阅读说明：本技术 一种汽车水箱散热器总成 (Radiator assembly of automobile water tank ) 是由 张耀 于 2020-04-21 设计创作，主要内容包括：本发明公开了一种汽车水箱散热器总成,属于汽车水箱散热器总成技术领域,通过启动驱动泵带动水箱内的冷却水通过连接管组件对缸体吸热后进入至风机散热组件进一步实现散热,再通过连接管组件进入至热组合管组件,通过热组合管组件与水箱的组合结构实现了良好的热交换热综合功能,再进入水箱内,最后再通过驱动泵抽出至连接管组件进行循环散热。(The invention discloses an automobile water tank radiator assembly, which belongs to the technical field of automobile water tank radiator assemblies.)

1. The utility model provides a radiator assembly of automobile water tank, includes water tank (14), connecting tube subassembly, driving pump (1), fin (4) and fan radiator unit, its characterized in that: the connecting pipe component is further connected with a heat combination pipe component (13) and wraps the water tank (14) through the heat combination pipe component (13), wherein arc-shaped grooves (21) are formed in the water tank (14) at equal intervals along the outer portion of the water tank (14), a through hole (24) penetrates through the top of the water tank (14), the heat combination pipe component (13) comprises inverted U-shaped heat comprehensive branch pipes (17) matched with the arc-shaped grooves (21) on the two sides of the water tank (14), the upper middle portions of the inverted U-shaped heat comprehensive branch pipes (17) are connected through heat comprehensive second branch pipes (16), the middle portions of the inner tops of the inverted U-shaped heat comprehensive branch pipes (17) are communicated with heat comprehensive second middle branch pipes (23) matched with the through holes (24), and the inverted U-shaped heat comprehensive branch pipes (17) are connected with U-shaped heat comprehensive branch pipes (20) through flange plate components, and the middle part of the inner side top of the U-shaped thermal comprehensive branch pipe (20) is communicated with a thermal comprehensive first middle branch pipe (22), the thermal comprehensive first middle branch pipe (22) is also communicated with a thermal comprehensive second middle branch pipe (23) through a flange component, the inverted U-shaped thermal comprehensive branch pipe (17) at the most edge part is communicated with the water tank (14), and the thermal comprehensive first branch pipe (12) is communicated between the U-shaped thermal comprehensive branch pipes (20).

2. The radiator tank radiator assembly of claim 1, wherein: the flange plate assembly comprises an upper connecting flange plate (18), a lower connecting flange plate (19) and a fixing screw rod, wherein the lower connecting flange plate (19) is fixed to the top of the U-shaped thermal comprehensive branch pipe (20), the bottom of the inverted U-shaped thermal comprehensive branch pipe (17) is fixed to the upper connecting flange plate (18), and the upper connecting flange plate (18) and the lower connecting flange plate (19) are communicated through the fixing screw rod.

3. The radiator tank radiator assembly of claim 1, wherein: the connecting pipe assembly comprises a first connecting pipe (2), a second connecting pipe (8), a third connecting pipe (11) and a fourth connecting pipe (15), the fourth connecting pipe (15) is communicated with the upper part of the water tank (14) at the position of the inverted U-shaped comprehensive hot branch pipe (17) close to the most edge part, the fourth connecting pipe (15) is communicated with the driving pump (1) through a second electromagnetic valve (9), one end of the driving pump (1) far away from the second electromagnetic valve (9) is communicated with a first connecting pipe (2), the first connecting pipe (2) is communicated with the radiating fin (4) through a first electromagnetic valve (3), the radiating fin (4) is connected with the third electromagnetic valve (10) through a second connecting pipe (8), and the third electromagnetic valve (10) is communicated with a U-shaped comprehensive hot manifold (20) far away from the extreme edge part reverse U-shaped comprehensive hot manifold (17) through a third connecting pipe (11).

4. The radiator tank assembly of claim 3, wherein: the inboard of fin (4) is equipped with the bow type cooling tube, just first solenoid valve (3) and the one end intercommunication of bow type cooling tube, second connecting pipe (8) and the other end intercommunication of bow type cooling tube.

