CN206471452U - A kind of cold pipeline configuration of radiator liquid - Google Patents

Abstract

The utility model discloses a kind of cold pipeline configuration of radiator liquid, including the cold pipeline of liquid, coolant, some first dividing plates and some second partitions；The cold pipeline of liquid includes side wall and enclosed by side wall to set the through hole formed, and the one side that side wall is located in through hole is inwall, and inwall includes the first inwall and is connected with the first inwall and the second relative inwall；The two ends of through hole are respectively equipped with inlet and liquid outlet；First dividing plate and second partition are contained in through hole, and the first dividing plate is fixed on the first inwall of the cold pipeline of liquid, and second partition is fixed on the second inwall of the cold pipeline of liquid；There is the first gap between first dividing plate and the second inwall, there is the second gap between second partition and the first inwall；Coolant flows from through hole of the inlet through the cold pipeline of liquid to liquid outlet direction.The utility model beneficial effect is：Set up the first dividing plate and second partition, change the flow path of coolant, reach that cooling effectiveness is high, chilling temperature is uniform and constitutionally stable effect.

Description

A kind of cold pipeline configuration of radiator liquid

【Technical field】

The utility model is related to battery pack field of radiating, more particularly to a kind of cold pipeline configuration of radiator liquid.

【Background technology】

With popularizing for electric automobile, the demand for high voltage, the power battery pack of high power capacity is also all with day Increase.Because power battery pack operating current is very big, amount of heat can be produced in use, in order to ensure battery performance and The stability of structure to battery pack, it is necessary to cool.Conventional and more effective method is to battery using liquid cooling heat radiator Group is cooled.But, the cold pipeline of liquid of traditional liquid cooling heat radiator is the cylindrical tube with through hole, is had the disadvantage that：1st, liquid Coolant flow paths in cold pipeline are linear pattern, and the flow path in pipeline is short, and the cooling effectiveness of coolant is low；2nd, liquid The cross section the latter half coolant of cold pipeline is kept essentially stationary, and causes the non-uniform temperature of the cold pipeline of liquid, and cooling range It is small；3rd, because without any strengthening measure, when the cold pipeline of liquid is longer, the intensity of the cold pipeline of liquid is relatively low.

In view of above drawback, is necessary to provide a kind of cold pipeline configuration of radiator liquid in fact to overcome disadvantages described above.

【Utility model content】

The purpose of this utility model is to provide a kind of cold pipeline configuration of radiator liquid, and cooling effectiveness is high, chilling temperature is uniform And Stability Analysis of Structures.

To achieve these goals, the utility model provides a kind of cold pipeline configuration of radiator liquid, including the cold pipeline of liquid, cold But liquid, some first dividing plates and some second partitions；The cold pipeline of liquid includes side wall and enclosed by the side wall to set what is formed Through hole, the side wall be located at the through hole in one side be inwall, the inwall include the first inwall and with first inwall It is connected and the second relative inwall；The two ends of the through hole are respectively equipped with inlet and liquid outlet；First dividing plate and described Second partition is contained in the through hole, and first dividing plate is fixed on the first inwall of the cold pipeline of the liquid, and described Two dividing plates are fixed on the second inwall of the cold pipeline of the liquid；Exist between first dividing plate and second inwall between first , there is the second gap between the second partition and first inwall in gap；The coolant is from the inlet through the liquid The through hole of cold pipeline flows to the liquid outlet direction.

Improve, set between two adjacent first dividing plates as one kind of the cold pipeline configuration of the utility model radiator liquid There is a second partition.

Improved as one kind of the cold pipeline configuration of the utility model radiator liquid, the cold pipeline of liquid is cylinder, described Side wall is hollow cylindrical, and first dividing plate and the second partition are semicircle；First dividing plate and described second The central axis of dividing plate and the columned cold pipeline of liquid, first dividing plate is with second partition in the cold pipeline of vertical liquid Projection one circle consistent with shape of through holes of composition in the plane of central shaft.

