CN210004806U - cage type radiator - Google Patents

Abstract

The utility model discloses an cage radiator, including plate-fin radiator body, plate-fin radiator body is including advancing the liquid storehouse and going out the liquid storehouse, it has feed liquor pipe and drain pipe to advance the liquid storehouse and go out the liquid storehouse respectively to communicate, feed liquor pipe and drain pipe communicate respectively has the heat dissipation cage pipe, the heat dissipation cage pipe includes a plurality of arc pipeline, be connected with a plurality of fin on the lateral wall of arc pipeline respectively, cage radiator still includes with plate-fin radiator body complex mount pad, plate-fin radiator body assembly is on the mount pad.

Description

cage type radiator

Technical Field

The utility model relates to a radiator especially relates to kinds of cage radiators.

Background

In the case of a radiator, such as a plate-fin radiator, the main function is to dissipate heat of a medium, such as oil, entering the radiator.

In the prior art, the main reason is that simple and efficient pre-radiating devices are not arranged before the high-temperature hot oil enters the radiator to pre-radiate the high-temperature hot oil, which is disclosed by the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that kinds of cage radiators are provided.

The utility model discloses a solve above-mentioned technical problem through following technical scheme:

A cage radiator comprises a plate-fin radiator body, wherein the plate-fin radiator body comprises a liquid inlet bin and a liquid outlet bin;

the liquid inlet bin and the liquid outlet bin are respectively communicated with a liquid inlet pipe and a liquid outlet pipe;

the liquid inlet pipe and the liquid outlet pipe are respectively communicated with a heat dissipation cage pipe;

the heat dissipation cage pipe comprises a plurality of arc-shaped pipelines, and a plurality of heat dissipation fins are connected to the side walls of the arc-shaped pipelines respectively;

the port at the end of the arc-shaped pipeline is communicated with a pipeline, the port at the other end of the arc-shaped pipeline is communicated with a second pipeline, and the port at the end of the arc-shaped pipeline is respectively formed by a pipeline port at the end of a pipeline in a body-forming mode;

the ports at the other end of the arc-shaped pipeline are respectively and integrally formed with the pipeline port at the end of the second pipeline ;

cage radiator still includes the mount pad with plate-fin radiator body complex, plate-fin radiator body assembles on the mount pad.

Preferably, the liquid inlet pipe is connected with an th flange, and the liquid outlet pipe is connected with a second flange.

Preferably, the pipeline port of the other end of the pipeline is connected with a connecting flange which is matched and connected with the flange and the second flange respectively;

the pipeline port of the other end of the second pipeline is connected with a flange.

Preferably, the arc center angle of the arc-shaped pipeline is 30 degrees, and the arc-shaped pipeline is distributed annularly.

Preferably, the arc-shaped pipes have heat dissipation gaps therebetween.

Preferably, the mounting seat comprises a bottom plate, wherein th end plates and second end plates are fixedly connected to two sides of the top of the bottom plate respectively, and the plate-fin radiator body is assembled between the th end plate and the second end plate.

Preferably, a plurality of slots are formed in the opposite side faces of the th end plate and the second end plate, and inserting plates inserted into the slots are fixedly connected to the two sides of the plate-fin radiator body respectively.

Preferably, the front side wall and the rear side wall of the plate-fin radiator body are fixedly connected with three inserting plates;

the inserting plates are arranged at intervals;

all seted up 3 slots on end plate and the relative side of second end plate.

Preferably, a plurality of layers of slots are vertically distributed on opposite side surfaces of the th end plate and the second end plate, the number of each layers of slots is 3, and each layers of slots are horizontally arranged.

Preferably, a heat dissipation fan is mounted at the top center of the bottom plate.

Compared with the prior art, the utility model has the following advantages:

the hot oil firstly enters the heat dissipation cage pipe (enters each arc-shaped pipeline in the heat dissipation cage pipe before entering the plate-fin type heat radiator body, so that the heat dissipation cage pipe realizes the shunting of the high-temperature hot oil), and the cage type design is adopted for the heat dissipation cage pipe, so that the high-efficiency heat dissipation can be realized, the high-temperature hot oil is efficiently pre-radiated, the plate-fin type heat radiator body is protected, the service life of the plate-fin type heat radiator body is prolonged, meanwhile, the low-temperature hot oil after heat dissipation enters the heat dissipation cage pipe and is subjected to -step heat dissipation.

