CN214221323U - Reinforced radiator - Google Patents
Reinforced radiator Download PDFInfo
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- CN214221323U CN214221323U CN202023349246.XU CN202023349246U CN214221323U CN 214221323 U CN214221323 U CN 214221323U CN 202023349246 U CN202023349246 U CN 202023349246U CN 214221323 U CN214221323 U CN 214221323U
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Abstract
The utility model belongs to the technical field of the radiator, concretely relates to reinforcement type radiator, including intake chamber, play hydroecium and radiator core, the radiator core includes radiating part and a plurality of cooling tube, the cooling tube sets up between intake chamber and play hydroecium and communicates with the two, and the root outside that each cooling tube is connected with the intake chamber casing all is provided with the top gusset plate, and the root outside that each cooling tube is connected with play hydroecium casing all is provided with the bottom gusset plate, the top gusset plate includes that upper inner seat plate is connected with the upper reinforcement groove with the cooling tube corresponding quantity, upper inner seat plate still is connected with upper outer connecting plate; the bottom gusset plate includes that the interior bedplate is connected with down the strengthening groove with the corresponding quantity of cooling tube down, interior bedplate still is connected with outer connecting plate down. The strength of the root of the cooling pipe is greatly improved, and the service life of the radiator is greatly prolonged; meanwhile, the assembling efficiency of the radiator is improved.
Description
Technical Field
The utility model belongs to the technical field of the radiator, concretely relates to reinforcement type radiator.
Background
The automobile radiator is an indispensable important part in an automobile water-cooled engine cooling system, and consists of three parts, namely a water inlet chamber, a water outlet chamber, a radiator core and the like. The coolant flows in the radiator core, and the air passes outside the radiator. The hot coolant cools down by dissipating heat to the air, and the cold air heats up by absorbing the heat dissipated by the coolant. The gilled tube radiator core is composed of cooling tubes and a radiating part, and the radiating part comprises radiating fins and radiating strips. The forced convection heat exchange formed by the circulation of the cooling liquid in the radiator and the operation of an external fan takes away a large amount of heat energy, so that the phenomenon of thermal expansion and cold contraction of the radiator is continuously formed in the cooling process, and the root of a cooling pipe of the radiator is stressed to cause fatigue and the tearing of the cooling pipe; and the automobile radiator can also be vibrated because of the vibration, particularly the large automobile, and the large load, so that the vibration is particularly large, the root part of the cooling pipe is particularly easy to damage, and the service life of the radiator is greatly reduced.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, strengthen the intensity of radiator cooling tube root, prolong the life of radiator, the utility model provides a reinforcement type radiator.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a reinforced radiator comprises a water inlet chamber, a water outlet chamber and a radiator core, wherein the radiator core comprises a heat dissipation part and a plurality of cooling pipes, the cooling pipes are arranged between the water inlet chamber and the water outlet chamber and are communicated with the water inlet chamber and the water outlet chamber, the outer side of the root part of each cooling pipe connected with a shell of the water inlet chamber is provided with a top reinforcing plate, the outer side of the root part of each cooling pipe connected with a shell of the water outlet chamber is provided with a bottom reinforcing plate, each top reinforcing plate comprises an upper inner base plate and upper reinforcing grooves, the upper reinforcing grooves correspond to the cooling pipes in number, the upper reinforcing grooves are wrapped on the outer sides of the corresponding cooling pipes, the upper inner base plate is further connected with an upper outer connecting plate, and the upper outer connecting plate and the upper inner base plate are both connected with the shell of the water inlet chamber; the bottom gusset plate includes that lower inner panel is connected with the lower stiffening groove of the corresponding quantity of cooling tube, lower stiffening groove parcel is in the outside that corresponds the cooling tube, lower inner panel still is connected with outer connecting plate down, outer connecting plate and lower inner panel all connect the casing of mill run.
Furthermore, the upper inner seat plate and the lower inner seat plate are both L-shaped plates, and the upper inner seat plate and the lower inner seat plate respectively form a Z shape with the corresponding upper outer connecting plate and the corresponding lower outer connecting plate.
Furthermore, the upper outer connecting plate and the upper inner base plate are connected with the shell of the water inlet chamber in a welding mode, and the lower outer connecting plate and the lower inner base plate are connected with the shell of the water outlet chamber in a welding mode.
