CN215860452U - Reinforced damping type radiator - Google Patents

Abstract

The utility model relates to the field of automobile accessories, in particular to a reinforced damping type radiator. The reinforced damping type radiator comprises a plurality of radiating root canals which are arranged in parallel, wherein bent radiating fins are fixedly filled between every two radiating root canals; the water inlet side auxiliary main board and the water outlet side auxiliary main board are also included; the vice mainboard surface of side of intaking and the vice mainboard surface of play water side are provided with the root canal through-hole corresponding to the equal interval of heat dissipation root canal, and this structural design is reasonable, novel, has played the effect to root canal strengthening intensity promptly, has increased the pliability of root canal again, and the root canal tip becomes flexonics from rigid connection, has played good antidetonation cushioning effect.

Description

Reinforced damping type radiator

Technical Field

The utility model relates to the field of automobile accessories, in particular to a reinforced damping type radiator.

Background

The vehicle radiator is a heat transfer and heat conduction component in the vehicle, an engine and a gearbox are cooled through heat exchange, the radiator comprises a plurality of heat dissipation root canals which are arranged in parallel, a bent cooling fin is fixedly filled between every two heat dissipation root canals, the head ends of the heat dissipation root canals are jointly and hermetically connected with a water inlet (oil inlet) side, the tail ends of the heat dissipation root canals are jointly and hermetically connected with a water outlet (oil outlet) side, when the vehicle radiator is used, high-heat water (oil) from a part needing to be cooled of the vehicle enters the water inlet (oil inlet) side through a pipeline and flows from the head ends to the tail ends through the heat dissipation root canals, when the vehicle radiator flows through the root canals, heat can be transferred to the heat dissipation fins, a cold air cooling structure is placed on one side of the heat dissipation root canals and the cooling fin, a large amount of heat is taken away when cold air passes through gaps of the cooling fins, the water (oil) entering the water outlet (oil) side is cooled, and can flow through the part needing to be cooled again through the pipeline, and (6) reciprocating and circulating.

At the in-process of vehicle work, because of the vibrations of vehicle, the radiator also can shake thereupon, is mostly aluminium alloy material because of each part of radiator, and the heat dissipation is good, the quality is light, but intensity is lower, and the mainboard and the junction of radiator root canal receive vibration and extrusion back many times, take place the cracked phenomenon of heat dissipation root canal easily, will take place like this and leak water (oil), lead to the unable normal work of radiator.

At present, in order to increase the intensity and the life of heat dissipation root canal root, radiator manufacturer has increased the reinforcement at the root individually, but, the reinforcement that uses all with root canal rigid weld at present, only play the reinforcing action, do not play the effect of buffering to vibrations, increase the additional strengthening that has pliability at the tip of root canal, just can fundamentally alleviate the intensity of vibrations, strengthen the shock resistance.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model discloses a reinforced damping type radiator. This structural design is reasonable, novel, has played the effect to root canal strengthening intensity promptly, has increased the pliability of root canal again, and the root canal tip becomes flexonics from rigid connection, has played good antidetonation cushioning effect, has solved the problem among the prior art.

The utility model is realized by the following technical scheme:

a reinforced damping type radiator comprises a plurality of radiating root canals which are arranged in parallel, wherein bent radiating fins are fixedly filled between every two radiating root canals, the head ends of the radiating root canals are commonly and hermetically connected with a water inlet side main board, and the tail ends of the radiating root canals are commonly and hermetically connected with a water outlet side main board; the outer side of the water inlet side main board is hermetically welded with a shell to form a water inlet cavity, and the outer side of the water outlet side main board is hermetically welded with a shell to form a water outlet cavity;

the water inlet side auxiliary main board and the water outlet side auxiliary main board are also included; root canal through holes are uniformly arranged on the surface of the water inlet side auxiliary main board and the surface of the water outlet side auxiliary main board at intervals corresponding to the heat dissipation root canals;

the water inlet side auxiliary main board is arranged on the inner side of the water inlet side main board, the head ends of the heat dissipation root canals are all correspondingly penetrated through the root canal through holes of the water inlet side auxiliary main board, the edge of the head ends of the heat dissipation root canals is not contacted with the edge of the root canal through holes, and the water inlet side auxiliary main board is fixedly connected with the water inlet side main board through a welding point; gel is filled in a gap between the head end of the heat-dissipating root canal and the root canal through hole and a gap between the water inlet side auxiliary main plate and the water inlet side main plate;

the water outlet side auxiliary main board is arranged on the inner side of the water outlet side main board, the tail ends of the heat dissipation root canals correspondingly penetrate through the root canal through holes of the water outlet side auxiliary main board, the edges of the tail ends of the heat dissipation root canals are not in contact with the edges of the root canal through holes, and the water outlet side auxiliary main board is fixedly connected with the water outlet side main board through welding points; gel is also filled in the gap between the tail end of the heat dissipation root canal and the root canal through hole and the gap between the water outlet side auxiliary main plate and the water outlet side main plate.

