CN209129730U - Integrated heat spreader and cooling system including the integrated heat spreader - Google Patents

Abstract

The utility model relates to a kind of integrated heat spreader and including the cooling system of the integrated heat spreader.The integrated heat spreader includes: radiator casing, is formed with inlet portion and outlet portion；Coolant temperature sensor, measurement flow into the cooling water temperature and output correlation signal of inlet portion；Shell is bypassed, be formed in radiator casing body and is formed with by-pass prot；Cooling water control unit is arranged in inlet portion, and selectively opens or closes inlet portion and by-pass prot；Radiator heat exchange department, is mounted on radiator casing；And exhaust unit, the top of radiator heat exchange department is set.

Description

Integrated heat spreader and cooling system including the integrated heat spreader

Technical field

The utility model relates to a kind of integrated heat spreader with flow control and degassing function and including the integrated heat dissipation The cooling system of device.

Background technique

When the temperature of cooling water in engine rises, thermostat is opened, and cooling water is in bubble detaching device and heat dissipation It is recycled in device.By the cooling cooling water of cooling fan in radiator, general cooling system is divided into atmosphere opening formula cooling system With adding pressure type cooling system.

In order to meet exhaust gas limitation and improve fuel efficiency, available engine and the engine being currently being deployed need to increase The performance of strong low pressure exhaust gas recycling (LP-EGR) cooler, high pressure exhaust gas recycling (HP-EGR) cooler, after-treatment device And capacity, and the performance for needing to enhance oil cooler, ATF heater etc., therefore the layout of cooler is extremely complex.

The content recorded in the background section is recorded to promote the understanding to the background of utility model, this Utility model can also be including being not by the content of the prior art known in those skilled in the art.

Utility model content

(1) technical problems to be solved

The purpose of the utility model is to provide a kind of integrated heat spreader with flow control and degassing function and including The cooling system of the integrated heat spreader.

(2) technical solution

Integrated heat spreader according to the present utility model may include: radiator casing, be formed with inlet portion and outlet portion；It is cold But water temperature sensor, measurement flow into the cooling water temperature and output correlation signal of the inlet portion；Shell is bypassed, is formed in described In radiator casing body and it is formed with by-pass prot；Cooling water control unit, be arranged in the inlet portion, and be selectively opened or Close the inlet portion and the by-pass prot；Radiator heat exchange department is mounted on the radiator casing；And exhaust unit, The top of the radiator heat exchange department is set.

The inlet portion can be formed in a upper lateral part of the radiator casing, and the outlet portion can be formed in described Another side lower part of radiator casing.

The cooling water control unit may include: temperature-sensitive portion, including wax；Main valve, according to the expansion of the wax, selectivity Open the inlet portion in ground；And auxiliary valve selectively blocks the by-pass prot according to the expansion of the wax.

The cooling water control unit may include: main valve, be selectively opened the inlet portion；Auxiliary valve, selectivity Ground blocks the by-pass prot；Thermostat housing, filled with wax and be configured to can be with the main valve and the auxiliary valve one Play movement；Spring flexibly supports the thermostat housing；Guide rod guides the movement of the thermostat housing；And electric heating Device transmits heat to the wax by the guide rod, and the integrated heat spreader can also include: controller, according to the cooling water The output signal of temperature sensor controls the operation of the electric heater.

The cooling water control unit may include: main valve, be selectively opened the inlet portion；Auxiliary valve, selectivity Ground blocks the by-pass prot；Operating stick, in conjunction with the main valve and the auxiliary valve；Spring flexibly supports the operating stick；With And helix tube, in conjunction with the operating stick, with the selectively moved operating stick, the integrated heat spreader can also include: Controller controls the operation of the helix tube according to the output signal of the coolant temperature sensor.

The integrated heat spreader can also include: bypass line, and the lower part for being formed in the radiator casing is dissipated with described Between hot device heat exchange department.

The exhaust unit may include the multiple partitions formed to separate bubble.

The multiple partition may include: first partition, be protrudedly formed the one side in the radiator casing；And the Two partitions are protrudedly formed the another side in the radiator casing.

The integrated heat spreader can also include: pressure cover, be formed in the radiator casing top.

The integrated heat spreader can be formed in the width direction of the radiator heat exchange department is used for flow of cooling water Multiple cooling-water ducts.

A kind of cooling system of embodiment according to the present utility model may include: engine；Multiple heat exchanger assemblies；Water Pump, Xiang Suoshu engine and the multiple heat exchanger assembly cooling water supply；And the integrated heat spreader.

