CN219115237U - Integrated assembly of radiator oil cooler and warm air - Google Patents

Abstract

The utility model relates to a radiator oil cooler and warm air integrated assembly, which comprises an oil cooling part, a warm air part and a heat radiating part, wherein one side of the oil cooling part is connected with one side of the warm air part, the other side of the warm air part is connected with one side of the heat radiating part, the oil cooling part comprises a first water feeding chamber, a first water discharging chamber and an oil cooler core, the warm air part comprises a second water feeding chamber, a second water discharging chamber and a warm air core, the heat radiating part comprises a third water feeding chamber, a third water discharging chamber and a heat radiating core, the upper end and the lower end of one side of the oil cooler core are respectively connected with the upper end and the lower end of one side of the warm air core, and the upper end and the lower end of the other side of the warm air core are respectively connected with the upper end and the lower end of one side of the heat radiating core; the oil cooler core, the warm air core and the heat dissipation core are connected to form an integrated structure; the advantage is that the design structure is reasonable compact, effectively combines oil cooler, radiator, warm braw together, improves installation effectiveness, reduces the space of agricultural vehicle, simultaneously can be great reduction manufacturing cost.

Description

Integrated assembly of radiator oil cooler and warm air

Technical Field

The utility model relates to the field of agricultural vehicles, in particular to an integrated assembly of a radiator, an oil cooler and a warm air.

Background

If the radiator is installed on the agricultural vehicle, the radiator occupies a large space, and each product is installed in a waste of a lot of time, so that the efficiency is low, the oil cooler, the radiator and the warm air are combined together, the installation efficiency can be improved, the space of the agricultural vehicle is reduced, and meanwhile, the production cost is greatly reduced. How to realize the integral installation of the oil cooler, the radiator and the warm air is the technical problem to be solved at present.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the radiator oil cooler and warm air integrated assembly which is reasonable and compact in design structure, and the oil cooler, the radiator and the warm air are effectively combined together, so that the installation efficiency is improved, and the space of an agricultural vehicle is reduced.

The technical scheme of the utility model is as follows:

the utility model provides a radiator oil cooler warm braw integrative assembly, it includes the oil cooling portion, warm braw portion and radiating portion, one side of oil cooling portion connects one side of warm braw portion, one side of radiating portion is connected to the opposite side of warm braw portion, the oil cooling portion includes first upper water chamber, first lower water chamber and oil cooler core, install first upper water chamber above the oil cooler core, install first lower water chamber below the oil cooler core, install the second upper water chamber above the warm braw core, install the second lower water chamber below the warm braw core, the radiating portion includes third upper water chamber above the radiating core, install third lower water chamber below the radiating core, the upper and lower end of one side of oil cooler core is connected with the upper and lower end of warm braw core one side respectively, the upper and lower end of the other side of warm braw core is connected with the upper and lower end of radiating core one side respectively; the oil cooler core, the warm air core and the heat dissipation core are connected to form an integrated structure.

The oil cooler cores are symmetrically arranged in front and back, each oil cooler core comprises a first main sheet, a first harmonica tube, first fins and first side plates, the first main sheet is provided with an upper sheet and a lower sheet, a plurality of first harmonica tubes are arranged between the two first main sheets, the first fins are arranged between the adjacent first harmonica tubes, two first side plates are also arranged between the two first main sheets, and the two first side plates are respectively shielded on the outer sides of the two outermost first harmonica tubes; the first water feeding chamber is arranged on the first main sheets at the upper ends of the two groups of oil cooler cores in a sealing manner, and the first water discharging chamber is arranged below the first main sheets at the lower ends of the two groups of oil cooler cores in a sealing manner;

the two groups of heating cores are symmetrically arranged in front and back, each group of heating cores comprises a second main sheet, a second harmonica tube, second fins and second side plates, the second main sheet is provided with an upper piece and a lower piece, a plurality of second harmonica tubes are arranged between the two second main sheets, second fins are arranged between the adjacent second harmonica tubes, two second side plates are also arranged between the two second main sheets, the two second side plates are respectively shielded on the outer sides of the two second harmonica tubes at the outermost side, a second upper water chamber is arranged on the second main sheets at the upper ends of the two groups of heating cores in a sealing mode, and a second lower water chamber is arranged below the second main sheets at the lower ends of the two groups of heating cores in a sealing mode;