Further optimally, a supporting plate which is arranged in parallel with the heat dissipation root canal is arranged between the water outlet side main plate and the water inlet side main plate at the outer sides of the two heat dissipation root canals at the most lateral side.

Further optimally, the number of welding points between the water inlet side auxiliary main plate and the water inlet side main plate is 2-6.

Further optimally, the number of welding points between the water outlet side auxiliary main plate and the water outlet side main plate is 2-6.

The utility model has the beneficial effects that: this structural design is reasonable, novel, the vice mainboard of side of intaking has been increased in the inboard of the side mainboard of intaking, the vice mainboard of side of intaking has been increased in the inboard of the side mainboard of a play water, and in the gap between heat dissipation root canal tail end and root canal through-hole, also all filled with gel in the gap between the vice mainboard of the side of a play water side and the play water side mainboard, vice mainboard and gel have played the effect of strengthening intensity to the root canal promptly like this, gel has increased the protectiveness to the root canal again, the pliability of protection around the root canal has been increased, the root canal tip becomes flexonics from rigid connection, gel has played good antidetonation cushioning effect, be suitable for extensive using widely.

Drawings

In order to more clearly illustrate the detailed description of the utility model or the technical solutions in the prior art, the drawings that are needed in the detailed description of the utility model or the prior art will be briefly described below. Throughout the drawings, like elements or components are generally identified by like reference numerals. In the drawings, elements or components are not necessarily drawn to scale.

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the cross-sectional structure taken along the line A-A of the present invention.

In the figure, 1 heat dissipation root canal, 2 fin, 3 side mainboard of intaking, 4 play water side mainboards, 5 intake cavities, 6 play water cavities, 7 the vice mainboards of side of intaking, 8 play water side vice mainboards, 9 root canal through-holes, 10 backup pads.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-2, a reinforced shock-absorbing type heat sink includes a plurality of heat dissipating root canals 1 arranged in parallel, and a curved heat dissipating fin 2 is fixedly filled between every two heat dissipating root canals 1, the head ends of the heat dissipating root canals 1 are commonly and hermetically connected with a water inlet side main plate 3, and the tail ends of the heat dissipating root canals 1 are commonly and hermetically connected with a water outlet side main plate 4; the outer side of the water inlet side main board 3 is hermetically welded with a shell to form a water inlet cavity 5, and the outer side of the water outlet side main board 4 is hermetically welded with a shell to form a water outlet cavity 6;

the water inlet side auxiliary main board 7 and the water outlet side auxiliary main board 8 are also included; root canal through holes 9 are uniformly arranged on the surfaces of the water inlet side auxiliary main plate 7 and the water outlet side auxiliary main plate 8 at intervals corresponding to the heat dissipation root canals 1;

the water inlet side auxiliary main board 8 is arranged on the inner side of the water inlet side main board 3, the head ends of the heat dissipation root canals 1 correspondingly penetrate through the root canal through holes 9 of the water inlet side auxiliary main board 8, the edges of the head ends of the heat dissipation root canals 1 are not in contact with the edges of the root canal through holes 9, and the water inlet side auxiliary main board 7 is fixedly connected with the water inlet side main board 3 through welding points; gel is filled in a gap between the head end of the heat-dissipating root canal 1 and the root canal through hole 9 and a gap between the auxiliary main plate 7 at the water inlet side and the main plate 3 at the water inlet side;

the water outlet side auxiliary main board 8 is arranged on the inner side of the water outlet side main board 4, the tail ends of the heat dissipation root canals 1 correspondingly penetrate through the root canal through holes 9 of the water outlet side auxiliary main board 8, the edge of the tail ends of the heat dissipation root canals 1 is not in contact with the edge of the root canal through holes 9, and the water outlet side auxiliary main board 8 is fixedly connected with the water outlet side main board 4 through a welding point; gel is also filled in the gap between the tail end of the heat-dissipating root canal 1 and the root canal through hole 9 and the gap between the water outlet side auxiliary main plate 8 and the water outlet side main plate 4.

As a preferred embodiment, in order to increase the stability of the connection between the two main boards and enhance the supporting force and stability of the heat dissipating root canal 1 along the length, a supporting board 10 is disposed between the water outlet side main board 4 and the water inlet side main board 3 outside the two heat dissipating root canals 1 at the outermost side and is parallel to the heat dissipating root canals 1.

In a preferred embodiment, in order to position the water inlet side auxiliary main plate 7, the number of welding points between the water inlet side auxiliary main plate 7 and the water inlet side main plate 3 is 2-6.

In a preferred embodiment, in order to position the outlet side sub-main plate 8, the number of welding points between the outlet side sub-main plate 8 and the outlet side main plate 4 is 2-6.

