CN217504491U - Radiator of high reliability closely cooperates structure - Google Patents

Abstract

The utility model discloses a radiator of high reliability closely cooperates structure, including the hydroecium, the roof, the curb plate, the lower part edge of hydroecium is provided with the hydroecium presser foot of outwards buckling, the side of roof is provided with the bending back mounting groove, the top edge of bending back mounting groove is provided with roof pressure head and roof joint, the tip of curb plate is provided with the turn-ups, the turn-ups edge is provided with the riser, the curb plate slotted hole has been seted up on the riser, the hydroecium presser foot of hydroecium passes through the roof pressure head and spacing installation in the mounting groove of roof, the turn-ups of curb plate and riser partly cladding are outside the mounting groove of roof jointly, roof joint and the cooperation installation of curb plate slotted hole. The utility model discloses need not adopt extra connecting piece can realize the zonulae occludens between radiator hydroecium, roof, the curb plate three, and this radiator closely cooperates the structure through special structural design for still can firmly and closely connect between radiator hydroecium, roof, the curb plate three under cold and hot shrink and the vibration environment.

Description

Radiator of high reliability closely cooperates structure

Technical Field

The utility model belongs to the technical field of the radiator, concretely relates to connection structure of radiator, this connection structure have high reliability, can realize the inseparable cooperation of hydroecium, roof, the curb plate three of radiator.

Background

The radiator belongs to an automobile cooling system, and the radiator in an engine water cooling system mainly comprises a water chamber, a top plate, a side plate and a radiating core body. The cooling liquid flows through the channels in the radiator core, and the air passes through the channels outside the radiator core. The radiator is a heat exchanger because the hot coolant cools by radiating heat to the air, and because the cold air heats by absorbing the heat radiated by the coolant.

The radiator is divided into three installation methods of same-side inlet, same-side outlet, different-side inlet, different-side outlet, lower inlet and lower outlet, and the number of connecting pieces is reduced as much as possible in any installation method, because the more connecting pieces are, not only the cost is increased, the hidden danger is increased, but also the tight connection among the water chamber, the top plate and the side plate is required to be ensured, and the firm and tight connection is ensured under the cold and hot contraction and vibration environments.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem that exists among the prior art, the utility model provides a radiator of high reliability closely cooperates structure.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a radiator of high reliability closely cooperates structure, includes hydroecium, roof, curb plate, the lower part edge of hydroecium is provided with the hydroecium presser foot of outwards buckling, the side of roof is provided with the open-ended that makes progress back bending mounting groove, the top edge of back bending mounting groove is provided with the roof pressure head of inwards buckling and the roof joint of outwards buckling, the tip of curb plate is provided with the turn-ups of turning over outwards, the turn-ups edge is provided with the riser of upwards extending, the curb plate slotted hole has been seted up on the riser, the hydroecium presser foot of hydroecium passes through roof pressure head limit installation is in the mounting groove of roof, the turn-ups of curb plate and riser partially cladding are outside the mounting groove of roof jointly, the roof joint is installed with the cooperation of curb plate slotted hole.

Further, be provided with two roof joints with the edge at the roof at least, separate through a plurality of roof pressure head between the adjacent roof joint.

Furthermore, the vertical plate comprises a mounting vertical plate and a supporting vertical plate, the side plate slot hole is only formed in the mounting vertical plate, and the supporting vertical plate is not provided with the side plate slot hole.

Furthermore, the installation vertical plate and the supporting vertical plate are of a split structure, namely, the installation vertical plate and the supporting vertical plate are connected with the flanging, but the installation vertical plate and the supporting vertical plate are not connected, the number of the installation vertical plates is the same as that of the top plate joints, and the positions of the installation vertical plates correspond to those of the top plate joints one to one.

Further, the roof connects including roof connecting portion, installation department, block portion, the upper end of installation riser offsets with the roof connecting portion that the roof connects, the installation riser is located between the installation department of roof and the mounting groove lateral wall of roof, the one end and the installation department of block portion link to each other, and the other end stretches into to the side panel slot of installation riser in.

