CN208778087U - A kind of integrated form high-low temperature radiator - Google Patents

Abstract

The utility model discloses a kind of integrated form high-low temperature radiators, intake antrum and water chamber including being set to air movement direction two sides, along air movement direction, the intake antrum and water chamber are divided into the low-temperature space of front side and the high-temperature region of rear side along the vertical direction respectively；By multiple heat-dissipating pipe connections disposed in parallel between intake antrum and the low-temperature space of water chamber, multiple heat dissipation channels for running through radiator along air inlet direction equally are formed by multiple heat-dissipating pipe connections disposed in parallel between intake antrum and the high-temperature region of water chamber.The advantages of integrated radiator, is before and after a kind of high/low temperature provided by the utility model: by the way that the inlet and outlet pipe lines of high/low temperature are integrated into disengaging water chamber, save the space of connection high-low temperature radiator, improve assembly efficiency, reduce the usage amount of part, to reduce cost and product weight, the heat dissipation area of heat-radiation belt is increased by the way that shutter is arranged, radiating efficiency is improved, there is good promotion prospect.

Description

A kind of integrated form high-low temperature radiator

Technical field

The utility model relates to vehicle radiator technical field more particularly to a kind of integrated form high-low temperature radiators.

Background technique

The main function of automobile high temperature heat sink and low-temperature radiator is respectively the temperature for reducing engine and motor, is made Low-temperature radiator and high temperature heat sink are kept being connected to by the used time with corresponding water tank respectively, when air passes through radiator and radiator In water occur heat exchange take away heat.According to vehicle behaviour in service, the operating temperature of high temperature heat sink is generally 80 DEG C --- 120 DEG C, and the operating temperature of low-temperature radiator is generally 45 DEG C --- 65 DEG C.Because performance requirement and applying working condition is different It causes, used conventional design is substantially the high temperature and low-temperature radiator for separately designing a plastic-aluminum structure, then allows sky respectively Gas passes through corresponding radiator, or so that air is first passed through low-temperature radiator after two radiators are connected and radiate using high temperature Device.

But such design can waste more spaces, increase vehicle volume, use when connecting high-low temperature radiator Part category and quantity are more, assembly efficiency is poor, at high cost.And the designer trends of automobile cooling module will be modularization, general Change, lightweight and cost declining.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of integrated form that can reduce volume and weight is high Low-temperature radiator.

The utility model is to solve above-mentioned technical problem by the following technical programs:

A kind of integrated form high-low temperature radiator, intake antrum and water chamber including being set to air movement direction two sides, edge Air movement direction, the intake antrum and water chamber are divided into the low-temperature space of front side and the high temperature of rear side along the vertical direction respectively Area；

Pass through multiple heat-dissipating pipe connections disposed in parallel, intake antrum and water chamber between intake antrum and the low-temperature space of water chamber High-temperature region between equally by multiple heat-dissipating pipes disposed in parallel connections, formed and multiple run through radiator along air inlet direction Heat dissipation channel.

Preferably, it is provided between the heat-dissipating pipe and is covered with heat dissipation channel heat-radiation belt wave-shaped, the heat-radiation belt is most High point and minimum point are directly contacted with two heat-dissipating pipes of two heat-dissipating pipes of low-temperature space and high-temperature region respectively, and heat-radiation belt will radiate Channel partition is multiple heat dissipation subchannels.

Preferably, inclined screen is provided with along air-flow direction, the fin of the heat dissipation subchannel two sides to be formed Multiple shutters.

Preferably, the heat-dissipating pipe is horizontally disposed, and the opposite face of adjacent heat-dissipating pipe is level along the vertical direction Face.

Preferably, the intake antrum is fixedly connected by side plate respectively with the upper and lower ends of water chamber.

Preferably, the low-temperature space of the intake antrum and high-temperature region are connected separately with low temperature water inlet pipe and high-temperature inlet water pipe；Institute The low-temperature space and high-temperature region for stating water chamber are connected separately with low temperature outlet pipe and high-temperature water outlet pipe.