When the reinforced damping type radiator is adopted, the heat dissipation root canal 1 and the radiating fins 2 are connected and fixed, then the two ends of the heat dissipation root canal 1 in the fixed heat dissipation root canal 1 and the radiating fins 2 respectively penetrate through the water inlet side auxiliary main board 7 and the water outlet side auxiliary main board 8, then the water inlet side main board 3 and the water outlet side main board 4 are respectively fixed and sealed and welded, after welding, the water inlet side auxiliary main board 7 and the water inlet side main board 3 are welded through a welding point, the water outlet side auxiliary main board 8 and the water outlet side main board 4 are welded through the welding point, the edges of the head end and the tail end of the heat dissipation root canal 1 are not contacted with the edge of the root canal through hole 9 during welding, and finally, the heat dissipation root canal 1 is led into the gap between the head end of the heat dissipation root canal 1 and the root canal through hole 9, the gap between the water inlet side auxiliary main board 7 and the water inlet side main board 3, and the gap between the tail end of the heat dissipation root canal 1 and the root canal through hole 9, And finally, the outer side of the water inlet side main board 3 and a shell are welded in a sealing manner to form a water inlet cavity 5, and the outer side of the water outlet side main board 4 and the shell are welded in a sealing manner to form a water outlet cavity 6, so that the production and the manufacture of the whole radiator are completed. The radiator of this kind of structure, the side vice mainboard 7 of intaking has been increased in the inboard of the side mainboard 3 of intaking, the side vice mainboard 8 of play water has been increased in the inboard of play water side mainboard 4, and in the gap between 1 tail end of heat dissipation root canal and root canal through-hole 9, also all filled with gel in the gap between the vice mainboard 8 of play water side and the play water side mainboard 4, vice mainboard and gel have played the effect of strengthening intensity to the root canal promptly like this, gel has increased the protectiveness to the root canal again, the pliability of protection around the root canal has been increased, the root canal tip becomes flexible connection from rigid connection, gel has played good antidetonation cushioning effect.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; the modifications or the substitutions do not cause the essence of the corresponding technical solutions to depart from the scope of the technical solutions of the embodiments of the present invention, and the technical solutions are all covered in the scope of the claims and the specification of the present invention; it will be apparent to those skilled in the art that any alternative modifications or variations to the embodiments of the present invention may be made within the scope of the present invention.

The present invention is not described in detail, but is known to those skilled in the art.

Claims (4)

1. A reinforced damping type radiator comprises a plurality of radiating root canals which are arranged in parallel, wherein bent radiating fins are fixedly filled between every two radiating root canals, the head ends of the radiating root canals are commonly and hermetically connected with a water inlet side main board, and the tail ends of the radiating root canals are commonly and hermetically connected with a water outlet side main board; the outer side of the water inlet side main board is hermetically welded with a shell to form a water inlet cavity, and the outer side of the water outlet side main board is hermetically welded with a shell to form a water outlet cavity;

the method is characterized in that: the water inlet side auxiliary main board and the water outlet side auxiliary main board are also included; root canal through holes are uniformly arranged on the surface of the water inlet side auxiliary main board and the surface of the water outlet side auxiliary main board at intervals corresponding to the heat dissipation root canals;

the water inlet side auxiliary main board is arranged on the inner side of the water inlet side main board, the head ends of the heat dissipation root canals are all correspondingly penetrated through the root canal through holes of the water inlet side auxiliary main board, the edge of the head ends of the heat dissipation root canals is not contacted with the edge of the root canal through holes, and the water inlet side auxiliary main board is fixedly connected with the water inlet side main board through a welding point; gel is filled in a gap between the head end of the heat-dissipating root canal and the root canal through hole and a gap between the water inlet side auxiliary main plate and the water inlet side main plate;

the water outlet side auxiliary main board is arranged on the inner side of the water outlet side main board, the tail ends of the heat dissipation root canals correspondingly penetrate through the root canal through holes of the water outlet side auxiliary main board, the edges of the tail ends of the heat dissipation root canals are not in contact with the edges of the root canal through holes, and the water outlet side auxiliary main board is fixedly connected with the water outlet side main board through welding points; gel is also filled in the gap between the tail end of the heat dissipation root canal and the root canal through hole and the gap between the water outlet side auxiliary main plate and the water outlet side main plate.

2. A reinforced shock-absorbing radiator as set forth in claim 1, wherein: and a supporting plate which is arranged in parallel with the heat dissipation root canal is arranged between the water outlet side main plate and the water inlet side main plate at the outer side of the two heat dissipation root canals at the most lateral side.

3. A reinforced shock-absorbing radiator as set forth in claim 1, wherein: the number of welding points between the water inlet side auxiliary main board and the water inlet side main board is 2-6.

4. A reinforced shock-absorbing radiator as set forth in claim 1, wherein: and 2-6 welding points are arranged between the water outlet side auxiliary main plate and the water outlet side main plate.

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