the heat dissipation cores are designed to be arranged in a front-back symmetrical mode, each heat dissipation core comprises a third main sheet, third harmonica tubes, third fins and third side plates, the third main sheet is designed to be provided with an upper main sheet and a lower main sheet, a plurality of third harmonica tubes are arranged between the two third main sheets, third fins are arranged between the adjacent third harmonica tubes, two third side plates are arranged between the two third main sheets, the two third side plates are respectively shielded on the outer sides of the two third harmonica tubes at the outermost sides, a third upper water chamber is arranged on the third main sheets at the upper ends of the two heat dissipation cores in a sealing mode, and a third lower water chamber is arranged below the third main sheets at the lower ends of the two heat dissipation cores in a sealing mode;

one side of the first main sheet is welded with one side of the adjacent second main sheet at the corresponding side, and the other side of the second main sheet is welded with one side of the adjacent third main sheet at the corresponding side.

The inner sides of the first main sheets at the upper ends of the two groups of oil cooler cores are welded and connected, and the inner sides of the first main sheets at the lower ends of the two groups of oil cooler cores are welded and connected;

the inner sides of the second main sheets at the upper ends of the two groups of warm air cores are welded and connected, and the inner sides of the second main sheets at the lower ends of the two groups of warm air cores are welded and connected;

and the inner sides of the third main sheets at the upper ends of the two groups of radiating cores are welded and connected, and the inner sides of the third main sheets at the lower ends of the two groups of radiating cores are welded and connected.

The side plates at the inner sides of the two groups of oil cooler cores are welded and connected with the side plates of the warm air cores adjacent to the corresponding sides; and the side plates at the other sides of the two groups of warm air cores are welded with the side plates at the inner sides of the heat dissipation cores at the corresponding sides.

The upper end first main sheets of the two groups of oil cooler cores are welded and connected, and the lower end first main sheets of the two groups of oil cooler cores are welded and connected;

the upper end second main sheets of the two groups of warm air cores are welded and connected, and the lower end second main sheets of the two groups of warm air cores are welded and connected;

and the third main sheets at the upper ends of the two groups of radiating cores are welded and connected, and the third main sheets at the lower ends of the two groups of radiating cores are welded and connected.

The front side of the first water feeding chamber is provided with a first water inlet pipe, and the rear side of the first water discharging chamber is provided with a first water outlet pipe;

the inside of the second water outlet chamber is provided with a baffle, the second water outlet chamber is divided into a water inlet chamber and a water outlet chamber by the baffle, the outer side of the water inlet chamber is provided with a second water inlet pipe, and the outer side of the water outlet chamber is provided with a second water outlet pipe;

the front side design of third goes up the hydroecium and installs the third inlet tube, and the front side design of third lower hydroecium installs the third outlet pipe.

The utility model has the advantages of reasonable and compact design structure, effectively combines the oil cooler, the radiator and the warm air, improves the installation efficiency, reduces the space of the agricultural vehicle and simultaneously can greatly reduce the production cost.

Drawings

Fig. 1 is a schematic diagram of the present utility model.

Fig. 2 is a schematic diagram of the present utility model.

FIG. 3 is a schematic representation of an oil cooler core of the present utility model.

Fig. 4 is an enlarged schematic view of a portion of an oil cooler core of the present utility model.

Fig. 5 is a schematic view of a warm air core of the present utility model.

Fig. 6 is an enlarged partial schematic view of the heater core of the present utility model.

Fig. 7 is a schematic view of a heat sink according to the present utility model.

Fig. 8 is an enlarged partial schematic view of the heat sink of the present utility model.