Preferably, the opposite face of the low-temperature space and high-temperature region of the intake antrum and water chamber is provided with along the vertical direction respectively Multiple pilot holes with heat-dissipating pipe cooperation, the heat-dissipating pipe both ends are plugged in pilot hole respectively and are connected and sealed.

Preferably, described to be tightly connected to pass through soldering connection heat-dissipating pipe and pilot hole.

Before and after a kind of high/low temperature provided by the utility model the advantages of integrated radiator, is: by by high/low temperature into Outlet conduit is integrated into disengaging water chamber, saves the space of connection high-low temperature radiator, improves assembly efficiency, reduce zero The usage amount of part increases the heat dissipation area of heat-radiation belt by the way that shutter is arranged, improves to reduce cost and product weight Radiating efficiency has good promotion prospect.

Detailed description of the invention

Fig. 1 is the schematic diagram of integrated form high-low temperature radiator provided by the embodiments of the present invention；

Fig. 2 is the partial enlarged view of B location in Fig. 1；

Fig. 3 is the partial enlarged view of location A in Fig. 1；

Fig. 4 is the schematic diagram of the heat-radiation belt of integrated form high-low temperature radiator provided by the embodiments of the present invention.

Specific embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below in conjunction with specific embodiment, and Referring to attached drawing, the utility model is described in further detail.

As shown in Figure 1, a kind of integrated form high-low temperature radiator, the intake antrum 1 including being set to air inlet direction two sides With water chamber 2, along air inlet direction, the intake antrum 1 and water chamber 2 are divided into the low temperature of front side along the vertical direction respectively The high-temperature region (not shown) of area's (not shown) and rear side, in conjunction with Fig. 2, between intake antrum 1 and the low-temperature space of water chamber 2 and high-temperature region Between be connected to respectively by multiple heat-dissipating pipes 3 for being parallel to each other, multiple heat-dissipating pipes 3 are formed multiple to be passed through along air inlet direction Wear the heat dissipation channel (not shown) of radiator.

Referring again to Fig. 1, the low-temperature space of the intake antrum 1 and high-temperature region be respectively arranged with low temperature water inlet pipe 11 and high temperature into Water pipe 12, the low-temperature space of water chamber 2 and high-temperature region are respectively arranged with low temperature outlet pipe 21 and high-temperature water outlet pipe 22.

After integrated form high-low temperature radiator provided in this embodiment is set to vehicle air-inlet grille when in use, by low temperature Water inlet pipe 11 and low temperature outlet pipe 21 are connected to the low temperature water tank for cooling down the equipment such as motor respectively；By high-temperature inlet water pipe 12 and high temperature Outlet pipe 22 is connected to the high-temperature water tank for cooling down the equipment such as engine respectively；The intake antrum 1 and water chamber 2 pass through heat dissipation respectively Pipe 3 is connected to, and air first passes through the heat-dissipating pipe 3 of connection low-temperature space and pneumatic liquid carries out heat exchange and takes away partial heat, then passes through The heat-dissipating pipe 3 for crossing connection high-temperature region takes away the partial heat of liquid, to realize the purpose of heat dissipation.

In conjunction with Fig. 2 and Fig. 4, the opposite face of the high-temperature region and low-temperature space of the intake antrum 1 and water chamber 2 is respectively along vertical side To multiple pilot holes 31 cooperated with heat-dissipating pipe 3 are provided with, 3 both ends of heat-dissipating pipe are plugged in pilot hole 31 respectively and pass through Soldering is connected and sealed.In preferred embodiment, the heat-dissipating pipe 3 is horizontally disposed, along the vertical direction adjacent heat dissipation The opposite face of pipe 3 is horizontal plane.With reference to Fig. 2, the cross section of heat-dissipating pipe 3 described in preferred embodiment is waist-shaped hole structure, in order to Increase its intensity, the support plate 32 for being used to support its horizontal plane is additionally provided in heat-dissipating pipe 3.