Furthermore, the top of going up the stiffening groove is connected with the reinforcing plate, go up the reinforcing plate and set up the open slot that corresponds last stiffening groove, the stiffening groove top is connected with down the reinforcing plate down, the open slot that corresponds stiffening groove is seted up to the reinforcing plate down.
Furthermore, the upper reinforcing groove is connected with the upper reinforcing plate in a welding mode, and the lower reinforcing groove is connected with the lower reinforcing plate in a welding mode; the width of the upper reinforcing plate and the width of the lower reinforcing plate are equal to the thickness of the radiator core.
Has the advantages that: the utility model reinforces the root of the top of the cooling pipe through the upper reinforcing groove, the upper inner seat plate and the upper outer connecting plate, and reinforces the root of the bottom of the cooling pipe through the lower inner seat plate, the lower reinforcing groove and the lower outer connecting plate, thereby greatly improving the strength of the root of the cooling pipe and greatly prolonging the service life of the radiator; simultaneously, the setting of going up interior bedplate, last outer connecting plate, last reinforcing plate and interior bedplate, outer connecting plate, lower reinforcing plate down has increased the intensity of top gusset plate and bottom gusset plate self for the cooperation cooling tube equipment of being convenient for has promoted the packaging efficiency of radiator.
Drawings
FIG. 1 is a schematic view of a reinforced heat sink;
FIG. 2 is a first structural view of a bottom reinforcing plate;
FIG. 3 is a second structural view of the bottom reinforcing plate;
in the figure, a water inlet chamber 1, a water outlet chamber 2, a radiator core 3, a cooling pipe 31, a heat radiating part 32, a top reinforcing plate 4, an upper outer connecting plate 41, an upper reinforcing groove 42, a bottom reinforcing plate 5, a lower outer connecting plate 51, a lower reinforcing groove 52, a lower inner seat plate 53 and a lower reinforcing plate 54.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
Fig. 1 to 3 show a reinforced heat sink, which includes a water inlet chamber 1, a water outlet chamber 2 and a heat sink core 3, where the heat sink core 3 includes a heat dissipation portion 32 and a plurality of cooling pipes 31, the cooling pipes 31 are disposed between the water inlet chamber 1 and the water outlet chamber 2 and are communicated with the water inlet chamber 1 and the water outlet chamber 2, a top reinforcing plate 4 is disposed on an outer side of a root portion of each cooling pipe 31 connected to a housing of the water inlet chamber 1, a bottom reinforcing plate 5 is disposed on an outer side of a root portion of each cooling pipe 31 connected to a housing of the water outlet chamber 2, the top reinforcing plate 4 includes an upper inner base plate connected to upper reinforcing grooves 42 corresponding to the number of the cooling pipes 31, the upper reinforcing grooves 42 are wrapped on outer sides of the corresponding cooling pipes 31, the upper inner base plate is further connected to an upper outer connecting plate 41, and the upper outer connecting plate 41 and the upper inner base plate are both connected to the housing of the water inlet chamber 1; the bottom reinforcing plate 5 comprises a lower inner base plate 53 connected with lower reinforcing grooves 52 with the number corresponding to that of the cooling pipes 31, the lower reinforcing grooves 52 are wrapped on the outer sides of the corresponding cooling pipes 31, the lower inner base plate 53 is further connected with a lower outer connecting plate 51, and the lower outer connecting plate 51 and the lower inner base plate 53 are both connected with a shell of the water outlet chamber 2.
The upper inner seat plate and the lower inner seat plate 53 are both L-shaped plates, and the upper inner seat plate and the lower inner seat plate 53 respectively form a Z shape with the corresponding upper outer connecting plate 41 and the lower outer connecting plate 51.
The upper outer connecting plate 41 and the upper inner base plate are connected with the shell of the water inlet chamber 1 in a welding mode, and the lower outer connecting plate 51 and the lower inner base plate 53 are connected with the shell of the water outlet chamber 2 in a welding mode.
As shown in fig. 3, an upper reinforcing plate is connected to the top of the upper reinforcing groove 42, an open groove corresponding to the upper reinforcing groove 42 is formed in the upper reinforcing plate, a lower reinforcing plate 54 is connected to the top of the lower reinforcing groove 52, and an open groove corresponding to the lower reinforcing groove 52 is formed in the lower reinforcing plate 54.
