CN219453722U - Integrated into one piece folding assembly's wind channel - Google Patents

Abstract

The utility model provides an integrally formed foldable assembled air duct, which comprises a male die and a female die which are connected in a folding and buckling manner; a fan mounting groove matched with the cooling fan is formed in the male die, a loading port is formed in the female die corresponding to the fan mounting groove, and a limiting piece for covering the loading port is connected to the female die on the side of the loading port in a buckling manner; a first far-beam heat dissipation half pipe and a first near-beam heat dissipation half pipe are formed beside the fan mounting groove, and a second far-beam heat dissipation half pipe and a second near-beam heat dissipation half pipe are correspondingly formed on the female die; compared with the existing design of fixing the fan and the air duct by screws respectively; the utility model discloses a can accomplish the equipment of fan and wind channel through public mould and the folding lock of master model, only need with this equipment threaded connection lamp body after folding can, installation effectiveness promotes greatly, also need not increase too much screw thread platform on the lamp body simultaneously, has reduced the structural design of lamp body.

Description

Integrated into one piece folding assembly's wind channel

Technical Field

The utility model relates to the technical field of heat dissipation of near-far lights of automobiles, in particular to an integrally formed foldable assembled air duct.

Background

In the prior art, in order to radiate heat for a low beam light and a high beam light with higher heat productivity, a mode of combining an air supply pipeline by a fan is generally adopted to convey airflow for radiating heat for the low beam light and the high beam light;

however, during assembly, the fan and the air supply pipeline are required to be fixed in the lamp housing by screws respectively, so that the installation efficiency is low, the fan and the air supply pipe are all required to be reinforced by screws, and the corresponding number of threaded installation tables are required to be added on the lamp housing, so that the lamp housing is more complicated to manufacture.

Disclosure of Invention

In view of the above, the present utility model provides an integrally formed foldable assembled air duct.

In order to solve the technical problems, the utility model adopts the following technical scheme:

an integrally formed foldable assembled air duct comprises a male die and a female die which are connected in a folding and buckling way;

a fan mounting groove matched with the cooling fan is formed in the male die, a loading port is formed in the female die corresponding to the fan mounting groove, and a limiting piece for covering the loading port is connected to the female die on the side of the loading port in a buckling manner;

the fan mounting groove side is constructed with first far beam heat dissipation half pipe and first near beam heat dissipation half pipe, the corresponding construction has second far beam heat dissipation half pipe and second near beam heat dissipation half pipe on the master model.

The first far beam heat dissipation half pipe and the first near beam heat dissipation half pipe are in V-shaped structures, and the second far beam heat dissipation half pipe and the second near beam heat dissipation half pipe are also in V-shaped structures.

The outside of second far-reaching headlamp heat dissipation half pipe is provided with the screw mount pad, the entry end of screw mount pad runs through second far-reaching headlamp heat dissipation half pipe setting.

The second high beam heat radiation half pipe and the second low beam heat radiation half pipe are provided with a door-shaped support frame, and a positive wedge-shaped clamping block is arranged in the middle of the door-shaped support frame;

and the outer walls of the first far beam heat dissipation half pipe and the first near beam heat dissipation half pipe are provided with anti-wedge-shaped clamping blocks which are matched with the wedge-shaped clamping blocks.

A first screw hole is formed in the male die beside the fan mounting groove, a second screw hole is formed in the female die beside the loading port, and the first screw hole and the second screw hole are coaxial after the male die and the female die are folded and buckled.

The utility model has the advantages and positive effects that:

(1) For the current design that utilizes screw fixation fan and wind channel respectively, this application just can accomplish the equipment of fan and wind channel through public mould and the folding lock of master model, only need with this equipment threaded connection lamp body after folding can, installation effectiveness promotes greatly, also need not increase too much screw thread platform on the lamp body simultaneously, has reduced the structural design of lamp body.

