CN211623543U - High-efficiency heat-dissipation intercooler - Google Patents

Abstract

The utility model relates to a high-efficient heat dissipation intercooler, it includes the cooling tube, the intake pipe with cooling tube one end intercommunication, the blast pipe with the cooling tube other end intercommunication, the cooling tube is equipped with many and parallel of each other, the intake pipe top is equipped with the air inlet, the blast pipe top is equipped with the gas vent, intake pipe and blast pipe parallel arrangement, the cooling tube is all perpendicular with intake pipe and blast pipe, many cooling tubes are equallyd divide into two vertical rows and set up, two vertical rows of cooling tube parallel arrangement, the crisscross distribution of cooling tube of two vertical rows of each other, the outer wall connection of cooling tube is. Because the cooling tube sets up to the volume vertical row, has increased the interval between the adjacent cooling tube, is convenient for dispel the heat, and because the crisscross distribution of cooling tube of two vertical rows, the cooling tube that comes to one side near cold wind can not stop cold wind to blow to keeping away from cold wind and coming to the cooling tube of one side, guarantees that all cooling tubes can both fully dispel the heat, consequently the utility model discloses have the radiating efficiency height, the good effect of radiating effect.

Description

High-efficiency heat-dissipation intercooler

Technical Field

The utility model belongs to the technical field of indirect heating equipment's technique and specifically relates to a high-efficient heat dissipation intercooler is related to.

Background

In the working process of the automobile supercharged engine, the air compressor compresses air entering an air inlet channel, the molecular potential energy of the air is converted into internal energy, the temperature is increased, and an intercooler is required to be arranged in an air inlet system of the supercharged engine in order to prevent high-temperature gas from entering a cylinder to cause abnormal combustion. When the automobile cooling device is used, high-temperature gas is discharged from the gas compressor and enters the intercooler, and the fan in the automobile vertically blows cold air to the intercooler, so that the high-temperature gas is cooled. The intercooler reduces the temperature of the high-temperature gas to a proper value before the high-temperature gas enters the engine, so that the engine can normally work conveniently.

Chinese patent with publication number CN207004644U discloses an intercooler, including the core and set up in the air chamber of core both sides, the core includes the frame, and is fixed in a plurality of cooling tubes on the frame are filled with the heat dissipation area between the adjacent cooling tube, are formed with the cavity in the air chamber, and the lateral part of cavity is provided with the air inlet, and the inside of cavity is provided with the baffle, and the bottom of cavity is provided with the leakage fluid dram, and the leakage fluid dram is installed and is sealed the leakage fluid valve of air chamber. During the use, the baffle can be with the bottom of the sedimentary impurity (like water, oil etc.) water conservancy diversion of intercooler inside part to air chamber, opens the flowing back valve, and impurity can be discharged through the leakage fluid dram that the bottom set up, has avoided participating in the burning of engine after the impurity gasification to the combustion environment of engine has been improved.

The above prior art solutions have the following drawbacks: because the cooling tube all sets up at the coplanar, the interval between the adjacent cooling tube is less, and the heat is difficult to disperse after the cooling tube transmission, can influence the radiating effect of cooling tube to it is not good to lead to the intercooler radiating effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a with high-efficient heat dissipation intercooler, have the effect that the radiating efficiency is high, the radiating effect is good not enough to prior art exists.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a high-efficient heat dissipation intercooler, includes the cooling tube, with the intake pipe of cooling tube one end intercommunication, with the blast pipe of cooling tube other end intercommunication, the cooling tube is equipped with many and parallel of each other, the intake pipe top is equipped with the air inlet, the blast pipe top is equipped with the gas vent, intake pipe and blast pipe parallel arrangement, the cooling tube is all perpendicular with intake pipe and blast pipe, many cooling tubes are equallyd divide into two vertical rows and set up, two vertical rows cooling tube parallel arrangement, two vertical rows's cooling tube crisscross distribution of each other, the outer wall connection of cooling tube is equipped with a plurality of radiating fin.

Through adopting above-mentioned technical scheme, during the use, high-temperature gas gets into the intake pipe from the air inlet, then gets into the cooling tube, and the cold wind that the fan in the car blew off blows off is vertical blows to the cooling tube, cools off the high-temperature gas in the cooling tube. Due to the arrangement of the first radiating fins, heat in the radiating pipes can be transferred out of the radiating pipes more easily; because the radiating pipes are arranged into two rows, the space between two adjacent radiating pipes is increased, and the heat can be conveniently transmitted out of the radiating pipes and then radiated; because two rows of cooling tubes crisscross setting each other, the cooling tube that comes to one side near cold wind can not block cold wind, guarantees that every cooling tube can both fully dispel the heat, and the back that finishes is cooled off to high-temperature gas, gets into the blast pipe and discharges the intercooler from the gas vent. To sum up, the heat dissipation device has the effects of high heat dissipation efficiency and good heat dissipation effect.