The inlet portion can be connected to the engine, and the outlet portion can be connected to the water pump.

(3) beneficial effect

The integrated heat spreader of embodiment according to the present utility model and cooling system including the integrated heat spreader, Ke Yishi Existing flow control and degassing function, and structure is simple, so that the layout of engine becomes simple.

Detailed description of the invention

Fig. 1 is the block diagram of the cooling system of embodiment according to the present utility model.

Fig. 2 and Fig. 4 is the front section view of the integrated heat spreader of an embodiment according to the present utility model.

Fig. 3 and Fig. 5 is the front of the cooling water control unit of the integrated heat spreader of an embodiment according to the present utility model Cross-sectional view.

Fig. 6 is the section plan of the exhaust unit of the integrated heat spreader of an embodiment according to the present utility model.

Fig. 7 is the figure of the cooling water injection for illustrating the integrated heat spreader of an embodiment according to the present utility model.

Fig. 8 is the front cross-sectional of the cooling water control unit of the integrated heat spreader of variant embodiment according to the present utility model Figure.

Fig. 9 is the front of the cooling water control unit of the integrated heat spreader of another variant embodiment according to the present utility model Cross-sectional view.

Figure 10 and Figure 11 is the structure chart of the cooling system of embodiment according to the present utility model.

Description of symbols

1: engine 3: engine cylinder body

5: cylinder head 10: vehicle operating states signal section

12: coolant temperature sensor 14: oil temperature sensor

16: intake air temperature sensor 18: accelerator pedal position sensor

20: vehicle speed sensor 30: controller

40: integrated heat spreader 44: exhaust gas recycles (EGR) cooler

46: heater 47: oil cooler

50: water pump 51: inlet portion

53: outlet portion 54: radiator casing

55: guiding wall 56: bypass line

60: bypass shell 62: by-pass prot

70,110,130: cooling water control unit 71: wax

72: temperature-sensitive portion 74: main valve

76: auxiliary valve 77: fixed link

79: spring 90: radiator heat exchange department

92: cooling-water duct 100: exhaust unit

102: first partition 104: second partition

106: partition 108: pressure cover

112: main valve 114: auxiliary valve

115: wax 116: thermostat housing

118: spring 120: guide rod

122: electric heater 132: main valve

134: auxiliary valve 136: operating stick

138: spring 140: solenoid

Specific embodiment

In the following, the embodiments of the present invention are described in detail referring to attached drawing.

But for ease of description, the size of each component and thickness shown in figure be shown as with arbitrary size and Thickness, the utility model are not necessarily limited to as shown in the figure, also, in order to be clearly shown each section and region, by thickness Amplification indicates.

But in order to clearly demonstrate the embodiments of the present invention, the part unrelated with explanation is omitted, and entire The same or similar component is illustrated using identical appended drawing reference in specification.

In following explanation, it is to need because the title of component is identical that the title of component, which is divided into first, second etc., These components are distinguished, these components are not necessarily limited to the sequence.

Fig. 1 is the block diagram of the cooling system of embodiment according to the present utility model.

Referring to Fig.1, the cooling system of embodiment according to the present utility model includes controller 30, and the controller 30 is used for Receive the output signal of vehicle operating states signal section 10.

The controller 30 can be realized by the more than one microprocessor operated by preset program.

The cooling system of embodiment according to the present utility model includes water pump 50, and the water pump 50 can be mechanical water Pump, for example, the water pump 50 can be the variable water pump that can control delivery flow, is also possible to the electric water that revolving speed is conditioned Pump.

The controller 30 can receive the output signal of the vehicle operating states signal section 10 to control the water pump 50 Operation.

The cooling system of embodiment according to the present utility model may include the electric heater 122 or solenoid described below 140, the controller 30 can receive the output signal of the vehicle operating states signal section 10 to control the electric heater 122 or the solenoid 140 operation.

The vehicle operating states signal section 10 may include: coolant temperature sensor 12, and measurement cooling water temperature is simultaneously defeated Coherent signal out；Oil temperature sensor 14, measurement oil temperature and output correlation signal；Intake air temperature sensor 16 measures air inlet temperature Spend simultaneously output correlation signal；Accelerator pedal position sensor 18 measures the position of accelerator pedal and output correlation signal；And vehicle Fast sensor 20, measurement speed and output correlation signal.

Fig. 2 and Fig. 4 is the front section view of the integrated heat spreader of an embodiment according to the present utility model, and Fig. 3 and Fig. 5 are The front section view of the cooling water control unit of the integrated heat spreader of an embodiment according to the present utility model.