The upper reinforcing groove 42 is welded with the upper reinforcing plate, and the lower reinforcing groove 52 is welded with the lower reinforcing plate 54; the upper reinforcing plate and the lower reinforcing plate 54 each have a width equal to the thickness of the radiator core 3.
To sum up, the utility model discloses obvious beneficial effect does: the utility model reinforces the root at the top of the cooling pipe 31 through the upper reinforcing groove 42, the upper inner seat plate and the upper outer connecting plate 41, and reinforces the root at the bottom of the cooling pipe 31 through the lower inner seat plate 53, the lower reinforcing groove 52 and the lower outer connecting plate 51, thereby greatly improving the strength of the root of the cooling pipe 31 and greatly prolonging the service life of the radiator; meanwhile, the strength of the top reinforcing plate 4 and the strength of the bottom reinforcing plate 5 are increased by the arrangement of the upper inner seat plate, the upper outer connecting plate 41, the upper reinforcing plate, the lower inner seat plate 53, the lower outer connecting plate 51 and the lower reinforcing plate 54, so that the cooling pipe 31 can be conveniently assembled, and the assembling efficiency of the radiator is improved.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.
Claims (5)
1. A reinforced radiator comprises a water inlet chamber, a water outlet chamber and a radiator core, wherein the radiator core comprises a heat dissipation part and a plurality of cooling pipes, the cooling pipes are arranged between the water inlet chamber and the water outlet chamber and are communicated with the water inlet chamber and the water outlet chamber, the outer side of the root part of each cooling pipe connected with a shell of the water inlet chamber is provided with a top reinforcing plate, the outer side of the root part of each cooling pipe connected with a shell of the water outlet chamber is provided with a bottom reinforcing plate, the reinforced radiator is characterized in that the top reinforcing plates comprise upper inner base plates connected with upper reinforcing grooves with the number corresponding to that of the cooling pipes, the upper reinforcing grooves wrap the outer sides of the corresponding cooling pipes, the upper inner base plates are also connected with upper outer connecting plates, and the upper outer connecting plates and the upper inner base plates are both connected with the shell of the water inlet chamber; the bottom gusset plate includes that lower inner panel is connected with the lower stiffening groove of the corresponding quantity of cooling tube, lower stiffening groove parcel is in the outside that corresponds the cooling tube, lower inner panel still is connected with outer connecting plate down, outer connecting plate and lower inner panel all connect the casing of mill run.
2. The reinforced heat sink of claim 1, wherein the upper inner seat plate and the lower inner seat plate are each L-shaped plates, and the upper inner seat plate and the lower inner seat plate respectively form a Z-shape with the corresponding upper outer connecting plate and the lower outer connecting plate.
3. The reinforced heat sink of claim 1, wherein the upper outer connecting plate and the upper inner base plate are welded to the housing of the inlet chamber, and the lower outer connecting plate and the lower inner base plate are welded to the housing of the outlet chamber.
4. The reinforced heat sink as recited in claim 1, wherein an upper reinforcing plate is connected to a top of the upper reinforcing groove, the upper reinforcing plate defines an opening groove corresponding to the upper reinforcing groove, a lower reinforcing plate is connected to a top of the lower reinforcing groove, and the lower reinforcing plate defines an opening groove corresponding to the lower reinforcing groove.
5. The reinforced heat sink of claim 4, wherein the upper stiffener groove and the upper stiffener plate are welded together, and the lower stiffener groove and the lower stiffener plate are welded together; the width of the upper reinforcing plate and the width of the lower reinforcing plate are equal to the thickness of the radiator core.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023349246.XU CN214221323U (en) | 2020-12-31 | 2020-12-31 | Reinforced radiator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023349246.XU CN214221323U (en) | 2020-12-31 | 2020-12-31 | Reinforced radiator |
Publications (1)
Publication Number | Publication Date |
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CN214221323U true CN214221323U (en) | 2021-09-17 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202023349246.XU Active CN214221323U (en) | 2020-12-31 | 2020-12-31 | Reinforced radiator |
Country Status (1)
Country | Link |
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CN (1) | CN214221323U (en) |
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2020
- 2020-12-31 CN CN202023349246.XU patent/CN214221323U/en active Active
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