Improved as one kind of the cold pipeline configuration of the utility model radiator liquid, the coolant is in the cold pipeline of the liquid Flowed in through hole along first gap and second gap, and the path of flowing is in " S " type.

Improved as one kind of the cold pipeline configuration of the utility model radiator liquid, first dividing plate and the second partition Reinforcement is provided with the first inwall of the cold pipeline of the liquid and the junction of the second inwall.

Compared with prior art, the beneficial effect of the cold pipeline configuration of the utility model radiator liquid is：Set up first every Plate and second partition, change the flow path of coolant, reach that cooling effectiveness is high, chilling temperature is uniform and constitutionally stable effect Really.

【Brief description of the drawings】

Fig. 1 is the cold pipeline configuration sectional view of the utility model radiator liquid.

Fig. 2 is the cold pipeline configuration coolant flow schematic diagram of the utility model radiator liquid.

【Embodiment】

In order that the purpose of this utility model, technical scheme and advantageous effects become apparent from understanding, below in conjunction with attached Figure and embodiment, the utility model is further elaborated.It should be appreciated that described in this specification Embodiment is not intended to limit the utility model just for the sake of explaining the utility model.

As shown in figure 1, the cold pipeline configuration 100 of a kind of radiator liquid that the utility model is provided, including it is the cold pipeline 10 of liquid, cold But liquid 20 and some first dividing plates 30 and some second partitions 40.

Please reference synchronization Fig. 2, the cold pipeline 10 of liquid includes side wall 105 and being enclosed by the side wall 105 and sets formed logical Hole 106, the one side that the side wall 105 is located in the through hole 106 is inwall 107, and the inwall 107 includes the first inwall 103 And be connected with first inwall 103 and the second relative inwall 104.The through hole 106 is the logical of the coolant 20 flowing Road and the place for carrying out heat transfer.The two ends of the through hole 106 are respectively equipped with inlet 101 and liquid outlet 102, the inlet 101 be the entrance that the coolant 20 enters the through hole 106, and the typically efferent duct with liquid SAPMAC method compressor is connected；It is described Liquid outlet 102 is the outlet that the through hole 106 discharges the coolant 20, is typically connected with liquid SAPMAC method compressor input pipe. The internal diameter of the inlet 101 and the liquid outlet 102 is respectively less than or equal to the internal diameter of the cold pipeline 10 of the liquid.Present embodiment In, the cold pipeline 10 of liquid is cylinder, i.e., described side wall 105 is hollow cylindrical, and in other embodiments, the liquid is cold Pipeline 10 can also be the column of other hollow-core constructions such as prism.

First dividing plate 30 and the second partition 40 are contained in the through hole 106.The He of first dividing plate 30 The external diameter of the second partition 40 is respectively less than the internal diameter of the through hole 106 of the cold pipeline 10 of the liquid.First dividing plate 30 is fixed on On first inwall 103 of the cold pipeline 10 of liquid, and in the presence of the first gap 301 between second inwall 104.Two is adjacent Provided with a second partition 40 between first dividing plate 30, the second partition 40 is fixed on the cold pipeline 10 of the liquid On second inwall 104, and in the presence of the second gap 401 between first inwall 103.First gap 301 and described Two gaps 401 are staggered.Coolant 20 in 40 pairs of first dividing plate 30 and the second partition through hole 106 is played Barrier and the effect of drainage.First inwall 103 of first dividing plate 30 and the second partition 40 and the cold pipeline 10 of the liquid Be equipped with reinforcement 31 with the junction of the second inwall 104,31 pairs of reinforcement, first dividing plate 30 and described second every Plate 40, which is played, strengthens fixed effect, and strengthens the bulk strength of the cold pipeline 10 of the liquid.In present embodiment, described first every Plate 30 and the second partition 40 are semicircular platy structure, first dividing plate 30 and the second partition 40 with it is described The central axis of the columned cold pipeline 10 of liquid, first dividing plate 30 is with the second partition 40 in the vertical cold pipe of liquid Projection one circle consistent with shape of through holes of composition in the plane of the central shaft in road 10, so both can guarantee that the cold pipe of the liquid Coolant 20 in road 10 can fully merge, circulate, and can also control stream of the coolant 20 in the cold pipeline 10 of the liquid Speed.In other embodiments, first dividing plate 30 and the second partition 40 can also be the tabular knots beyond semicircle Structure.