In the following, being illustrated referring to integrated heat spreader of the Fig. 2 to Fig. 5 to embodiment according to the present utility model.

The integrated heat spreader 40 of embodiment according to the present utility model includes: radiator casing 54, is formed with inlet portion 41 With outlet portion 53；Coolant temperature sensor 12, measurement flow into the cooling water temperature and output correlation signal of the inlet portion 51；It is other Road shell 60 is formed in the radiator casing 54 and is formed with by-pass prot 62；Cooling water control unit 70 is arranged described Inlet portion 51, and selectively open or close the inlet portion 51 and the by-pass prot 62；Radiator heat exchange department 90, peace Mounted in the radiator casing 54；And exhaust unit 100, the top of the radiator heat exchange department 90 is set.

The inlet portion 51 can be formed in a upper lateral part of the radiator casing 54, and the outlet portion 53 can be formed In another side lower part of the radiator casing 54.

The cooling water control unit 70 may include: temperature-sensitive portion 72, including wax 71；Main valve 74, according to the temperature-sensitive portion 72 expansion is selectively opened the inlet portion 51；And auxiliary valve 76, it is selectively blocked according to the expansion of the wax 71 The by-pass prot 62.

Fixed link 77 is installed in the radiator casing 54, a part of the fixed link 77 is inserted into the wax 71 Portion.

The main valve 74 can be flexibly supported by spring 79.

It is flowed by a small amount of cooling water of the engine 1 by the by-pass prot 62, and the heat of cooling water can be with It is passed to the wax 71 in the temperature-sensitive portion 72.

It could be formed with guiding wall 55 in the radiator casing 54, so that cooling water is to inside the integrated heat spreader 40 Flowing.

The integrated heat spreader 40 further includes the lower part for being formed in the radiator casing 54 and the radiator heat exchange Bypass line 56 between portion 90.

Cooling water by the by-pass prot 62 can be flowed by the bypass line 56 to the outlet portion 53.

Fig. 6 is the section plan of the exhaust unit of the integrated heat spreader of an embodiment according to the present utility model.

Referring to Fig. 6, the exhaust unit 100 may include multiple partitions 106 for being formed in order to separate bubble.

The multiple partition 106 may include: first partition 102, be protrudedly formed the one of the radiator casing 54 Face；And second partition 104, it is protrudedly formed the another side in the radiator casing 54.

As shown, the first partition 102 and the second partition 104 intersect to form, to increase flow of cooling water Distance, therefore due to increase bubble separation area and improve efficiency.

The inlet portion 51 can be connected to engine 1 (referring to Fig.1 0), and the outlet portion 53 can be with the water pump 50 Connection.

Hose etc. of the exhaust unit 100 due to not needing connection radiator etc., structure is simple, and component count Amount is reduced, to advantageously reduce cost.

Fig. 7 is the figure of the cooling water injection for illustrating the integrated heat spreader of an embodiment according to the present utility model.

Referring to Fig. 7, the integrated heat spreader 40 can also include the pressure cover for being formed in 54 top of radiator casing 108。

The integrated heat spreader of an embodiment according to the present utility model can open the pressure cover 108 to supplement cooling Water.

Existing engine and the engine being currently being deployed are unfavorable for cold due to the layout complexity of cooling system But water injection.

As described in Figure 7, the injection cooling water of the pressure cover 10 for being located at radiator topmost is opened, and by being located at most The exhaust unit 100 and radiator of upper end, cooling water are injected into engine export and motor inlet direction respectively.

The bypass line 56 and hair that the integrated heat spreader 40 of embodiment according to the present utility model passes through radiator lower end Motivation outlet is connected with motor inlet direction, so that cooling water injection is more smooth.

Multiple cooling waters for flow of cooling water can be formed in the width direction of the radiator heat exchange department 90 Channel 92, and pass through traveling wind or unshowned fan coolling cooling water.

Figure 10 and Figure 11 is the structure chart of the cooling system of embodiment according to the present utility model.

0 and Figure 11 referring to Fig.1, the cooling system of embodiment according to the present utility model includes: engine 1, including is started Machine cylinder body 3 and cylinder head 5；Multiple heat exchanger assemblies；Water pump 50, Xiang Suoshu engine 1 and the supply of the multiple heat exchanger assembly Cooling water；And above-mentioned integrated heat spreader 40.

The multiple heat exchanger assembly may include the heater 46 that cooling water is received by the cylinder head 5, oil cooling Device 47, and may include the cooler for recycled exhaust gas 44 that cooling water is received by the engine cylinder body 3.But the heat exchange group Part is not limited to heat exchanger assembly shown in the figure, and can also include be for a person skilled in the art apparent Various forms the heat exchanger assembly using cooling water.