5. The radiator tank assembly of claim 4, wherein: and the heat radiating fins (4) are positioned at the outer side parts of the arch-shaped heat radiating pipes, and are paved with aluminum alloy heat radiating protective sheets which are fixed on the inner side frame of the heat radiating fins (4) in a vertical mode.

6. The radiator tank radiator assembly of claim 1, wherein: fan radiator unit includes fan mount (5), fan leaf (6) and driving motor (7), fan mount (5) are fixed on fin (4) inner side frame, fan mount (5) outside middle part is fixed with driving motor (7), install the output of driving motor (7) fan leaf (6).

7. The radiator tank radiator assembly of claim 1, wherein: one side at water tank (14) top seted up with water filling port (25) of water tank (14) inside intercommunication, there is the cap body top in the water filling port (25) outside through threaded connection, water tank (14) adopt the aluminum alloy interior casing, and the outside is equipped with insulating high temperature resistant plastics protecting crust.

Technical Field

The invention relates to an automobile water tank radiator assembly, in particular to an automobile water tank radiator assembly, and belongs to the technical field of automobile water tank radiator assemblies.

Background

The automobile water tank is also called radiator, is a main component in an automobile cooling system, and is used for dissipating heat, cooling water absorbs heat in a water jacket, the heat is dissipated after the cooling water flows to the radiator, and then the cooling water returns to the water jacket for internal circulation to achieve temperature regulation, and is a component of an automobile engine.

The water tank is an important component of the water-cooled engine, and is an important component of a heat dissipation loop of the water-cooled engine, the water tank can absorb heat of a cylinder block, the engine is prevented from overheating, the specific heat capacity of water is large, the temperature is not increased much after the heat of the cylinder block is absorbed, so the heat of the engine passes through a liquid loop of cooling water, the water is used as a heat carrier for heat conduction, and then the heat is dissipated in a convection mode through a large-area heat dissipation fin so as to maintain the proper working temperature of the engine.

Disclosure of Invention

The invention mainly aims to provide an automobile water tank radiator assembly, cooling water in a water tank is driven by starting a driving pump to absorb heat of a cylinder body through a connecting pipe assembly and then enter a fan radiating assembly to further realize heat dissipation, and then enter a heat combination pipe assembly through the connecting pipe assembly, a good heat exchange comprehensive function is realized through a combination structure of the heat combination pipe assembly and the water tank, and then the cooling water enters the water tank and finally is pumped out to the connecting pipe assembly through the driving pump to perform circulating heat dissipation.

The purpose of the invention can be achieved by adopting the following technical scheme:

an automobile water tank radiator assembly comprises a water tank, a connecting pipe assembly, a driving pump, radiating fins and a fan radiating assembly, wherein the connecting pipe assembly is further connected with a heat combination pipe assembly and wraps the water tank through the heat combination pipe assembly, arc-shaped grooves are formed in the water tank along the outer portion of the water tank at equal intervals, a through hole penetrates through the top of the water tank, the heat combination pipe assembly comprises inverted U-shaped heat combination branch pipes matched with the arc-shaped grooves in the two sides of the water tank, the upper middle portions of the inverted U-shaped heat combination branch pipes are connected through heat combination second branch pipes, the middle portions of the inner tops of the inverted U-shaped heat combination branch pipes are communicated with heat combination second middle branch pipes matched with the through hole, the inverted U-shaped heat combination branch pipes are connected with U-shaped heat combination branch pipes through flange assemblies, and the middle portions of the inner tops of the U-shaped heat combination branch pipes are communicated with, and the thermally integrated first middle branch pipe is also communicated with the thermally integrated second middle branch pipe through a flange component, the inverted U-shaped thermally integrated branch pipe at the most edge part is communicated with the water tank, and the thermally integrated first branch pipe is communicated between the U-shaped thermally integrated branch pipes.

Preferably, the flange plate assembly comprises an upper connecting flange plate, a lower connecting flange plate and a fixing screw rod, the lower connecting flange plate is fixed to the top of the U-shaped thermal comprehensive branch pipe, the bottom of the inverted U-shaped thermal comprehensive branch pipe is fixed to the upper connecting flange plate, and the upper connecting flange plate and the lower connecting flange plate are connected through the fixing screw rod.