In conjunction with Fig. 3, in order to increase radiating efficiency, it is additionally provided with that be covered with heat dissipation channel wave-shaped between the heat-dissipating pipe 3 Heat-radiation belt 4, two heat dissipations with two heat-dissipating pipes 3 of low-temperature space and high-temperature region respectively of the wave crest and trough of the heat-radiation belt 4 Pipe 3 directly contacts, to conducting the heat in heat-dissipating pipe 3 into heat-radiation belt 4, heat dissipation channel is divided into multiple by heat-radiation belt 4 Radiate subchannel (not shown), when air is by heat dissipation subchannel, comes into full contact with heat-radiation belt 4 and takes away heat, improve heat dissipation Effect.

In conjunction with Fig. 4, in preferred embodiment, along air inlet direction, the fin (not shown) of the heat dissipation subchannel two sides On be provided with inclined screen 41 to form multiple shutter (not shown), further increase connecing for air and heat-radiation belt 4 Contacting surface product, improves radiating efficiency.

The heat-dissipating pipe 3 and heat-radiation belt 4 are preferably made of good materials of thermal conductivity such as metals.

Referring again to Fig. 1, the intake antrum 1 passes through side plate 5 with the upper and lower ends of water chamber 2 respectively and is fixedly connected, thus will Integrated form high-low temperature radiator is integrally fixed structure, is easily installed and fixes.

Particular embodiments described above has carried out into one the purpose of this utility model, technical scheme and beneficial effects Step is described in detail, it should be understood that the foregoing is merely specific embodiment of the utility model, are not limited to this reality With novel, under the premise of not departing from the spirit and principles of the utility model, those of ordinary skill in the art are to the utility model Any modification, equivalent substitution, improvement and etc. done, should all fall into the utility model claims book determine protection scope it It is interior.

Claims (8)

1. a kind of integrated form high-low temperature radiator, it is characterised in that: including be set to air movement direction two sides intake antrum and Water chamber, along air movement direction, the intake antrum and water chamber be divided into along the vertical direction respectively front side low-temperature space and The high-temperature region of rear side；

Pass through multiple heat-dissipating pipe connections disposed in parallel, the height of intake antrum and water chamber between intake antrum and the low-temperature space of water chamber Multiple dissipating through radiator along air inlet direction equally are formed by multiple heat-dissipating pipe connections disposed in parallel between warm area The passage of heat.

2. a kind of integrated form high-low temperature radiator according to claim 1, it is characterised in that: be arranged between the heat-dissipating pipe Have and be covered with heat dissipation channel heat-radiation belt wave-shaped, the heat-radiation belt highs and lows radiate with two of low-temperature space respectively Pipe and two heat-dissipating pipes of high-temperature region directly contact, and heat dissipation channel is divided into multiple heat dissipation subchannels by heat-radiation belt.

3. a kind of integrated form high-low temperature radiator according to claim 2, it is characterised in that: along air-flow direction, institute It states and is provided with inclined screen on the fin of heat dissipation subchannel two sides and forms multiple shutters.

4. a kind of integrated form high-low temperature radiator according to claim 1, it is characterised in that: the heat-dissipating pipe is along level side To setting, the opposite face of adjacent heat-dissipating pipe is horizontal plane along the vertical direction.

5. a kind of integrated form high-low temperature radiator according to claim 1, it is characterised in that: the intake antrum and water chamber Upper and lower ends be fixedly connected respectively by side plate.

6. a kind of integrated form high-low temperature radiator according to claim 1, it is characterised in that: the low-temperature space of the intake antrum Low temperature water inlet pipe and high-temperature inlet water pipe are connected separately with high-temperature region；The low-temperature space of the water chamber and high-temperature region are connected separately with Low temperature outlet pipe and high-temperature water outlet pipe.

7. a kind of integrated form high-low temperature radiator according to claim 1, it is characterised in that: the intake antrum and water chamber Low-temperature space and the opposite face of high-temperature region be provided with the pilot holes of multiple cooperations with heat-dissipating pipe, the heat dissipation along the vertical direction respectively Pipe both ends are plugged in pilot hole respectively and are connected and sealed.

8. a kind of integrated form high-low temperature radiator according to claim 7, it is characterised in that: described to be tightly connected to pass through Soldering connection heat-dissipating pipe and pilot hole.