The cooling system of embodiment according to the present utility model includes the integrated heat spreader 40, as shown, engine The structure of room becomes simpler, and reduces number of components and cooling water pipeline, to be conducive to distribution engine.

In the following, referring to Figure 1 to Figure 7 and Figure 10 to Figure 11 is to the behaviour of the cooling system of embodiment according to the present utility model It is illustrated.

Referring to Fig. 2, Fig. 3 and Figure 10, under the cold or Warm status of setting, the inlet portion 51 is closed by the main valve 74 It closes, and the by-pass prot 62 is opened.

Therefore, it is flowed from a part in the cooling water that the engine 1 is discharged to the multiple heat exchanger assembly, and A part of cooling water is transmitted by the by-pass prot 62 of the integrated heat spreader 40.

Therefore, the amount for flowing through the cooling water of the engine 1 is relatively fewer, thus the preheating (warm- of the engine 1 Up) can accelerate.

In the case where the water pump 50 is the variable water pump that can control delivery flow, electric water pump etc., can pass through The operation of the controller 30 is controlled such that cooling water is not flowed from the water pump 50.In this case, the control Device 30 controls the operation of the water pump 50 according to the output signal of the coolant temperature sensor 12, so as to quickly carry out The preheating of engine.

Referring to Fig. 4, Fig. 5 and Figure 11, when reaching the Warm status of setting, for example, when cooling water temperature is 100 degree or more When, the wax 71 expands, and is opened by the pent inlet portion 51 of the main valve 74, and the by-pass prot 62 passes through The auxiliary valve 76 is closed.

At this point, cooling water flows along the guiding wall 55 and passes through the cooling-water duct 92 and the exhaust unit After 100, the water pump 50 is recycled to by the outlet portion 53.

Fig. 8 is the front cross-sectional of the cooling water control unit of the integrated heat spreader of variant embodiment according to the present utility model Figure.

In the explanation of Fig. 8, to other than the structure of integrated heat spreader described above and cooling water control unit Identical structure uses identical appended drawing reference, and the repetitive description thereof will be omitted.

Cooling water control unit 110 shown in Fig. 8 includes: main valve 112, is selectively opened the inlet portion 51；It is auxiliary Valve 114 is helped, the by-pass prot 62 is selectively blocked；Thermostat housing 116, filled with wax 115 and be configured to can be with The main valve 112 and the auxiliary valve 114 move together；Spring 118 flexibly supports the thermostat housing 116；Guide rod 120, Guide the movement of the thermostat housing 116；And electric heater 122, heat is transmitted to the wax 115 by the guide rod 120, The controller 30 controls the operation of the electric heater 122 according to the output signal of the coolant temperature sensor 12.

As described above, a part of cooling water is flowed by the by-pass prot 62 under cold heat state.

Under the Warm status of setting, when the electric heater 122 is operated according to the control of the controller 30, institute The expansion of wax 115 is stated, and the inlet portion 51 is opened, so that cooling water flows through the cooling-water duct 92 and the exhaust is single Member 100.

The Warm status can be set as different according to the output signal of the vehicle operating states signal section 10.For example, When speed is fast, it is contemplated that by the cooling etc. of traveling wind, hot fiducial temperature can be set as high temperature.

Fig. 9 is the front of the cooling water control unit of the integrated heat spreader of another variant embodiment according to the present utility model Cross-sectional view.

In the explanation of Fig. 9, to other than the structure of integrated heat spreader described above and cooling water control unit Identical structure, using identical appended drawing reference, and the repetitive description thereof will be omitted.

Cooling water control unit 130 shown in Fig. 9 includes: main valve 132, is selectively opened the inlet portion 51；It is auxiliary Valve 134 is helped, the by-pass prot 62 is selectively blocked；Operating stick 136 is combined with the main valve 132 and the auxiliary valve 134； Spring 138 flexibly supports the operating stick 136；And helix tube 140, it is combined with the operating stick 136, selectively to move The operating stick 136 is moved, the controller 30 controls the helix tube according to the output signal of the coolant temperature sensor 12 140 operation.

As described above, a part of cooling water is flowed by the by-pass prot 62 under cold heat state.

Under the Warm status of setting, when the helix tube 140 is operated according to the control of the controller 30, the entrance Portion 51 is opened, so that cooling water flows through the cooling-water duct 92 and the exhaust unit 100.