Drawings

Fig. 1 is a schematic view of a dispersing structure of a cage type heat sink according to an embodiment of the present invention;

fig. 2 is a top view of an embodiment of the invention;

FIG. 3 is a schematic structural view of a heat dissipation cage in an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of an arc-shaped pipeline in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of the mounting seat and the plate-fin heat sink body according to the embodiment of the present invention.

Detailed Description

The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

As shown in fig. 1-5, kinds of cage radiators include plate-fin radiator body 1, wherein plate-fin radiator body 1 is a conventional plate-fin radiator disclosed in the prior art, and its main structure includes liquid inlet bin 11 and liquid outlet bin 12, a plurality of radiating units (not shown in the figure) are arranged between liquid inlet bin 11 and liquid outlet bin 12, the radiating units are components conventionally used by the conventional plate-fin radiator, such as radiating units composed of radiating fins and a guiding plate, specifically, the guiding plate is hollow inside, the end portions at both ends of the guiding plate are communicated between liquid inlet bin 11 and liquid outlet bin 12, the radiating fins are closely attached to the side wall of the guiding plate for radiating, the plurality of radiating units are connected in turn, high-temperature hot oil enters from liquid inlet bin 11 and is discharged from liquid outlet bin 12 through the radiating units (liquid inlet bin 11 and liquid outlet bin 12 are respectively communicated with a liquid inlet pipe and a liquid outlet pipe), a person skilled in the art can look up a technical manual or a technical dictionary or the internal structure and working principle of plate-fin radiator body 1 disclosed in the present invention.

The utility model discloses an improvement point lies in:

the liquid inlet pipe and the liquid outlet pipe are respectively communicated with a heat dissipation cage pipe 21, the heat dissipation cage pipe 21 adopts a cage type design, high-temperature hot oil is pre-dissipated, and meanwhile, cooling oil discharged from the plate-fin radiator body 1 is further cooled.

The specific structure of the heat dissipation cage pipe 21 is as follows:

every heat dissipation cage pipes 21 all include 6 arc pipeline 2111, and the arc center angle of arc pipeline 2111 is 30 degrees, and arc pipeline 2111 adopts annular distribution (arc pipeline 2111 uses the vertical plane as the plane of distribution, and the post-formation structure of annular distribution is the geometric space structure of cage type.) arc pipeline 2111 is the cage type, therefore has the clearance between the arc pipeline 2111, forms the heat dissipation space.

The side walls of each arc-shaped pipelines 2111 are respectively connected with a plurality of radiating fins 21111 (the radiating fins 21111 are in a circular sheet shape).

The port at the end of the arc-shaped pipeline 2111 is communicated with a pipeline 211, the port at the other end of the arc-shaped pipeline 2111 is communicated with a second pipeline 212, and the port at the end of the arc-shaped pipeline 2111 is integrally formed with a pipeline port at the end of a pipeline 211 (formed by the existing casting method);

the ports at the other end of the arcuate conduit 2111 are co-formed with the conduit ports at the end of the second conduit 212 .

The liquid inlet bin 11 is communicated with a liquid inlet pipe 111, the liquid outlet bin 12 is communicated with a liquid outlet pipe 121, the liquid inlet pipe 111 is connected with an -th flange 112, the liquid outlet pipe 121 is connected with a second flange 122, a pipe port of another end of the -th pipe 211 is respectively connected with a connecting flange which is matched and connected with the -th flange 112 and the second flange 122 (the liquid inlet pipe 111 corresponds to heat dissipation cage pipes 21, the liquid outlet pipe 121 corresponds to heat dissipation cage pipes 21), that is, the connecting flange on the -th pipe 211 is respectively assembled and connected with the corresponding -th flange 112 and the corresponding second flange 122, and the heat dissipation cage pipes 21 are communicated with the corresponding liquid inlet pipe 111 and the corresponding liquid outlet pipe 121.

The other end of the second pipe 212 is connected to a flange, which is used to connect the hot oil input pipe (from which the hot oil generated by the working equipment is output) and the oil return pipe (from which the cooling oil after heat dissipation by the plate-fin radiator is returned to the working equipment (the hot oil input pipe and the oil return pipe are not shown).

In order to simply assemble the multiple plate-fin heat sink bodies 1, mounting seats capable of assembling the multiple plate-fin heat sink bodies 1 are provided, and the multiple plate-fin heat sink bodies 1 are assembled on the mounting seats.