Further, the top plate is of a rectangular plate structure, and the top plate joint is only arranged on the short side of the top plate.

Furthermore, a top plate joint is respectively arranged at the short side of the top plate close to the corner.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses the radiator of high reliability closely cooperates the structure, need not adopt extra connecting piece can realize the zonulae occludens between radiator hydroecium, roof, the curb plate three, and this radiator closely cooperates the structure through special structural design for still can firmly and closely connect between radiator hydroecium, roof, the curb plate three under cold and hot shrink and the vibration environment.

Drawings

FIG. 1 is a schematic view of a high reliability heat sink mating arrangement;

FIG. 2 is a schematic view of the connection structure of the top plate and the side plate;

FIG. 3 is a schematic structural view of the top plate;

FIG. 4 is a schematic view of the structure at the corners of the top plate;

FIG. 5 is a side panel construction schematic;

fig. 6 is a schematic view of the structure at the corner of the side panel.

The labels in the figure are: 1-a water chamber; 1.1-water chamber presser foot; 2-a top plate; 2.1-roof pressure head; 2.2-roof joints; 2.21-top plate connection; 2.22-mounting part; 2.23-card sum section; 3-side plate; 3.1-flanging; 3.2-supporting the vertical plate; 3.3-installing a vertical plate; 3.4-side plate slot; 4-core body.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment provides a heat sink connection structure, which has high reliability and can realize the close fit connection of the water chamber 1, the top plate 2, and the side plate 3 of the heat sink.

The radiator of this embodiment high reliability closely cooperates the structure as shown in fig. 1, and this closely cooperates the structure and sets up in the marginal junction of hydroecium 1, roof 2, curb plate 3, and hydroecium 1 is located the upside, and curb plate 3 is located the downside, and roof 2 is located between hydroecium 1 and the curb plate 3, and core 4 encloses to be located between curb plate 3 and the roof 2.

As shown in fig. 1, the lower edge of the water chamber 1 is bent outward, and the long side formed by bending outward is a water chamber presser foot 1.1.

As shown in fig. 1 and 3, the top plate 2 is a rectangular plate structure, the side edges of the top plate 2 are bent downwards, outwards and upwards to form a back-bending installation groove with an upward opening, the upper edge of the back-bending installation groove is partially bent inwards to form a top plate pressure head 2.1, and the upper edge of the back-bending installation groove is partially bent outwards to form a top plate joint 2.2. Set up two roof joints 2.2 at least with one side edge of roof 2, separate through a plurality of roof pressure head 2.1 between the adjacent roof joint 2.2. Since the side plates 3 are usually located on both sides of the top plate 2, in this embodiment, the top plate joints 2.2 are only arranged on the short sides of the top plate 2, specifically, one top plate joint 2.2 is arranged at each of the short sides of the top plate 2 near the corners.

As shown in fig. 1 and 5, the upper end and the lower end of the side plate 3 are both turned outwards to form turned flanges 3.1 which are turned outwards, the outer edges of the turned flanges 3.1 are continuously turned upwards to form vertical plates, and the vertical plates are provided with side plate slotted holes 3.4 which are matched with the top plate joints 2.2 for installation. Specifically, the vertical plate comprises two types, namely a mounting vertical plate 3.3 and a supporting vertical plate 3.2, wherein only the mounting vertical plate 3.3 is provided with the side plate slot hole 3.4, and the supporting vertical plate 3.2 is not provided with the side plate slot hole 3.4. The mounting vertical plate 3.3 and the supporting vertical plate 3.2 can be connected structures, namely the mounting vertical plate 3.3 and the supporting vertical plate 3.2 form a whole vertical plate structure, and a split structure preferred by the embodiment can also be adopted, namely the mounting vertical plate 3.3 and the supporting vertical plate 3.2 are both connected with the flanging, but the mounting vertical plate 3.3 and the supporting vertical plate 3.2 are not connected. When adopting split type structure, the quantity of installation riser 3.3 is the same with the quantity of roof joint 2.2, and the position of installation riser 3.3 and the position one-to-one of roof joint 2.2. The flanging 3.1 of the side plate 3 and the vertical plate partially cover the mounting groove of the top plate 2 together.