The Warm status can be set as different according to the output signal of the vehicle operating states signal section 10.For example, When speed is fast, it is contemplated that by the cooling etc. of traveling wind, hot fiducial temperature can be set as high temperature.

Cooling water control unit 110,130 shown in Fig. 8 and Fig. 9 can be adapted for the utility model described above In the cooling water control unit of variant embodiment, operate etc. that the repetitive description thereof will be omitted to it.

The integrated heat spreader of embodiment according to the present utility model and cooling system including the integrated heat spreader, Ke Yishi Existing flow control and degassing function, and structure is simple, so as to so that the layout of engine becomes simple.

Bypass line is connected to radiator water channel in thermostat housing, therefore structure is simple.

Thermostat and exhaust unit are located at the upper end of radiator, therefore repair and improve with workability.

Exhaust unit is located at the top of radiator and inside has bypass line, therefore cooling water injection improves.

The utility model has the modularization that thermostat, radiator, exhaust unit and pressure cover may be implemented and substantially drops The advantage of low cost.

More than, the preferred embodiment of the utility model is illustrated, but the utility model be not limited to it is described Embodiment, including simply changed by those skilled in the art of the present invention from the embodiments of the present invention And think being had altered for equivalent range.

Claims (12)

1. a kind of integrated heat spreader characterized by comprising

Radiator casing is formed with inlet portion and outlet portion；

Coolant temperature sensor, measurement flow into the cooling water temperature and output correlation signal of the inlet portion；

Shell is bypassed, be formed in the radiator casing body and is formed with by-pass prot；

Cooling water control unit is arranged in the inlet portion, and selectively opens or closes the inlet portion and the side Through-hole；

Radiator heat exchange department is mounted on the radiator casing；And

The top of the radiator heat exchange department is arranged in exhaust unit.

2. integrated heat spreader according to claim 1, which is characterized in that

The inlet portion is formed in a upper lateral part of the radiator casing,

The outlet portion is formed in another side lower part of the radiator casing.

3. integrated heat spreader according to claim 1, which is characterized in that

The cooling water control unit includes:

Temperature-sensitive portion, including wax；

Main valve is selectively opened the inlet portion according to the expansion of the wax；And

Auxiliary valve selectively blocks the by-pass prot according to the expansion of the wax.

4. integrated heat spreader according to claim 1, which is characterized in that

The cooling water control unit includes:

Main valve is selectively opened the inlet portion；

Auxiliary valve selectively blocks the by-pass prot；

Thermostat housing filled with wax and is configured to move together with the main valve and the auxiliary valve；

Spring flexibly supports the thermostat housing；

Guide rod guides the movement of the thermostat housing；And

Electric heater transmits heat to the wax by the guide rod,

The integrated heat spreader further include:

Controller controls the operation of the electric heater according to the output signal of the coolant temperature sensor.

5. integrated heat spreader according to claim 1, which is characterized in that

The cooling water control unit includes:

Main valve is selectively opened the inlet portion；

Auxiliary valve selectively blocks the by-pass prot；

Operating stick, in conjunction with the main valve and the auxiliary valve；

Spring flexibly supports the operating stick；And

Helix tube, in conjunction with the operating stick, with the selectively moved operating stick,

The integrated heat spreader further include:

Controller controls the operation of the helix tube according to the output signal of the coolant temperature sensor.

6. integrated heat spreader according to any one of claim 1 to 5, which is characterized in that further include:

Bypass line is formed between the lower part of the radiator casing and the radiator heat exchange department.

7. integrated heat spreader according to any one of claim 1 to 5, which is characterized in that

The exhaust unit includes the multiple partitions formed to separate bubble.

8. integrated heat spreader according to claim 7, which is characterized in that

The multiple partition includes:

First partition is protrudedly formed the one side in the radiator casing；And

Second partition is protrudedly formed the another side in the radiator casing.

9. integrated heat spreader according to any one of claim 1 to 5, which is characterized in that further include:

Pressure cover is formed in the radiator casing top.

10. integrated heat spreader according to any one of claim 1 to 5, which is characterized in that

The multiple cooling-water ducts for being used for flow of cooling water are formed in the width direction of the radiator heat exchange department.

11. a kind of cooling system characterized by comprising

Engine；

Multiple heat exchanger assemblies；

Water pump, Xiang Suoshu engine and the multiple heat exchanger assembly cooling water supply；And

Integrated heat spreader according to claim 1.

12. cooling system according to claim 11, which is characterized in that

The inlet portion of radiator casing is connected to the engine, and the outlet portion of radiator casing is connected to the water pump.