The present invention may be further configured in a preferred embodiment as: the cross-section of cooling tube is the rectangle, the great lateral wall vertical setting of cooling tube area.

Through adopting above-mentioned technical scheme, cold wind can directly blow to the great lateral wall of cooling tube area to can improve the radiating effect of cooling tube.

The present invention may be further configured in a preferred embodiment as: the first radiating fins are arranged on the four sides of the radiating pipe.

Through adopting above-mentioned technical scheme, can improve the radiating effect of cooling tube.

The present invention may be further configured in a preferred embodiment as: the first radiating fin is perpendicular to the length direction of the radiating pipe.

Through adopting above-mentioned technical scheme, avoided the blockking of a pair of cold wind of radiating fin, the cooling tube of keeping away from cold wind to one side is come to the cold wind of being convenient for to blow, has guaranteed to keep away from the radiating effect that cold wind comes to the cooling tube of one side.

The present invention may be further configured in a preferred embodiment as: the radiating pipe is characterized in that a plurality of baffle plates are arranged on the inner wall of the radiating pipe and are evenly divided into two rows, the two rows of baffle plates are respectively arranged on the two opposite inner walls of the radiating pipe, the two rows of baffle plates are arranged in a staggered mode, a gap is reserved between each baffle plate and the inner wall parallel to the inner wall where the baffle plate is located, and two sides of each baffle plate are respectively attached to the two inner walls perpendicular to the inner wall where the baffle plate is located.

Through adopting above-mentioned technical scheme, the route that passes through when having prolonged high-temperature gas and passing the cooling tube to it is more abundant to make high-temperature gas cooling.

The present invention may be further configured in a preferred embodiment as: the plane where the flow equalizing plate is located is parallel to the two vertical radiating pipes and is located in the middle position between the two vertical radiating pipes.

By adopting the technical scheme, the high-temperature gas entering the two vertical rows of radiating pipes is ensured to be uniform, so that the radiating effect of the high-temperature gas is better.

The present invention may be further configured in a preferred embodiment as: a plurality of heat dissipation rods are inserted in the air inlet pipe and are uniformly divided into two vertical rows, and the two vertical rows of heat dissipation rods are respectively located on two sides of the flow equalizing plate.

Through adopting above-mentioned technical scheme, the heat dissipation stick can dispel the heat to the high-temperature gas in the admission pipe, has the effect that improves the radiating efficiency.

The present invention may be further configured in a preferred embodiment as: and each heat dissipation rod is sleeved with a plurality of second heat dissipation fins.

Through adopting above-mentioned technical scheme, can further improve the radiating effect to the interior high-temperature gas of intake pipe.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the utility model has the advantages that the space between the adjacent radiating tubes can be increased by arranging the two vertical rows of radiating tubes which are staggered mutually, so that the heat of high-temperature gas in the radiating tubes can be conveniently emitted, and the radiating device has the effects of high radiating efficiency and good radiating effect;

2. the utility model can prolong the stay time of the high-pressure gas in the heat-radiating pipe by arranging the baffle plate, and has the function of improving the heat-radiating efficiency and effect;

3. the utility model discloses a set up heat dissipation stick and radiating fin two, can dispel the heat to the high-temperature gas in the inlet tube, have the effect that improves radiating efficiency and radiating effect.

Drawings

Fig. 1 is a schematic diagram of an overall structure for embodying the present invention in the embodiment.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an enlarged view of a portion B in fig. 1.

Fig. 4 is a schematic view for embodying the baffle structure in the embodiment.

FIG. 5 is a schematic diagram of a flow equalizing plate structure according to an embodiment.

In the figure, 1, a radiating pipe; 2. an air inlet pipe; 3. an exhaust pipe; 4. an air inlet; 5. an exhaust port; 6. a first heat dissipation fin; 7. a baffle plate; 8. a flow equalizing plate; 9. a heat dissipation rod; 10. and a second heat dissipation fin.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b): referring to fig. 1 and 2, for the utility model discloses a high-efficient heat dissipation intercooler, including the intake pipe 2 that is used for admitting air, be used for radiating cooling tube 1, be used for carminative blast pipe 3. Intake pipe 2 and blast pipe 3 are square pipe, intake pipe 2 with blast pipe 3 weld respectively at the both ends of cooling tube 1 and with cooling tube 1 intercommunication, intake pipe 2 and 3 parallel arrangement of blast pipe, air inlet 4 has been seted up on the top of intake pipe 2, gas vent 5 has been seted up on the top of blast pipe 3, the bottom of intake pipe 2 and the bottom of blast pipe 3 are all sealed, cooling tube 1 is equipped with many and parallel of each other between intake pipe 2 and blast pipe 3, cooling tube 1 is all perpendicular with intake pipe 2 and blast pipe 3. During the use, high-temperature gas gets into intake pipe 2 from air inlet 4, then gets into cooling tube 1, and the inside fan of car blows cold wind from one side of cooling tube 1 to cooling tube 1, dispels the heat to the high-temperature gas in cooling tube 1 and cools off, and the gas after the cooling gets into 3 exhaust pipes of following gas vent 5 discharges.