In this embodiment, a preferred structure of the top plate joint 2.2 is as shown in fig. 4, and includes a top plate connecting portion 2.21, an installation portion 2.22, and an engaging portion 2.23, an upper end of the installation vertical plate 3.3 abuts against the top plate connecting portion 2.21 of the top plate joint 2.2, and one end of the engaging portion 2.23 is connected to the installation portion.

During installation, the installation vertical plate 3.3 is placed between the installation part 2.22 of the top plate 2 and the side wall of the installation groove of the top plate 2, and the other end of the clamping part 2.23 extends into a side plate groove hole of the installation vertical plate 3.3, so that the top plate 2 is fixedly matched with the side plate 3. After the water chamber 1 is matched with the top plate 2, the water chamber presser foot 1.1 of the water chamber 1 is installed in the installation groove of the top plate 2 in a limiting mode through the top plate pressure head 2.1, and the water chamber 1 is fixed.

Through the radiator connecting structure of the embodiment, the side plate, the top plate and the water chamber can be tightly matched and installed together without adopting an additional connecting piece, and the water chamber, the top plate and the side plate of the radiator can be still firmly and tightly connected under the cold and hot contraction and vibration environments.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The high-reliability radiator close fit structure is characterized by comprising a water chamber, a top plate and side plates, wherein the lower edge of the water chamber is provided with a water chamber presser foot which is bent outwards, the side edge of the top plate is provided with a return bending mounting groove with an upward opening, the upper edge of the return bending mounting groove is provided with a top plate pressure head which is bent inwards and a top plate joint which is bent outwards, the end part of the side plate is provided with a flanging which is turned outwards, the edge of the flanging is provided with a vertical plate which extends upwards, a side plate groove hole is formed in the vertical plate, the water chamber presser foot of the water chamber is limited and installed in the mounting groove of the top plate through the top plate pressure head, the flanging of the side plate and the vertical plate are partially wrapped outside the mounting groove of the top plate together, and the top plate joint and the side plate groove hole are installed in a matched mode.

2. A highly reliable heat sink close-fitting structure as recited in claim 1, wherein at least two top plate joints are provided on the same side of the top plate, and adjacent top plate joints are separated by a plurality of top plate headers.

3. The close fitting structure of the heat sink with high reliability as claimed in claim 1 or 2, wherein the vertical plate comprises a mounting vertical plate and a supporting vertical plate, the side plate slot is only disposed on the mounting vertical plate, and the supporting vertical plate is not disposed with the side plate slot.

4. The tight fit structure of the radiator with high reliability as claimed in claim 3, wherein the mounting vertical plate and the supporting vertical plate are split structures, that is, the mounting vertical plate and the supporting vertical plate are both connected with the flanges, but there is no connection relationship between the mounting vertical plate and the supporting vertical plate, the number of the mounting vertical plates is the same as the number of the top plate joints, and the positions of the mounting vertical plates correspond to the positions of the top plate joints one to one.

5. The tight fit structure of the radiator with high reliability as claimed in claim 3, wherein the top plate joint comprises a top plate connecting part, a mounting part and a clamping part, the upper end of the mounting vertical plate is abutted against the top plate connecting part of the top plate joint, the mounting vertical plate is located between the mounting part of the top plate and the side wall of the mounting groove of the top plate, one end of the clamping part is connected with the mounting part, and the other end of the clamping part extends into the side plate groove hole of the mounting vertical plate.

6. A high reliability heat sink close fitting structure as claimed in claim 4, wherein said top plate is a rectangular plate structure, and said top plate joints are provided only on the short sides of the top plate.

7. A highly reliable heat sink mating structure as recited in claim 6, wherein a top plate joint is provided at each of the short sides of the top plate near the corners.

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