CN212079560U - Air compressor machine with high-efficient heat dissipation function - Google Patents

Abstract

The utility model discloses an air compressor machine with high-efficient heat dissipation function, which comprises a housin, the inside horizontal fixed backup pad that is provided with of casing, the fixed air compressor machine that is provided with in backup pad top, the air compressor machine surface is provided with a plurality of evenly distributed's first fin, the backup pad below is provided with the gas holder, the fixed bottom that sets up in the casing of gas holder, air compressor machine one side is linked together through cooling tube and gas holder, be provided with spiral winding's second fin on the cooling tube outer wall along cooling tube length direction, the air intake has been seted up to casing one side, the air outlet has been seted up at the casing top, be close to in the casing and be provided with the suction hood in air outlet department, suction hood upper end integrated into one piece is provided with the fixed sleeve rather than inside being linked together, fixed sleeve one end can be dismantled sealing connection. It has excellent radiating effect, reduces the temperature in the casing.

Description

Air compressor machine with high-efficient heat dissipation function

Technical Field

The utility model relates to an air compression technical field, concretely relates to air compressor machine with high-efficient heat dissipation function.

Background

An air compressor, also called an air compressor, is a device for compressing air, which is a device for converting mechanical energy of a prime mover (usually an electric motor or a diesel engine) into gas pressure energy, and is an air pressure generating device for compressing air. The air compressor machine can produce a large amount of heats at the operation in-process, leads to equipment surrounding air high temperature, and long-term high temperature environment can influence the life of air compressor machine, consequently need in time discharge the heat that produces, just can guarantee the normal operating of equipment. The conventional air compressor generally lacks a reliable and efficient heat dissipation device, so that the service life and the working effect of equipment are influenced, and the generated compressed air is directly discharged into an air storage tank without being cooled, so that the subsequent application is not facilitated.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the above-mentioned background art, the utility model aims to provide an air compressor machine with high-efficient heat dissipation function, it has excellent radiating effect, reduces the temperature in the casing, has guaranteed the stability of equipment operation to can cool off the air after the compression.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an air compressor with high-efficiency heat dissipation function, which comprises a shell, wherein a supporting plate is transversely and fixedly arranged in the shell, the top of the supporting plate is fixedly provided with the air compressor, the surface of the air compressor is provided with a plurality of first radiating fins which are evenly distributed, an air storage tank is arranged below the supporting plate, the air storage tank is fixedly arranged at the bottom in the shell, one side of the air compressor is communicated with the air storage tank through a radiating tube, a one-way valve is arranged on the radiating tube, a second radiating fin which is spirally wound along the length direction of the radiating tube is arranged on the outer wall of the radiating tube, an air inlet is arranged at one side of the shell, an air outlet is arranged at the top of the shell, an air exhaust cover is arranged in the shell close to the air outlet, the air exhaust cover is in a frustum shape with a large opening at, fixed sleeve one end can be dismantled sealing connection with ventilation pipe one end, the ventilation pipe other end is worn out the air outlet and is extended to outside the casing, be provided with in the ventilation pipe and be used for the updraft ventilator with the inside heat exhaust of casing.

In a further improvement, the thickness of the second heat dissipation plate is gradually reduced from one end close to the radiating pipe to one end far away from the radiating pipe, and the bottom of the second heat dissipation plate is tightly contacted with the outer side of the radiating pipe. The second radiating fin is arranged to be thick close to one side of the radiating pipe, so that heat of the radiating pipe can be effectively absorbed, heat in compressed air in the radiating pipe is taken out, the thickness of the second radiating fin far away from the radiating pipe is gradually reduced, the absorbed heat can be better radiated, and the second radiating fin is exhausted out of the shell through the ventilating pipe through the exhaust hood and the exhaust device, so that the functions of quick heat absorption and heat radiation are realized; in addition, through setting up the thickness to the second fin, can make contact inseparabler between second fin and the cooling tube outside, connect more firmly for the second fin is difficult to take place the slope when receiving external force.

The improved ventilation device is characterized in that the ventilation device comprises a motor, an outer sleeve, fan blades and a support, the motor is arranged in the ventilation pipe, the outer sleeve is arranged outside the motor, the motor output shaft is arranged in parallel with the length direction of the ventilation pipe, the fan blades are arranged outside the motor output shaft, a plurality of supports are arranged outside the outer sleeve at equal intervals along the circumferential direction, one end of each support is fixedly connected with the outer sleeve, and the other end of each support is fixedly connected with the inner side wall of the ventilation pipe. Through setting up, adopt the support to fix the motor in the outer sleeve in the ventilation pipe, rotate through motor drive flabellum to discharge the inside heat of casing of suction hood extraction, thereby reduce the interior temperature of casing, guarantee the normal work of air compressor machine.

