CN111219340A

CN111219340A - Array type miniature gas compressor

Info

Publication number: CN111219340A
Application number: CN202010153936.3A
Authority: CN
Inventors: 魏文民
Original assignee: Individual
Current assignee: Shandong Aisuo Technology Group Co ltd
Priority date: 2020-03-07
Filing date: 2020-03-07
Publication date: 2020-06-02
Anticipated expiration: 2040-03-07
Also published as: CN111219340B

Abstract

The invention discloses an array type micro gas compressor, which structurally comprises a gas compressor, a damping supporting leg, a power switch, a carrying handle, a radiator and an air outlet pipe, wherein the gas compressor enables an impeller to compress gas for multiple times through an array type one-way compression mechanism and send the gas into a pressurization cavity, the compressed gas is increased in the same way, the compressed gas in the pressurization cavity is extruded and sent into the compression cavity in a pressurization way through a honeycomb type gas guide valve, the gas is pushed and pushed away by the pressurization and secondary compression mechanism to be discharged, the gas compression efficiency is improved, a rotor drives a gas suction valve plate to rotate to generate negative pressure suction force, the external gas is sent into the gas compressor, the gas suction efficiency is improved, dust is filtered and intercepted through a gas filter screen cover, the gas can not bring the dust into the gas, the internal blockage or the mechanical abrasion caused by the friction between machinery and the, Thermal deformation and the like occur.

Description

Array type miniature gas compressor

Technical Field

The invention relates to the field of petrochemical universal machinery, in particular to an array type micro gas compressor.

Background

The micro gas compressing and conveying device is also called a micro gas compressor, a gas pump, a gas compressing device and the like, and is mainly used for various aspects of gas sampling, gas circulation and supply, gas injection cooling, negative pressure maintaining, gas charging and pressurizing, oxygen adding and the like. According to the working principle, the common gas compression devices can be divided into diaphragm type, electromagnetic type, impeller type, piston type and the like, and have the common characteristics that the common gas compression devices comprise mechanical transmission parts, so that the common gas compression devices have complex structures and large volumes, weights, power consumption and the like. And the impeller type compressor has the defects that excessive dust is sucked due to large wind force of inlet air, the internal blockage of the micro compressor is caused or mechanical abrasion, thermal deformation and other factors occur due to the friction between the impeller type compressor and the dust after a long time, and the compression strength of the impeller type compressor to gas is poor, so that the working efficiency of the compressor is reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the utility model provides a miniature gas compressor of array, its structure includes gas compressor, shock attenuation supporting legs, switch, carrying handle, radiator, outlet duct, the gas compressor bottom have the shock attenuation supporting legs, gas compressor and shock attenuation supporting legs adopt clearance fit, the gas compressor top on install switch, gas compressor top intermediate position on be equipped with the carrying handle, gas compressor and carrying handle fixed connection, the gas compressor top on be equipped with the radiator, gas compressor and radiator structure as an organic whole, the radiator have the outlet duct, the outlet duct be connected with gas compressor.

As a further optimization of the technical scheme, the gas compressor comprises a machine body, a pressurizing mechanism, a motor, a rotor, impellers, an air inlet pipeline and an air inlet filtering mechanism, wherein the pressurizing mechanism is arranged on the top end inside the machine body, the machine body and the pressurizing mechanism are of an integrated structure, the motor is arranged on the inside of the machine body, the rotor is arranged on the motor, one end of the motor is mechanically connected with one end of the rotor, the surface of the rotor is provided with the impellers with more than two parts, the rotor is fixedly connected with the impellers, the air inlet pipeline is arranged inside the machine body, the air inlet filtering mechanism is arranged on the right end of the machine body, and the machine body is movably connected with the air inlet filtering mechanism.

As the further optimization of this technical scheme, the loading system constitute by body, the one-way compression mechanism of array, pressurize chamber, compression chamber, secondary compressor, the body inside from left to right be equipped with compression chamber, pressure chamber in proper order, the inboard bottom in pressure chamber have the one-way compression mechanism of array, the one-way compression mechanism of array and body structure as an organic whole, compression chamber inboard on be equipped with secondary compression mechanism, secondary compressor construct and be connected with the body.

As a further optimization of the technical scheme, the array type one-way compression mechanism comprises a valve plate, a telescopic column, a spring, a convex valve plate and air guide holes, wherein the lower end of the valve plate is provided with more than two telescopic columns in an array manner, the valve plate is connected with the top end of the telescopic column, the surface of the telescopic column is provided with the spring, the lower end of the telescopic column is provided with the convex valve plate, the telescopic column is fixedly connected with the convex valve plate, and the inner side of the valve plate is provided with the air guide holes more than two.

As a further optimization of the technical scheme, a honeycomb air guide valve is arranged between the pressurizing cavity and the compression cavity, and the pressurizing cavity is communicated with the compression cavity through the honeycomb air guide valve.