Preferably, the connecting pipe subassembly includes first connecting pipe, second connecting pipe, third connecting pipe and fourth connecting pipe, the fourth connecting pipe with be close to the branch pipe department is synthesized to the type of falling U of most limit portion water tank upper portion intercommunication, the fourth connecting pipe through the second solenoid valve with the driving pump intercommunication, the driving pump is kept away from the one end intercommunication of second solenoid valve has first connecting pipe, first connecting pipe through first solenoid valve with the fin intercommunication, the fin is connected with through the second connecting pipe the third solenoid valve, the branch pipe intercommunication is synthesized through the third connecting pipe and the type of U of keeping away from most limit portion type of falling U of type heat and synthesizing branch pipe department to the third solenoid valve.

Preferably, the inboard of fin is equipped with the bow type cooling tube, just first solenoid valve communicates with the one end of bow type cooling tube, the second connecting pipe communicates with the other end of bow type cooling tube.

Preferably, the heat dissipation sheet is provided with an aluminum alloy heat dissipation protection sheet at the outer side of the arch-shaped heat dissipation pipe, and the aluminum alloy heat dissipation protection sheet is fixed on the inner side frame of the heat dissipation sheet in a vertical manner.

Preferably, the fan heat dissipation assembly comprises a fan fixing frame, fan blades and a driving motor, the fan fixing frame is fixed on the inner side frame of the heat dissipation plate, the driving motor is fixed in the middle of the outer side of the fan fixing frame, and the fan blades are installed at the output end of the driving motor.

Preferably, one side at the top of the water tank is provided with a water filling port communicated with the inside of the water tank, the top of the outer side of the water filling port is connected with a cap body through threads, the water tank adopts an aluminum alloy inner shell, and the outer side of the water tank is provided with an insulating high-temperature-resistant plastic protective shell.

The invention has the beneficial technical effects that:

according to the automobile water tank radiator assembly, the driving pump is started to drive cooling water in the water tank to absorb heat of the cylinder body through the connecting pipe assembly and then enter the fan radiating assembly to further realize heat dissipation, then enter the heat combination pipe assembly through the connecting pipe assembly, achieve a good heat exchange heat comprehensive function through a combination structure of the heat combination pipe assembly and the water tank, then enter the water tank, and finally be pumped out to the connecting pipe assembly through the driving pump to perform circulating heat dissipation.

Drawings

FIG. 1 is a schematic overall perspective view of a preferred embodiment of an automotive radiator tank assembly in accordance with the present invention;

FIG. 2 is a perspective view of the preferred embodiment of the heat integrated tube assembly, drive pump assembly and heat sink fan assembly of an automotive radiator assembly in accordance with the present invention;

FIG. 3 is a perspective view of a preferred embodiment of a radiator assembly for an automotive radiator assembly showing the combined heat integration pipe assembly and radiator assembly according to the present invention;

FIG. 4 is a schematic perspective view of a radiator tank of a preferred embodiment of an automotive radiator tank assembly according to the present invention;

fig. 5 is an exploded perspective view of a heat integration pipe assembly according to a preferred embodiment of a radiator module for an automobile radiator.

In the figure: 1-driving pump, 2-first connecting pipe, 3-first electromagnetic valve, 4-radiating fin, 5-fan fixing frame, 6-fan blade, 7-driving motor, 8-second connecting pipe, 9-second electromagnetic valve, 10-third electromagnetic valve, 11-third connecting pipe, 12-heat comprehensive first branch pipe, 13-heat comprehensive pipe assembly, 14-water tank, 15-fourth connecting pipe, 16-heat comprehensive second branch pipe, 17-inverted U-shaped heat comprehensive branch pipe, 18-upper connecting flange plate, 19-lower connecting flange plate, 20-U-shaped heat comprehensive branch pipe, 21-arc groove, 22-heat comprehensive first middle branch pipe, 23-heat comprehensive second middle branch pipe, 24-through hole and 25-water filling opening.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-5, the present embodiment provides a radiator assembly for a radiator of an automobile, which includes a water tank 14, a connecting pipe assembly, a driving pump 1, a heat sink 4 and a fan heat sink assembly, wherein the connecting pipe assembly is further connected to a heat combining pipe assembly 13 and wraps the water tank 14 through the heat combining pipe assembly 13, wherein the water tank 14 is provided with arc grooves 21 at equal intervals along the outside of the water tank 14, a through hole 24 penetrates through the top of the water tank 14, the heat combining pipe assembly 13 includes inverted U-shaped heat combining branch pipes 17 mutually engaged with the arc grooves 21 at both sides of the water tank 14, the upper middle portions of the inverted U-shaped heat combining branch pipes 17 are connected through heat combining second branch pipes 16, the middle portions of the inner top of the inverted U-shaped heat combining branch pipes 17 are communicated with heat combining second middle branch pipes 23 mutually engaged with the through hole 24, the inverted U-shaped heat combining branch pipes, and the middle part of the inner side top of the U-shaped thermal synthesis branch pipe 20 is communicated with a thermal synthesis first middle branch pipe 22, the thermal synthesis first middle branch pipe 22 is also communicated with a thermal synthesis second middle branch pipe 23 through a flange plate assembly, the inverted U-shaped thermal synthesis branch pipe 17 at the most edge part is communicated with the water tank 14, and the thermal synthesis first branch pipe 12 is communicated between the U-shaped thermal synthesis branch pipes 20.