In a further improvement, one end of the fixed sleeve and one end of the vent pipe form a detachable connection type through threads or flanges. Through setting up, the staff of being convenient for installs and dismantles between draft hood and the ventilation pipe.

The improved structure is characterized in that an air inlet pipe is connected to the top of the air compressor, an air storage tank is far away from one side of the radiating pipe and is connected with an air supply pipe, one end of the air supply pipe penetrates through the shell and extends to the outer side of the shell, and an air valve is installed on the air supply pipe.

The further improvement lies in that a filter screen is arranged at the air inlet.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses in can derive the heat that the air compressor machine operation in-process produced through the first fin that sets up on the air compressor machine surface, can derive the heat in the cooling tube compressed air through the second fin that sets up on the cooling tube, then under the effect of air intake, draught hood, ventilation pipe and updraft ventilator, can discharge the heat that first fin and second fin derive in the casing fast to reduce the temperature in the casing, guarantee the normal continuous operation of air compressor machine, and can cool off the compressed air; through set up the second fin in the cooling tube outside along spiral winding on the cooling tube length direction, promoted the radiating effect to compressed air to make the heat dissipation more even.

Drawings

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

Fig. 1 is a schematic diagram of an internal structure of an air compressor with a high-efficiency heat dissipation function of the present invention;

fig. 2 is a schematic structural view of the air draft cover of the present invention;

FIG. 3 is a schematic structural view of the fixing sleeve and the ventilation pipe of the present invention when they are connected by a screw thread;

FIG. 4 is a schematic structural view of the fixing sleeve and the ventilation pipe of the present invention when they are connected by a flange;

FIG. 5 is a schematic structural view of the heat dissipating tube of the present invention;

FIG. 6 is a schematic structural view of the air draft device of the present invention;

wherein, the specific reference numbers are: the fan comprises a shell 1, an air inlet 2, a filter screen 3, a supporting plate 4, an air compressor 5, an air inlet pipe 6, a first radiating fin 7, an air outlet 8, an air draft cover 9, a fixed sleeve 10, a ventilating pipe 11, a motor 12, an outer sleeve 13, fan blades 14, a support 15, a radiating pipe 16, a second radiating fin 17, a one-way valve 18, an air storage tank 19, an air supply pipe 20 and an air valve 21.

Detailed Description

The embodiment of the utility model discloses an air compressor with high-efficient heat dissipation function, as shown in figure 1, including a shell 1, a support plate 4 is transversely and fixedly arranged in the shell 1, an air compressor 5 is fixedly arranged on the top of the support plate 4, a plurality of first radiating fins 7 which are uniformly distributed are arranged on the surface of the air compressor 5, an air storage tank 19 is arranged below the support plate 4, the air storage tank 19 is fixedly arranged at the bottom in the shell 1, one side of the air compressor 5 is communicated with the air storage tank 19 through a radiating pipe 16, a one-way valve 18 is arranged on the radiating pipe 16, as shown in figure 5, a second radiating fin 17 spirally wound along the length direction of the radiating pipe 16 is arranged on the outer wall of the radiating pipe 16, an air inlet 2 is arranged on one side of the shell 1, a filter screen 3 is arranged at the air inlet 2, as shown in fig. 2, the draft hood 9 is the big little terrace with edge form of upper end opening of lower extreme opening and inside cavity, draft hood 9 upper end integrated into one piece is provided with the fixed sleeve 10 rather than inside being linked together, as shown in fig. 3 and fig. 4, the screw thread or the flange formation can be dismantled to fixed sleeve 10 one end and ventilation pipe 11 one end, the staff of being convenient for installs and dismantles between draft hood 9 and the ventilation pipe 11, the ventilation pipe 11 other end is worn out air outlet 8 and is extended to outside casing 1, be provided with in the ventilation pipe 11 and be used for the updraft ventilator with the inside heat exhaust of casing 1.

The thickness of the second radiating fin 17 is gradually reduced from one end close to the radiating pipe 16 to one end far away from the radiating pipe 16, the bottom of the second radiating fin 17 is in close contact with the outer side of the radiating pipe 16, the thick point is arranged on one side close to the radiating pipe 16 of the second radiating fin 17, the heat of the radiating pipe 16 can be effectively absorbed, the heat in the compressed air in the radiating pipe 16 is taken out, the thickness of the side, far away from the radiating pipe 16, of the second radiating fin 17 is gradually reduced, the absorbed heat can be better dissipated, and the heat is exhausted out of the shell 1 through the air draft hood 9 and the air draft device through the vent pipe 11, so that the functions of quick heat absorption and heat dissipation are realized; in addition, the thickness of the second heat dissipation fin 17 is set, so that the second heat dissipation fin 17 is more tightly contacted with the outer side of the heat dissipation pipe 16, the connection is firmer, and the second heat dissipation fin 17 is not easy to incline when being subjected to external force.