Specifically, the mounting seat comprises a bottom plate 33, th end plates 31 and 32 are fixedly connected to the front side and the rear side of the top of the bottom plate 33 respectively (the th end plate 31 and the second end plate 32 are identical in structure), a plurality of layers of slots 311 are vertically distributed on the opposite side faces of the th end plate 31 and the second end plate 32, the number of each layers of slots 311 is 3, each layers of slots 311 are horizontally arranged, correspondingly, three inserting plates 13 are fixedly connected to the front side wall and the rear side wall of the plate-fin radiator body 1, the inserting plates 13 on the multi-plate-fin radiator body 1 are inserted into the slots 311, and the multi-plate-fin radiator body 1 is assembled on the mounting seat.

In order to cool the multiple plate-fin heat sink bodies 1, a heat dissipation fan 34 (the heat dissipation fan 34 is a conventional fan disclosed in the prior art) is mounted at a central portion of the top of the bottom plate 33, and the heat dissipation fan 34 blows air upwards to dissipate heat.

The device design has the advantages that:

hot oil firstly enters the heat dissipation cage pipe 21 (enters each arc-shaped pipeline 2111 in the heat dissipation cage pipe 21) before entering the plate-fin type heat radiator body 1, so that the heat dissipation cage pipe 21 realizes the shunting of the high-temperature hot oil), and the cage type design is adopted for the heat dissipation cage pipe 21, so that the high-efficiency heat dissipation can be realized, the high-temperature hot oil is efficiently pre-radiated, the plate-fin type heat radiator body 1 is protected, the service life of the plate-fin type heat radiator body is prolonged, meanwhile, the low-temperature hot oil after heat dissipation enters the heat dissipation cage pipe 21 and is subjected to heat dissipation in the step.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The cage type radiator is characterized by comprising a plate-fin radiator body, wherein the plate-fin radiator body comprises a liquid inlet bin and a liquid outlet bin;

   the liquid inlet bin and the liquid outlet bin are respectively communicated with a liquid inlet pipe and a liquid outlet pipe;

   the liquid inlet pipe and the liquid outlet pipe are respectively communicated with a heat dissipation cage pipe;

   the heat dissipation cage pipe comprises a plurality of arc-shaped pipelines, and a plurality of heat dissipation fins are connected to the side walls of the arc-shaped pipelines respectively;

   the port at the end of the arc-shaped pipeline is communicated with a pipeline, the port at the other end of the arc-shaped pipeline is communicated with a second pipeline, and the port at the end of the arc-shaped pipeline is respectively formed by a pipeline port at the end of a pipeline in a body-forming mode;

   the ports at the other end of the arc-shaped pipeline are respectively and integrally formed with the pipeline port at the end of the second pipeline ;

   cage radiator still includes the mount pad with plate-fin radiator body complex, plate-fin radiator body assembles on the mount pad.
2. 2. The cage heat sink of claim 1, wherein the liquid inlet pipe is connected to an th flange and the liquid outlet pipe is connected to a second flange.
3. 3. The cage heat sink of claim 2, wherein the duct ports at the other end of the duct are connected with connecting flanges that are fittingly connected with the flange and the second flange, respectively;

   the pipeline port of the other end of the second pipeline is connected with a flange.
4. 4. The cage heat sink of claim 1, wherein the arcuate tubes have an arc center angle of 30 degrees, the arcuate tubes being annularly disposed.
5. 5. The cage heat sink of claim 4, wherein the arcuate tubes have heat dissipating voids therebetween.
6. 6. The cage heat sink of claim 1 wherein the mounting bracket comprises a bottom plate, wherein an th end plate and a second end plate are fixedly connected to two sides of the top of the bottom plate, respectively, and the plate-fin heat sink body is assembled between the th end plate and the second end plate.
7. 7. The cage type heat sink of claim 1, wherein a plurality of slots are formed in opposite side surfaces of the th end plate and the second end plate, and inserting plates inserted into the slots are fixedly connected to two sides of the plate-fin type heat sink body respectively.
8. 8. The cage heat sink of claim 7, wherein three insert plates are fixedly attached to the front and rear sidewalls of the plate-fin heat sink body;

   the inserting plates are arranged at intervals;

   all seted up 3 slots on end plate and the relative side of second end plate.
9. 9. The cage heat sink of claim 8 wherein said th header and said second header have a plurality of slots vertically disposed on opposite sides thereof, wherein the number of slots in each level is 3, and wherein each level is horizontally disposed.
10. 10. The cage heat sink of claim 6, wherein the top central portion of the bottom plate is fitted with a heat sink fan.

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