The coolant 20 has antifreeze, anticorrosion, anti-boiled and the features such as scale-deposit-preventing.The coolant 20 from it is described enter Liquid mouthful 101 is entered in the through hole 106 of the cold pipeline 10 of the liquid, due to the resistance of first dividing plate 30 and the second partition 40 Every and drainage, the coolant 20 is along first gap 301 and second gap 302 to the liquid outlet 102 Direction is flowed, and flow path of the coolant 20 in the through hole 106 of the cold pipeline 10 of the liquid is in " S " type, such as Fig. 2 arrows institute Show.Compared with traditional line type flow path, advantage is：1st, through hole 106 of the coolant 20 in the cold pipeline 10 of the liquid The path length of interior flowing, contributes to the cooling effectiveness of the coolant 20 more fully to be utilized；2nd, the flowing road of " S " type Footpath, it is ensured that the coolant 20 in the cold pipeline 10 of liquid is exchanged fully, and temperature is uniform.

The cold pipeline configuration 100 of the utility model radiator liquid, sets up first dividing plate 30 and the second partition 40, changes Become the flow path of the traditional coolant 20, reach that cooling effectiveness is high, chilling temperature is uniform and constitutionally stable effect.

The utility model is not restricted to described in specification and embodiment, therefore for the personnel of familiar field For additional advantage and modification is easily achieved, therefore in the universal limited without departing substantially from claim and equivalency range Spirit and scope in the case of, the utility model is not limited to specific details, representational equipment and shown here as with retouching The examples shown stated.

Claims (5)

1. a kind of cold pipeline configuration of radiator liquid, including the cold pipeline of liquid, coolant, some first dividing plates and some second partitions, It is characterized in that：The cold pipeline of liquid includes side wall and enclosed by the side wall to set the through hole formed, and the side wall is located at described One side in through hole is inwall, and the inwall includes the first inwall and is connected with first inwall and the second relative inwall； The two ends of the through hole are respectively equipped with inlet and liquid outlet；First dividing plate and the second partition are contained in described logical In hole, first dividing plate is fixed on the first inwall of the cold pipeline of the liquid, and the second partition is fixed on the cold pipe of the liquid On second inwall in road；Between first dividing plate and second inwall exist the first gap, the second partition with it is described There is the second gap between first inwall；The coolant from through hole of the inlet through the cold pipeline of the liquid to it is described go out liquid The flowing of mouth direction.

2. the cold pipeline configuration of radiator liquid as claimed in claim 1, it is characterised in that：Between two adjacent first dividing plates Provided with a second partition.

3. the cold pipeline configuration of radiator liquid as claimed in claim 2, it is characterised in that：The cold pipeline of liquid is cylinder, institute Side wall is stated for hollow cylindrical, first dividing plate and the second partition are semicircle；First dividing plate and described The central axis of two dividing plates and the columned cold pipeline of liquid, first dividing plate is with second partition in the cold pipeline of vertical liquid Central shaft plane on projection composition one circle consistent with shape of through holes.

4. the cold pipeline configuration of radiator liquid as claimed in claim 3, it is characterised in that：The coolant is in the cold pipeline of the liquid Through hole in flowed along first gap and second gap, and the path of flowing is in " S " type.

5. the cold pipeline configuration of radiator liquid as claimed in claim 4, it is characterised in that：First dividing plate and described second every Plate is provided with reinforcement with the first inwall of the cold pipeline of the liquid and the junction of the second inwall.