As shown in fig. 6, the air draft device includes a motor 12, an outer sleeve 13, fan blades 14 and a support 15, the motor 12 is disposed in the ventilation pipe 11, the outer sleeve 13 is disposed on the outer side of the motor 12, an output shaft of the motor 12 is parallel to the length direction of the ventilation pipe 11, the fan blades 14 are disposed on the outer side of the output shaft of the motor 12, a plurality of supports 15 are disposed on the outer side of the outer sleeve 13 at equal intervals along the circumferential direction, one end of each support 15 is fixedly connected with the outer side of the outer sleeve 13, and the other end of each support 15 is. Through the arrangement, the motor 12 in the outer sleeve 13 is fixed in the ventilation pipe 11 by the support 15, and the fan blades 14 are driven to rotate by the motor 12, so that heat in the shell 1 extracted by the exhaust hood 9 is exhausted, the temperature in the shell 1 is reduced, and the normal work of the air compressor 5 is ensured.

Wherein, the top of air compressor 5 is connected with intake pipe 6, keeps away from 16 one sides of cooling tube on the gas holder 19 and is connected with air supply pipe 20, and air supply pipe 20 one end is passed casing 1 and is extended to the casing 1 outside, installs pneumatic valve 21 on the air supply pipe 20.

The utility model discloses in can derive the heat that air compressor 5 produced in the operation process through the first fin 7 that sets up on air compressor 5 surface, can derive the heat in the compressed air in cooling tube 16 through the second fin 17 that sets up on cooling tube 16, then under the effect of air intake 2, draught hood 9, ventilation pipe 11 and updraft ventilator, can discharge the heat that first fin 7 and second fin 17 derived in casing 1 fast, thereby reduce the temperature in casing 1, guarantee the normal continuous operation of air compressor 5, and can cool off the air after the compression; by spirally winding the second heat dissipation fins 17 along the length direction of the heat dissipation pipe 16 outside the heat dissipation pipe 16, the heat dissipation effect on the compressed air is improved, and the heat dissipation is more uniform.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (6)

1. An air compressor with high-efficiency heat dissipation function is characterized by comprising a shell, wherein a supporting plate is transversely and fixedly arranged in the shell, the top of the supporting plate is fixedly provided with the air compressor, the surface of the air compressor is provided with a plurality of first radiating fins which are uniformly distributed, an air storage tank is arranged below the supporting plate and fixedly arranged at the bottom in the shell, one side of the air compressor is communicated with the air storage tank through a radiating tube, a one-way valve is arranged on the radiating tube, a second radiating fin which is spirally wound along the length direction of the radiating tube is arranged on the outer wall of the radiating tube, an air inlet is formed in one side of the shell, an air outlet is formed in the top of the shell, an exhaust hood is arranged in the shell close to the air outlet and is in a prismatic table shape with a, the exhaust hood is characterized in that a fixed sleeve communicated with the interior of the exhaust hood is integrally formed at the upper end of the exhaust hood, one end of the fixed sleeve is detachably connected with one end of a ventilation pipe in a sealing mode, the other end of the ventilation pipe penetrates out of the air outlet and extends to the outside of the shell, and an exhaust device used for exhausting heat inside the shell is arranged in the ventilation pipe.

2. The air compressor with high heat dissipating efficiency as claimed in claim 1, wherein the thickness of the second heat dissipating fin gradually decreases from the end close to the heat dissipating pipe to the end away from the heat dissipating pipe, and the bottom of the second heat dissipating fin is in close contact with the outside of the heat dissipating pipe.

3. The air compressor with the efficient heat dissipation function according to claim 1 or 2, wherein the air draft device comprises a motor, an outer sleeve, fan blades and a support, the motor is arranged in the ventilation pipe, the outer sleeve is arranged outside the motor, the motor output shaft is arranged in parallel with the length direction of the ventilation pipe, the plurality of fan blades are arranged outside the motor output shaft, a plurality of supports are arranged outside the outer sleeve at equal intervals along the circumferential direction, one end of each support is fixedly connected with the outer side of the outer sleeve, and the other end of each support is fixedly connected with the inner side wall of the ventilation pipe.

4. The air compressor with the efficient heat dissipation function as claimed in claim 1, wherein one end of the fixing sleeve and one end of the ventilation pipe are detachably connected through a thread or a flange.

5. The air compressor with high heat dissipation efficiency as claimed in claim 1, wherein an air inlet pipe is connected to a top of the air compressor, an air supply pipe is connected to a side of the air storage tank away from the heat dissipation pipe, one end of the air supply pipe passes through the casing and extends to an outside of the casing, and an air valve is installed on the air supply pipe.

6. The air compressor with the efficient heat dissipation function as claimed in claim 1, wherein a filter screen is installed at the air inlet.

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