As a further optimization of the technical scheme, the intake filter mechanism comprises an intake cover plate, an intake hole, a rotating shaft, an intake valve plate and a gas filter screen, the intake cover plate is provided with the intake hole on the surface, the gas filter screen is arranged on the inner side of the intake cover plate, the intake cover plate is connected with the gas filter screen through the rotating shaft, the rotating shaft is provided with three intake valve plates in equidistant distribution on the surface, and the rotating shaft is mechanically connected with the intake valve plates.

As a further optimization of the technical scheme, a dust removing cover is arranged below the bottom end of the air inlet cover plate, and the air inlet cover plate is movably connected with the dust removing cover.

As a further optimization of the technical scheme, an ash removal scraping strip is arranged below the inner side of the air suction valve plate, and the air suction valve plate is connected with the ash removal scraping strip through glue.

As a further optimization of the technical scheme, the gas filter screen cover is movably attached to the air suction valve plate through the ash removal scraping strip.

As a further optimization of the technical scheme, the air inlet cover plate and the air filter screen are parallel to each other.

As a further optimization of the technical scheme, the other end of the rotor is connected with one end of the rotating shaft.

As the further optimization of the technical scheme, the convex valve plate is made of rubber materials, so that the valve plate is high in flexibility and not easy to deform.

Advantageous effects

The invention relates to an array type micro gas compressor, a power switch is turned on, the gas compressor is powered on by electric energy, a motor converts the electric energy into kinetic energy through a rotor, the rotor drives a vane wheel to compress outside air from an air inlet pipeline and send the compressed air into the bottom end of a convex valve plate, the convex valve plate is pushed upwards by multiple gas compression, the convex valve plate drives a telescopic column to push a spring upwards, the compressed gas enters a pressurizing cavity through a gas guide hole on a valve plate, the vane wheel sends the compressed gas into the pressurizing cavity in the same way, the compressed gas in the pressurizing cavity is extruded into a compressing cavity in a pressurizing way through a honeycomb gas guide valve, the compressed gas in the compressing cavity is pressurized and pushed away by a secondary compression mechanism in the same way, the gas is discharged, the pressurizing work of the gas compressor is completed, when the rotor rotates, a rotating shaft is driven, the rotating shaft drives the air suction valve plate to rotate, send external gas into inside through the inlet port on the apron of admitting air, when external gas passes through the gas filtration screen panel, filter the interception to the dust that gas drove, make gas can not bring the dust into inside the gas compressor, and the dust that is intercepted stops on the gas filtration screen panel surface, the valve block of breathing in utilizes the deashing to scrape the strip and scrapes the dust from its surface, the rethread is opened the deashing lid and is gone out the dust clearance, avoid long-time accumulation jam, also made things convenient for the cleaning efficiency to the dust.

Compared with the prior art, the invention has the beneficial effects that: the gas compressor enables the impeller to compress gas for multiple times through the array type one-way compression mechanism and sends the gas into the pressurization cavity, compressed gas is increased in the same mode, the compressed gas in the pressurization cavity is extruded and sent into the compression cavity in a pressurization mode through the honeycomb type gas guide valve, the secondary compression mechanism is pushed open by the pressurization, the gas is discharged, the gas compression efficiency is improved, the rotor is used for driving the suction valve plate to rotate to generate negative pressure suction, the outside gas is sent into the gas compressor, the gas suction efficiency is improved, dust is filtered and intercepted through the gas filter screen, the gas cannot bring the dust into the gas, and the occurrence of factors such as mechanical abrasion and thermal deformation caused by internal blockage or friction between machinery and the dust is avoided.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an array type micro gas compressor according to the present invention.

FIG. 2 is a schematic cross-sectional front view of an array type micro gas compressor according to the present invention.

Fig. 3 is a schematic front sectional view of the pressing mechanism of the present invention.

FIG. 4 is an enlarged view of A of FIG. 3 according to the present invention.

Fig. 5 is a schematic top sectional view of the pressing mechanism of the present invention.

FIG. 6 is an enlarged view of B of FIG. 3 according to the present invention.

Fig. 7 is a schematic structural view of an intake air filter mechanism of the present invention.