Detailed Description

Referring to fig. 1-8, a radiator oil cooler and air heater integrated assembly comprises an oil cooling part 1, an air heating part 2 and a heat radiating part 3, wherein one side of the oil cooling part 1 is connected with one side of the air heating part 2, the other side of the air heating part 2 is connected with one side of the heat radiating part 3, the oil cooling part 1 comprises a first upper water chamber 11, a first lower water chamber 12 and an oil cooler core 13, the first upper water chamber 11 is arranged on the oil cooler core 13, the first lower water chamber 12 is arranged below the oil cooler core 13, the air heating part 2 comprises a second upper water chamber 21, a second lower water chamber 22 and an air heating core 23, the second upper water chamber 21 is arranged above the air heating core 23, the second lower water chamber 22 is arranged below the air heating core 23, the heat radiating part 3 comprises a third upper water chamber 31, a third lower water chamber 32 and a heat radiating core 33, the third upper water chamber 31 is arranged above the heat radiating core 33, the third lower water chamber 32 is arranged below the heat radiating core 33, the upper end and the lower end of one side of the oil cooler core 13 are respectively connected with the upper end and the lower end of the air core 23 on one side of the other side, and the upper end and the lower end of the air core 23 are respectively connected with the upper end and lower end of the heat radiating end of the air core 33; the oil cooler core 13, the warm air core 23, and the heat radiation core 33 are formed into an integral structure by connection.

The oil cooler cores 13 are designed to be two groups, the two groups of oil cooler cores 13 are symmetrically installed in front and back, each group of oil cooler core 13 comprises a first main sheet 131, a first mouth organ pipe 132, a first fin 133 and a first side plate 134, the first main sheet 131 is designed to be two upper and lower sheets, a plurality of first mouth organ pipes 132 are installed between the two first main sheets 131, a first fin 133 is installed between every two adjacent first mouth organ pipes 132, two first side plates 134 are also installed between the two first main sheets 131, and the two first side plates 134 are respectively covered on the outer sides of the two first mouth organ pipes 132 at the outermost side; the first upper water chamber 11 is arranged above the first main sheets 131 at the upper ends of the two groups of oil cooler cores 13 in a sealing manner, and the first lower water chamber 12 is arranged below the first main sheets 131 at the lower ends of the two groups of oil cooler cores 13 in a sealing manner;

the two groups of heating air cores 23 are designed, the two groups of heating air cores 23 are symmetrically arranged in front and back, each group of heating air cores 23 comprises a second main sheet 231, a second harmonica pipe 232, a second fin 233 and a second side plate 234, the second main sheet 231 is designed to be provided with an upper piece and a lower piece, a plurality of second harmonica pipes 232 are arranged between the two second main sheets 231, a second fin 233 is arranged between every two adjacent second harmonica pipes 232, two second side plates 234 are also arranged between the two second main sheets 231, the two second side plates 234 are respectively shielded on the outer sides of the two second harmonica pipes 232 at the outermost side, a second upper water chamber 21 is arranged on the second main sheet 231 at the upper end of the two groups of heating air cores 23 in a sealing mode, and a second lower water chamber 22 is arranged below the second main sheet 231 at the lower end of the two groups of heating air cores 23 in a sealing mode;

the heat dissipation cores 33 are designed with two groups, the two groups of heat dissipation cores 33 are symmetrically installed in front and back, each group of heat dissipation cores 33 comprises a third main piece 331, a third harmonica tube 332, a third fin 333 and a third side plate 334, the third main piece 331 is designed with an upper piece and a lower piece, a plurality of third harmonica tubes 332 are installed between the two third main pieces 331, a third fin 333 is installed between every two adjacent third harmonica tubes 332, two third side plates 334 are also installed between the two third main pieces 331, the two third side plates 334 respectively cover the outer sides of the two third harmonica tubes 332 at the outermost side, a third upper water chamber 31 is installed on the third main piece 331 at the upper end of the two groups of heat dissipation cores 33 in a sealing manner, and a third lower water chamber 32 is installed below the third main piece 331 at the lower end of the two groups of heat dissipation cores 33 in a sealing manner;

one side of the first main piece 131 is welded to one side of the second main piece 231 adjacent to the corresponding side, and the other side of the second main piece 231 is welded to one side of the third main piece 331 adjacent to the corresponding side.

The inner sides of the first main sheets 131 at the upper ends of the two groups of oil cooler cores 13 are welded and connected, and the inner sides of the first main sheets 131 at the lower ends of the two groups of oil cooler cores 13 are welded and connected; the inner sides of the second main pieces 231 at the upper ends of the two groups of warm air cores 23 are welded and connected, and the inner sides of the second main pieces 231 at the lower ends of the two groups of warm air cores 23 are welded and connected; the inner sides of the third main pieces 331 at the upper ends of the two groups of heat dissipation cores 33 are welded and connected, and the inner sides of the third main pieces 331 at the lower ends of the two groups of heat dissipation cores 33 are welded and connected.

