipating core.

6. The three-in-one heat sink as claimed in claim 5, wherein the first air-cooled sealing head is provided with an air inlet and a first air-cooled cavity, the second air-cooled sealing head is provided with an air outlet and a second air-cooled cavity, and the air inlet, the first air-cooled cavity, the first hot channel, the second air-cooled cavity and the air outlet are sequentially communicated.

7. The three-in-one heat sink as claimed in claim 2, wherein the water-cooling fitting comprises a water-cooling head and a water tank, and the water-cooling head and the water tank are respectively disposed at two sides of the second heat-dissipating core.

8. The three-in-one heat sink as claimed in claim 7, wherein the water cooling sealing head has a water inlet and a first water cooling cavity, the water tank has a water outlet, and a second water cooling cavity is formed between the water tank and the second heat dissipating core, and the water inlet, the first water cooling cavity, the second heat channel, the second water cooling cavity and the water outlet are sequentially connected.

9. The three-in-one radiator according to claim 8, wherein the water-cooled sealing head is further provided with a water discharge plug, and the water inlet is further provided with a circulating water interface.

10. The three-in-one radiator as claimed in claim 8, wherein the water tank is further provided with a water through hole, a water filling port, a water discharging port and a sensor interface, and the water tank is communicated with the second water-cooling cavity through the water through hole.

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