Referring to fig. 1 and 2, the radiating pipe 1 is equally divided into two vertical rows, the two vertical rows of radiating pipes 1 are arranged in parallel, the two vertical rows of radiating pipes 1 are distributed in a mutually staggered manner, and a plurality of radiating fins 6 are welded on the outer wall of the radiating pipe 1. After the high-temperature inlet air enters the radiating pipe 1 from the air inlet pipe 2, the first radiating fin 6 is helpful for transferring the heat of the high-temperature inlet air out of the radiating pipe 1; because the radiating pipes 1 are uniformly divided into two vertical rows, the distance between the adjacent radiating pipes 1 is increased, and heat is easier to radiate; because the two vertical radiating pipes 1 are arranged in a staggered manner, the radiating pipe 1 close to one side of the fan cannot block cold air from blowing to the radiating pipe 1 far away from the side of the fan, so that each radiating pipe 1 can be directly blown by the cold air, and the radiating effect of the radiating pipe 1 is ensured; to sum up, through the above setting, this intercooler has the effect that the radiating efficiency is high, the radiating effect is good.

Referring to fig. 2, the radiating pipe 1 has a rectangular cross section, and the side wall of the radiating pipe 1 having a large area is vertically disposed. Through the above arrangement, the direct contact area between the cold air and the radiating pipe 1 when the cold air blows to the radiating pipe 1 is large, so that the radiating effect and the radiating efficiency of high-temperature gas in the radiating pipe 1 can be improved.

Referring to fig. 2, a first radiating fin 6 is disposed on four sides of the radiating pipe 1, so that high-temperature gas in the radiating pipe 1 can radiate heat from each position of the radiating pipe 1, the radiating effect of each position of the radiating pipe 1 is ensured to be the same, and the radiating efficiency and the radiating effect are improved.

Referring to fig. 2, the first heat dissipation fins 6 are perpendicular to the length direction of the first heat dissipation pipe 1, so that the cold air can pass through the gaps of the first heat dissipation fins 6, and the cold air can blow towards the first heat dissipation pipe 1 far away from one side of the fan, thereby ensuring the heat dissipation efficiency and the heat dissipation effect of the first heat dissipation pipe 1 far away from one side of the fan.

Referring to fig. 4, the inner wall of the radiating pipe 1 is welded with a plurality of baffle plates 7, the baffle plates 7 are equally divided into two rows, and are respectively welded on the upper inner wall and the lower inner wall of the radiating pipe 1, the two rows of baffle plates 7 are arranged in a staggered manner, a gap is left between the baffle plates 7 and the inner wall parallel to the inner wall where the baffle plates are located, and the vertical edges of the baffle plates 7 are attached to the two vertical inner walls of the radiating pipe 1. Owing to set up baffling board 7, high-temperature gas is when passing cooling tube 1, can't pass along straight line level, consequently prolonged the moving path of high-temperature gas in cooling tube 1, increased the dwell time of high-temperature gas in cooling tube 1 to it is more abundant to make high-temperature gas dispel the heat in cooling tube 1, has improved the radiating effect.

Referring to fig. 5, when high temperature gas enters the radiating pipe 1 through the inlet pipe 2, the amount of gas in the two vertical radiating pipes 1 may be unevenly distributed, thereby being unfavorable for the radiating pipe 1 to exert the best cooling effect. In order to solve the above problems, a flow equalizing plate 8 is disposed in the air inlet pipe 2, the flow equalizing plate 8 is vertically disposed, two vertical sides of the flow equalizing plate 8 are welded to the inner wall of the air inlet pipe 2, and a plane where the flow equalizing plate 8 is located is parallel to the two vertical rows of radiating pipes 1 and is located at a middle position between the two vertical rows of radiating pipes 1. Because the flow equalizing plate 8 is arranged, high-temperature gas can be uniformly distributed on two sides of the flow equalizing plate 8 after entering the air inlet pipe 2, and the quantity of gas entering the two vertical radiating pipes 1 is ensured to be the same, so that the radiating pipes 1 can exert the best cooling effect, and the heat radiating efficiency and the heat radiating effect are improved.