The side plates on the inner sides of the two groups of oil cooler cores 13 are welded and connected with the side plates of the warm air cores 23 adjacent to the corresponding sides; the side plates on the other side of the two groups of warm air cores 23 are welded with the side plates on the inner side of the heat dissipation core 33 on the corresponding side.

The upper first main sheets 131 of the two groups of oil cooler cores 13 are welded and connected, and the lower first main sheets 131 of the two groups of oil cooler cores 13 are welded and connected; the upper second main pieces 231 of the two groups of warm air cores 23 are welded and connected, and the lower second main pieces 231 of the two groups of warm air cores 23 are welded and connected; the third main pieces 331 at the upper ends of the two groups of heat dissipation cores 33 are welded and connected, and the third main pieces 331 at the lower ends of the two groups of heat dissipation cores 33 are welded and connected.

A first water inlet pipe is designed and installed at the front side of the first water feeding chamber 11, and a first water outlet pipe is designed and installed at the rear side of the first water discharging chamber 12; a partition plate is arranged in the second water outlet chamber 22, the second water outlet chamber 22 is divided into a water inlet chamber and a water outlet chamber by the partition plate, a second water inlet pipe is arranged at the outer side of the water inlet chamber, and a second water outlet pipe is arranged at the outer side of the water outlet chamber; the third water inlet pipe is installed on the front side of the third water inlet chamber 31, and the third water outlet pipe is installed on the front side of the third water outlet chamber 32.

When the oil cooling part, the warm air part 2 and the heat dissipation part 3 are compactly welded and connected together by welding the first main sheet and the second main sheet and welding the second main sheet and the third main sheet, and in order to strengthen the connection relationship, the first side plate and the second side plate are welded and connected, the second side plate and the third side plate are welded and connected, and the welding connection between the adjacent side plates is strengthened; if the radiator is installed on the agricultural vehicle, the radiator occupies a large space, and each product is installed with a bright spot, so that a lot of time is wasted, the efficiency is low, the oil cooler, the radiator and the warm air are combined together, the installation efficiency can be improved, the space of the agricultural vehicle is reduced, and meanwhile, the production cost is greatly reduced. The warm air part is arranged between the oil cooling part and the heat radiating part, so that the mutual influence of the oil cooling part and the heat radiating part is reduced, and the warm air effect of the middle warm air part can be improved; after the utility model is integrally welded, mounted and formed, the utility model can be integrally mounted on an agricultural locomotive, and is convenient and quick.

Claims (6)

1. The oil cooler and warm air integrated assembly of the radiator is characterized by comprising an oil cooling part, a warm air part and a heat radiating part, wherein one side of the oil cooling part is connected with one side of the warm air part, the other side of the heat radiating part is connected with one side of the heat radiating part, the oil cooling part comprises a first upper water chamber, a first lower water chamber and an oil cooler core, the first upper water chamber is arranged above the oil cooler core, the first lower water chamber is arranged below the oil cooler core, the warm air part comprises a second upper water chamber, a second lower water chamber and a warm air core, the second upper water chamber is arranged above the warm air core, the second lower water chamber is arranged below the warm air core, the heat radiating part comprises a third upper water chamber, a third lower water chamber and a heat radiating core, the third upper water chamber is arranged above the heat radiating core, the upper end and the lower end of one side of the oil cooler core are respectively connected with the upper end and the lower end of one side of the warm air core, and the upper end and lower end of the other side of the warm air core are respectively connected with the upper end and lower end of one side of the heat radiating core; the oil cooler core, the warm air core and the heat dissipation core are connected to form an integrated structure.