(2) The limiting piece on the snap master can be used for replacing the cooling fan, and the fan is connected with the air duct through the sealing adhesive tape.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a block diagram of an integrally formed, foldable assembled duct of the present utility model in an unfolded state at a first viewing angle;

FIG. 2 is a block diagram of an integrally formed, foldable assembled duct of the present utility model in an unfolded state at a second viewing angle;

FIG. 3 is a block diagram of an integrally formed foldable assembly of the present utility model in a folded condition of the duct at a first viewing angle;

FIG. 4 is a block diagram of an integrally formed foldable assembly of the present utility model in a folded condition of the duct at a second view angle;

FIG. 5 is a block diagram of an integrally formed, foldable assembled duct of the present utility model mounted within a lamp housing;

in the figure: male die 1, female die 2, radiator fan 3, fan mounting groove 4, load port 5, spacing piece 6, bayonet 61, chuck 62, first far beam heat dissipation half pipe 71, first near beam heat dissipation half pipe 72, second far beam heat dissipation half pipe 73, second near beam heat dissipation half pipe 74, screw sleeve platform 8, entry end 81, portal frame 91, positive wedge-shaped fixture block 92, negative wedge-shaped fixture block 93, first screw hole 10, second screw hole 11.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

As shown in fig. 1 to 2, the utility model provides an integrally formed foldable assembled air duct, which comprises a male mold 1 and a female mold 2, wherein the male mold 1 and the female mold 2 are connected through foldable soft plastic and can be mutually folded and buckled, a similar three-way pipe structure is formed after the male mold 1 and the female mold 2 are folded and buckled, a loading opening 5 arranged at the bottom is used for loading a cooling fan 3 into an internal fan mounting groove 4, the top is buckled by a first high beam cooling half pipe 71 and a second high beam cooling half pipe 73 to form a high beam cooling pipe, a first low beam cooling half pipe 72 and a second low beam cooling half pipe 74 are buckled to form a low beam cooling pipe, and air flow generated by the cooling fan 3 is transmitted to the high beam lamp and the low beam lamp through the high beam cooling pipe and the low beam cooling pipe so as to cool the high beam lamp and the low beam lamp;

as shown in fig. 1 to fig. 4, specifically, a fan mounting groove 4 adapted to a cooling fan 3 is configured on a male mold 1, a loading opening 5 is formed on a female mold 2 corresponding to the position of the fan mounting groove 4, the cooling fan 3 enters the fan mounting groove 4, a limiting piece 6 for covering the loading opening 5 is connected to the female mold 2 at the side of the loading opening 5 in a fastening manner, in this embodiment, one end of the limiting piece 6 is rotationally connected with the female mold 2 through soft plastic, and one end is connected with a clamping head 62 on the female mold 2 through a clamping opening 61 on the limiting piece 6, after the male mold 1 is folded and buckled with the female mold 2, the clamping opening 61 is connected with the clamping head 62 in a fastening manner, so as to further cover the loading opening 5, thereby playing a limiting role on the cooling fan 3 and preventing the cooling fan 3 from being separated from the fan mounting groove 4;

a first high beam heat radiation half pipe 71 and a first low beam heat radiation half pipe 72 are arranged beside the fan mounting groove 4, a second high beam heat radiation half pipe 73 and a second low beam heat radiation half pipe 74 are correspondingly arranged on the female die 2, the first high beam heat radiation half pipe 71 and the first low beam heat radiation half pipe 72 are in V-shaped structures, and the second high beam heat radiation half pipe 73 and the second low beam heat radiation half pipe 74 are also in V-shaped structures;

so that the high beam radiating pipes formed by the buckling of the first high beam radiating half pipe 71 and the second high beam radiating half pipe 73 and the low beam radiating pipes formed by the buckling of the first low beam radiating half pipe 72 and the second low beam radiating half pipe 74 can extend along different directions to respectively transmit airflow for the high beam and the low beam for radiating.

Specifically, the outside of second far-reaching headlamp heat dissipation half pipe 73 is provided with screw cover platform 8, the entry end 81 of screw cover platform 8 runs through second far-reaching headlamp heat dissipation half pipe 73 and sets up, when fixed this equipment, through the screw run through screw cover platform 8 back with the screw platform threaded connection on the lamp body from entry end 81 can, can utilize the screw to fix this equipment, can also block up entry end 81 through the screw, avoid appearing the gas leakage condition.

Specifically, the second high beam heat dissipation half pipe 73 and the second low beam heat dissipation half pipe 74 are provided with a portal support frame 91, a positive wedge-shaped clamping block 92 is configured at the middle position of the portal support frame 91, and the outer walls of the first high beam heat dissipation half pipe 71 and the first low beam heat dissipation half pipe 72 are provided with a reverse wedge-shaped clamping block 93 adapted to the wedge-shaped clamping block, when the locking is performed, the reverse wedge-shaped clamping block 93 is embedded into the portal support frame 91 through the guiding action of the positive wedge-shaped clamping block 92 to realize locking.

