CN216788662U - Air compressor machine cooling tube - Google Patents

Abstract

The utility model relates to a radiating tube of an air compressor, which comprises a plurality of radiating tubes, wherein a radiating fin group is arranged on each radiating tube, and each radiating fin group is formed by splicing two unit modules; the unit module consists of a plurality of radiating fins connected in parallel in series; a plurality of semicircular grooves matched with the outer diameter of the radiating pipe are formed in the radiating fins at intervals; the unit modules are arranged in a positive mode and in a reverse mode, and the radiating pipes are surrounded in the radiating fin grooves after being spliced up and down. The utility model can realize the quick replacement, cleaning and maintenance of the radiating pipe radiating fin group, and the radiating fin group has stronger universality and can be suitable for the radiating pipes of air compressors with various sizes and models.

Description

Air compressor machine cooling tube

Technical Field

The utility model relates to a heat dissipation technology of an air compressor, and particularly discloses a heat dissipation pipe of the air compressor.

Background

Air compressor machine compressed air leads to the air temperature too high easily after, consequently need dispel the heat through the cooling tube. In order to improve the heat dissipation efficiency, the heat dissipation effect is improved by arranging the heat dissipation fins on the heat dissipation pipe of the air compressor generally. The radiating pipe can be made of a steel pipe, a stainless steel pipe, a copper pipe and the like, and the fin can also be made of a steel belt, a stainless steel belt, a copper belt, an aluminum belt and the like.

The conventional radiating fins are spirally welded on the surface of the radiating pipe, and the radiating fins are good in distributed radiating effect, but troublesome in operation and low in production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to: the air compressor radiating pipe is convenient to maintain and high in radiating fin group universality.

The technical scheme adopted by the utility model is as follows:

a radiating tube of an air compressor comprises a plurality of radiating tubes, wherein a radiating fin group is arranged on each radiating tube, and each radiating fin group is formed by splicing two unit modules; the unit module consists of a plurality of radiating fins connected in parallel and in series; a plurality of semicircular grooves matched with the outer diameter of the radiating pipe are formed in the radiating fins at intervals; the unit modules are arranged in a positive mode and in a reverse mode, and the radiating pipes are surrounded in the radiating fin grooves after being spliced up and down.

Furthermore, two ends of a plurality of radiating fins of the unit module are connected in series through screws, the radiating fins are spaced by spacer blocks, and the radiating fins are locked and fixed through nuts.

Furthermore, four corners of the two unit modules are connected through connecting sheets; two ends of the connecting sheet are respectively sleeved on the two unit module screw rods, and the upper unit module and the lower unit module are locked through nuts.

Further, the heat dissipation fins are made of stainless steel strips or aluminum strips or copper strips.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

the utility model adopts the spliced radiating fin group to finish the installation of the multi-pipeline radiating fins at one time, thereby having high efficiency; the heat dissipation area is larger than that of the traditional heat dissipation area; the bolt-fixed type radiating fin group is convenient to disassemble, clean and maintain; the radiating fin group is strong in universality, the length of the adjusting screw rod can be selected to adapt to the use of each long radiating pipe and each short radiating pipe, the size of the spacer block can be selected to adjust the density of the radiating fins, and the length of the radiating fins can be selected to adapt to the use of different numbers of radiating pipes.

Drawings

FIG. 1 is a diagram illustrating a state of use of the present invention;

FIG. 2 is a view of the heat sink fins of the present invention;

fig. 3 is a structural diagram of the upper and lower connection parts of two unit modules according to the present invention.

Detailed Description

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

As shown in fig. 1 to 3, a heat dissipation tube for an air compressor includes a plurality of heat dissipation tubes 1, wherein a heat dissipation plate group is arranged on the heat dissipation tubes 1, and the heat dissipation plate group is formed by splicing two unit modules with the same structure; the unit module consists of a plurality of radiating fins 2 which are connected in parallel and in series; specifically, two ends of a plurality of radiating fins 2 of the unit module are connected in series through screws 3, the radiating fins 2 are spaced by spacer blocks 4 and distributed at intervals in parallel, and the radiating fins 2 are locked and fixed through nuts 5; a plurality of semicircular grooves 21 matched with the outer diameter of the radiating pipe 1 are punched on the radiating fins 2 at intervals; the unit modules are arranged in a positive mode and arranged in a reverse mode, the radiating pipe 1 is surrounded in the groove 21 of the radiating fin 2 after being spliced up and down, the radiating fin 2 is tightly attached to the radiating pipe 1, and radiating is fast.

Four corners of the two unit modules are connected through a connecting sheet 6; the two ends of the connecting sheet 6 are respectively sleeved on the two unit module screw rods 3, and the upper unit module and the lower unit module are locked by the nuts 5, so that the two unit modules are connected closely and reliably.

The radiating fins 2 are made of stainless steel bands or aluminum bands or copper bands, economic cost and radiating effect are comprehensively considered, and radiating fins 2 made of different materials are selected.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (4)

1. A radiating pipe of an air compressor comprises a plurality of radiating pipes and is characterized in that a radiating fin group is arranged on each radiating pipe and is formed by splicing two unit modules; the unit module consists of a plurality of radiating fins connected in parallel and in series; a plurality of semicircular grooves matched with the outer diameter of the radiating pipe are formed in the radiating fins at intervals; the unit modules are arranged in a positive mode and in a reverse mode, and the radiating pipes are surrounded in the radiating fin grooves after being spliced up and down.

2. The heat dissipation pipe for air compressors as claimed in claim 1, wherein said unit module has a plurality of heat dissipation fins connected in series at both ends thereof by screws, the heat dissipation fins are spaced apart by spacers, and the heat dissipation fins are fastened by nuts.

3. The heat dissipation pipe for the air compressor as claimed in claim 2, wherein four corners of the two unit modules are connected through connecting pieces; two ends of the connecting sheet are respectively sleeved on the two unit module screw rods, and the upper unit module and the lower unit module are locked through nuts.

4. The heat dissipation pipe for the air compressor as claimed in claim 1, wherein the heat dissipation fins are made of stainless steel strips, aluminum strips or copper strips.

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