Referring to fig. 5, a plurality of heat dissipation rods 9 are inserted into the air inlet pipe 2, the joints between the heat dissipation rods 9 and the pipe wall of the air inlet pipe 2 are welded and sealed to prevent air leakage of the air inlet pipe 2, and the heat dissipation pipe 1 is horizontally arranged and uniformly divided into two vertical rows which are respectively distributed on two sides of the flow equalizing plate 8. The heat dissipation rod 9 can dissipate heat of high-temperature gas in the gas inlet pipe 2, so that the high-temperature gas can start to dissipate heat after entering the gas inlet pipe 2, and the heat dissipation efficiency can be improved.

Referring to fig. 5, each heat dissipation rod 9 is sleeved with a plurality of second heat dissipation fins 10, and the second heat dissipation fins 10 are welded on the heat dissipation rods 9. The second radiating fin 10 can facilitate the radiating of the radiating rod 9, so that the radiating efficiency and the radiating effect of high-temperature gas in the gas inlet pipe 2 can be improved.

The implementation principle of the embodiment is as follows: high-temperature gas enters the gas inlet pipe 2 from the gas inlet 4 and is primarily radiated through the radiating rods 9 and the second radiating fins 10; then get into the cooling tube 1 after 8 flow equalizes through the flow equalizing plate, dispel the heat through two 10 radiating fins, the cold wind that the fan blew off simultaneously blows to the 1 heat dissipation of 1 help cooling tube of cooling tube, because cooling tube 1 is equipped with two vertical rows, consequently, the clearance between cooling tube 1 is great, the heat of being convenient for gives off, and two vertical rows's cooling tube 1 crisscross settings of each other, consequently, cooling tube 1 that is close to fan one side can not stop the cold wind and blows to the cooling tube 1 of keeping away from fan one side, guarantee that every cooling tube 1 can both fully contact with cold wind, the radiating effect is. To sum up, the utility model has the advantages of the radiating efficiency is high, the radiating effect is good.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a high-efficient heat dissipation intercooler, includes cooling tube (1), intake pipe (2) with cooling tube (1) one end intercommunication, blast pipe (3) with cooling tube (1) other end intercommunication, cooling tube (1) is equipped with many and parallel of each other, intake pipe (2) top is equipped with air inlet (4), blast pipe (3) top is equipped with gas vent (5), intake pipe (2) and blast pipe (3) parallel arrangement, cooling tube (1) are all perpendicular with intake pipe (2) and blast pipe (3), its characterized in that: many cooling tubes (1) are equallyd divide into two and are erected the row setting, two are erected row cooling tube (1) parallel arrangement, two are erected the crisscross distribution of cooling tube (1) of row each other, the outer wall connection of cooling tube (1) is equipped with a plurality of radiating fin (6).

2. The intercooler of claim 1, wherein: the cross section of the radiating pipe (1) is rectangular, and the side wall with the large area of the radiating pipe (1) is vertically arranged.

3. The intercooler of claim 2, wherein: the first radiating fins (6) are arranged on the four sides of the radiating pipe (1).

4. The intercooler of claim 3, wherein: the first radiating fins (6) are perpendicular to the length direction of the radiating pipe (1).

5. The intercooler of claim 1, wherein: the radiating pipe is characterized in that a plurality of baffle plates (7) are arranged on the inner wall of the radiating pipe (1), the baffle plates (7) are uniformly divided into two rows, the two rows of baffle plates (7) are respectively arranged on the two opposite inner walls of the radiating pipe (1), the two rows of baffle plates (7) are arranged in a mutually staggered mode, a gap is reserved between each baffle plate (7) and the inner wall parallel to the inner wall where the baffle plate is located, and two sides of each baffle plate (7) are respectively attached to the two inner walls perpendicular to the inner wall where the baffle plate is located.

6. The intercooler of claim 1, wherein: be equipped with flow equalizing plate (8) in intake pipe (2), the plane at flow equalizing plate (8) place is parallel with two vertical rows cooling tube (1) and is located the intermediate position between two vertical rows cooling tube (1).

7. The intercooler of claim 6, wherein: a plurality of radiating rods (9) are inserted in the air inlet pipe (2), the radiating rods (9) are uniformly divided into two vertical rows, and the two vertical rows of radiating rods (9) are respectively positioned on two sides of the flow equalizing plate (8).

8. The intercooler of claim 7, wherein: and each heat dissipation rod (9) is sleeved with a plurality of second heat dissipation fins (10).

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