Specifically, a first screw hole 10 is configured on the male die 1 beside the fan mounting groove 4, a second screw hole 11 is configured on the female die 2 beside the loading port 5, the first screw hole 10 and the second screw hole 11 are coaxial after the male die 1 and the female die 2 are folded and buckled, and when the device is fixed, a screw penetrates through the first screw hole 10 and the second screw hole 11 and then is connected with a screw table on the lamp housing in a threaded manner.

The working principle and working process of the utility model are as follows:

as shown in fig. 1 to 5, when the device is installed, the male mold 1 and the female mold 2 are folded and buckled, namely, the first far beam heat dissipation half pipe 71 and the second far beam heat dissipation half pipe 73 are buckled to form a far beam heat dissipation pipe, the first near beam heat dissipation half pipe 72 and the second near beam heat dissipation half pipe 74 are buckled to form a near beam heat dissipation pipe, the heat dissipation fan 3 is sent into the fan installation groove 4 from the loading port 5, the bayonet 61 is clamped with the clamping head 62, the loading port 5 is covered, the limit effect is played on the heat dissipation fan 3, the heat dissipation fan 3 is prevented from being separated from the fan installation groove 4, and the assembly of the fan and the air duct is completed;

then the first screw penetrates through the screw sleeve platform 8 from the inlet end 81 and is in threaded connection with a first threaded platform on the lamp housing, and the second screw and the third screw penetrate through the first screw hole 10 and the second screw hole 11 and are in threaded connection with a second threaded platform and a third threaded platform on the lamp housing, so that the equipment and the lamp housing are fixed;

for the current design that utilizes screw fixation fan and wind channel respectively, this application just can accomplish the equipment of fan and wind channel through public mould 1 and the folding lock of master mould 2, then only need three pieces screw fixation this equipment can, installation effectiveness promotes greatly, also need not increase too much screw platform on the lamp body simultaneously, has reduced the structural design of lamp body.

The foregoing describes the embodiments of the present utility model in detail, but the description is only a preferred embodiment of the present utility model and should not be construed as limiting the scope of the utility model. All equivalent changes and modifications within the scope of the present utility model are intended to be covered by this patent.

Claims (6)

1. An integrally formed foldable assembled air duct is characterized by comprising a male die (1) and a female die (2) which are connected in a folding and buckling way;

a fan mounting groove (4) matched with the cooling fan (3) is formed in the male die (1), a loading port (5) is formed in the female die (2) corresponding to the fan mounting groove (4), and a limiting piece (6) used for covering the loading port (5) is connected to the female die (2) at the side of the loading port (5) in a buckling manner;

the fan mounting groove (4) side is constructed with first far beam heat dissipation half pipe (71) and first near beam heat dissipation half pipe (72), be constructed with second far beam heat dissipation half pipe (73) and second near beam heat dissipation half pipe (74) on master model (2) correspondence.

2. The integrally formed foldable assembled duct of claim 1, wherein the first high beam heat dissipating half-tube (71) and the first low beam heat dissipating half-tube (72) are V-shaped, and the second high beam heat dissipating half-tube (73) and the second low beam heat dissipating half-tube (74) are V-shaped.

3. An integrally formed foldable assembled air duct according to claim 2, wherein a screw sleeve table (8) is arranged outside the second high beam heat dissipation half pipe (73), and an inlet end (81) of the screw sleeve table (8) penetrates through the second high beam heat dissipation half pipe (73).

4. The integrally formed and foldable assembled air duct according to claim 2, wherein a door-shaped supporting frame (91) is configured on the second far beam heat radiation half pipe (73) and the second near beam heat radiation half pipe (74), and a positive wedge-shaped clamping block (92) is configured on the middle position of the door-shaped supporting frame (91);

and anti-wedge-shaped clamping blocks (93) matched with the wedge-shaped clamping blocks are formed on the outer walls of the first high beam heat dissipation half pipe (71) and the first low beam heat dissipation half pipe (72).

5. The air duct of one-piece foldable assembly according to claim 1, wherein a first screw hole (10) is formed in the male mold (1) beside the fan mounting groove (4), a second screw hole (11) is formed in the female mold (2) beside the loading port (5), and the first screw hole (10) and the second screw hole (11) are coaxial after the male mold (1) and the female mold (2) are folded and buckled.

6. An integrally formed, foldable assembled tunnel in accordance with claim 1, characterized in that the male mould (1) is connected to the female mould (2) by means of a foldable flexible plastic.