The cooling water in the water tank 14 is driven by the driving pump 1 to absorb heat of the cylinder body through the connecting pipe assembly and then enter the fan heat dissipation assembly to further achieve heat dissipation, then enter the heat combination pipe assembly 13 through the connecting pipe assembly, achieve good heat exchange heat comprehensive functions through the combination structure of the heat combination pipe assembly 13 and the water tank 14, then enter the water tank 14, and finally be pumped out to the connecting pipe assembly through the driving pump 1 to achieve circulating heat dissipation.

In this embodiment, the flange assembly includes an upper connection flange 18, a lower connection flange 19 and a fixing screw, the lower connection flange 19 is fixed on the top of the U-shaped thermal integrated branch pipe 20, the upper connection flange 18 is fixed on the bottom of the inverted U-shaped thermal integrated branch pipe 17, and the fixing screw passes between the upper connection flange 18 and the lower connection flange 19.

The upper connecting flange plate 18, the lower connecting flange plate 19 and the fixing screw are combined to realize the function of convenient disassembly and assembly.

In this embodiment, the connecting pipe assembly includes first connecting pipe 2, second connecting pipe 8, third connecting pipe 11 and fourth connecting pipe 15, fourth connecting pipe 15 and the 14 upper portions of water tank that are close to the hot branch pipe 17 department of synthesizing of the type of falling U of the most limit portion department intercommunication, fourth connecting pipe 15 communicates with driving pump 1 through second solenoid valve 9, the one end intercommunication that second solenoid valve 9 was kept away from to driving pump 1 has first connecting pipe 2, first connecting pipe 2 communicates with fin 4 through first solenoid valve 3, fin 4 is connected with third solenoid valve 10 through second connecting pipe 8, third solenoid valve 10 communicates through third connecting pipe 11 and the hot branch pipe 20 of synthesizing of the type of U of keeping away from the hot branch pipe 17 department of the most limit portion department of falling U.

In this embodiment, the inner side of the heat sink 4 is provided with an arch-shaped heat dissipation tube, the first solenoid valve 3 is communicated with one end of the arch-shaped heat dissipation tube, and the second connection tube 8 is communicated with the other end of the arch-shaped heat dissipation tube.

In this embodiment, an aluminum alloy heat dissipation protection plate is laid on the heat sink 4 and located at the outer side of the arcuate heat dissipation pipe, and the aluminum alloy heat dissipation protection plate is fixed on the inner side frame of the heat sink 4 in a vertical manner.

In this embodiment, fan radiator unit includes fan mount 5, fan leaf 6 and driving motor 7, and fan mount 5 is fixed on the 4 inside frames of fin, and 5 outside middle parts of fan mount are fixed with driving motor 7, and fan leaf 6 is installed to driving motor 7's output.

In this embodiment, the filler 25 with the inside intercommunication of water tank 14 is seted up to one side at water tank 14 top, and there is the cap body at the top in the filler 25 outside through threaded connection, and water tank 14 adopts the aluminum alloy inner shell, and the outside is equipped with insulating high temperature resistant plastics protecting crust.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.