2. The heat radiator oil cooler and air heater integrated assembly according to claim 1, wherein two groups of oil cooler cores are designed, the two groups of oil cooler cores are symmetrically installed in front and back, each group of oil cooler cores comprises a first main sheet, a first harmonica tube, a first fin and a first side plate, the first main sheet is designed to be provided with an upper sheet and a lower sheet, a plurality of first harmonica tubes are installed between the two first main sheets, a first fin is installed between every two adjacent first harmonica tubes, two first side plates are also installed between the two first main sheets, and the two first side plates are respectively shielded on the outer sides of the two first harmonica tubes on the outermost sides; the first water feeding chamber is arranged on the first main sheets at the upper ends of the two groups of oil cooler cores in a sealing manner, and the first water discharging chamber is arranged below the first main sheets at the lower ends of the two groups of oil cooler cores in a sealing manner;

the two groups of heating cores are symmetrically arranged in front and back, each group of heating cores comprises a second main sheet, a second harmonica tube, second fins and second side plates, the second main sheet is provided with an upper piece and a lower piece, a plurality of second harmonica tubes are arranged between the two second main sheets, second fins are arranged between the adjacent second harmonica tubes, two second side plates are also arranged between the two second main sheets, the two second side plates are respectively shielded on the outer sides of the two second harmonica tubes at the outermost side, a second upper water chamber is arranged on the second main sheets at the upper ends of the two groups of heating cores in a sealing mode, and a second lower water chamber is arranged below the second main sheets at the lower ends of the two groups of heating cores in a sealing mode;

the heat dissipation cores are designed to be arranged in a front-back symmetrical mode, each heat dissipation core comprises a third main sheet, third harmonica tubes, third fins and third side plates, the third main sheet is designed to be provided with an upper main sheet and a lower main sheet, a plurality of third harmonica tubes are arranged between the two third main sheets, third fins are arranged between the adjacent third harmonica tubes, two third side plates are arranged between the two third main sheets, the two third side plates are respectively shielded on the outer sides of the two third harmonica tubes at the outermost sides, a third upper water chamber is arranged on the third main sheets at the upper ends of the two heat dissipation cores in a sealing mode, and a third lower water chamber is arranged below the third main sheets at the lower ends of the two heat dissipation cores in a sealing mode;

one side of the first main sheet is welded with one side of the adjacent second main sheet at the corresponding side, and the other side of the second main sheet is welded with one side of the adjacent third main sheet at the corresponding side.

3. The heat radiator and oil cooler integrated assembly according to claim 2, wherein the inner sides of the first main sheets at the upper ends of the two groups of oil cooler cores are welded and connected, and the inner sides of the first main sheets at the lower ends of the two groups of oil cooler cores are welded and connected;

the inner sides of the second main sheets at the upper ends of the two groups of warm air cores are welded and connected, and the inner sides of the second main sheets at the lower ends of the two groups of warm air cores are welded and connected;

and the inner sides of the third main sheets at the upper ends of the two groups of radiating cores are welded and connected, and the inner sides of the third main sheets at the lower ends of the two groups of radiating cores are welded and connected.

4. The heat radiator and air heater integrated assembly according to claim 2, wherein the side plates on the inner sides of the two groups of the oil cooler cores are welded with the side plates of the air heater cores adjacent to the corresponding sides; and the side plates at the other sides of the two groups of warm air cores are welded with the side plates at the inner sides of the heat dissipation cores at the corresponding sides.

5. The heat radiator and oil cooler integrated assembly according to claim 2, wherein the upper first main sheets of the two sets of oil cooler cores are welded and connected, and the lower first main sheets of the two sets of oil cooler cores are welded and connected;

the upper end second main sheets of the two groups of warm air cores are welded and connected, and the lower end second main sheets of the two groups of warm air cores are welded and connected;

and the third main sheets at the upper ends of the two groups of radiating cores are welded and connected, and the third main sheets at the lower ends of the two groups of radiating cores are welded and connected.

6. The heat radiator and oil cooler and air heater integrated assembly according to claim 1 or 2, wherein a first water inlet pipe is arranged on the front side of the first water feeding chamber, and a first water outlet pipe is arranged on the rear side of the first water discharging chamber;

the inside of the second water outlet chamber is provided with a baffle, the second water outlet chamber is divided into a water inlet chamber and a water outlet chamber by the baffle, the outer side of the water inlet chamber is provided with a second water inlet pipe, and the outer side of the water outlet chamber is provided with a second water outlet pipe;

the front side design of third goes up the hydroecium and installs the third inlet tube, and the front side design of third lower hydroecium installs the third outlet pipe.

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