In the figure: the air compressor comprises a gas compressor-1, a shock-absorbing supporting leg-2, a power switch-3, a carrying handle-4, a radiator-5, an air outlet pipe-6, a machine body-1 a, a pressurizing mechanism-1 b, a motor-1 c, a rotor-1 d, an impeller-1 e, an air inlet pipeline-1 f, an air inlet filtering mechanism-1 g, a pipe body-1 b1, an array type unidirectional compression mechanism-1 b2, a pressurizing cavity-1 b3, a compression cavity-1 b4, a secondary compression mechanism-1 b5, a valve plate-1 b21, a telescopic column-1 b22, a spring-1 b23, a convex valve plate-1 b24, an air guide hole-1 b25, a honeycomb type air guide valve-1 b31, an air inlet cover plate-1 g1, an air inlet hole-1 g2, a rotating shaft-1 g3, an air inlet valve plate-1 g4, an, The gas filter screen comprises-1 g5, ash removal cover-1 g11 and ash removal scraping strip-1 g 41.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1

Referring to fig. 1-5, the present invention provides an array type micro gas compressor, which structurally comprises a gas compressor 1, shock absorption supporting legs 2, a power switch 3, a handle 4, a radiator 5 and an air outlet pipe 6, wherein the shock absorption supporting legs 2 are arranged below the bottom end of the gas compressor 1, the gas compressor 1 and the shock absorption supporting legs 2 are in clearance fit, the power switch 3 is arranged on the top end of the gas compressor 1, the handle 4 is arranged in the middle position of the top end of the gas compressor 1, the gas compressor 1 and the handle 4 are fixedly connected, the radiator 5 is arranged on the top end of the gas compressor 1, the gas compressor 1 and the radiator 5 are of an integrated structure, the air outlet pipe 6 is arranged below the radiator 5, and the air outlet pipe 6 is connected with the gas compressor 1.

Gas compressor 1 constitute by organism 1a, loading system 1b, motor 1c, rotor 1d, impeller 1e, admission line 1f, air intake filter 1g, the inside top of organism 1a on be equipped with loading system 1b, organism 1a and loading system 1b structure as an organic whole, organism 1a inside on install motor 1c, motor 1c on be equipped with rotor 1d, motor 1c and rotor 1d one end mechanical connection, rotor 1d on the surface be equipped with more than two impeller 1e, rotor 1d and impeller 1e fixed connection, organism 1a inside be equipped with admission line 1f, organism 1a right-hand member on be equipped with air intake filter 1g, organism 1a and air intake filter 1g swing joint.

Pressurization mechanism 1b by body 1b1, the one-way compression mechanism of array 1b2, pressurization chamber 1b3, compression chamber 1b4, secondary compression mechanism 1b5 constitute, body 1b1 inside from left to right be equipped with compression chamber 1b4, pressurization chamber 1b3 in proper order, the inboard bottom in pressurization chamber 1b3 be equipped with the one-way compression mechanism of array 1b2, the one-way compression mechanism of array 1b2 and body 1b1 be the integral structure, compression chamber 1b4 inboard be equipped with secondary compression mechanism 1b5, secondary compression mechanism 1b5 be connected with body 1b 1.

The array type unidirectional compression mechanism 1b2 comprises a valve plate 1b21, a telescopic column 1b22, a spring 1b23, a convex valve plate 1b24 and air guide holes 1b25, wherein more than two telescopic columns 1b22 are arranged below the bottom end of the valve plate 1b21 in an array mode, the valve plate 1b21 is connected with the top end of a telescopic column 1b22, the surface of the telescopic column 1b22 is provided with the spring 1b23, the bottom end of the telescopic column 1b22 is provided with a convex valve plate 1b24 below, the telescopic column 1b22 is fixedly connected with the convex valve plate 1b24, and the inner side of the valve plate 1b21 is provided with more than two air guide holes 1b 25.

A honeycomb air guide valve 1b31 is arranged between the pressurizing cavity 1b3 and the compression cavity 1b4, and the pressurizing cavity 1b3 is communicated with the compression cavity 1b4 through the honeycomb air guide valve 1b 31.

The principle of the embodiment: the power switch 3 is turned on to electrify the gas compressor 1, the electric motor 1c converts the electric energy into kinetic energy through the rotor 1d, the rotor 1d drives the impeller 1e to compress the outside air from the air inlet pipeline 1f and send the outside air into the bottom end of the convex valve plate 1b24, the convex valve plate 1b24 is pushed upwards by multiple times of gas compression, the convex valve plate 1b24 drives the telescopic column 1b22 to push the spring 1b23 upwards, compressed gas enters the pressurizing cavity 1b3 through the gas guide holes 1b25 in the valve plate 1b21, the impeller 1e sends the compressed gas into the pressurizing cavity 1b3 in the same way, the compressed gas in the pressurizing cavity 1b3 is extruded into the compressing cavity 1b4 in a pressurization way through the honeycomb gas guide valve 1b31, and the compressed gas in the compressing cavity 1b4 is pressurized and pushes open the secondary compressing mechanism 1b5 in the same way, so that the gas is discharged, and the pressurizing work of the gas compressor 1 is completed.

The method for solving the problems in the embodiment is as follows: the gas compressor 1 enables the impeller 1e to compress gas for multiple times through the array type one-way compression mechanism 1b2 and send the gas into the pressurization cavity 1b3, the compressed gas is increased in the same way, the compressed gas in the pressurization cavity 1b3 is extruded and sent into the compression cavity 1b4 through the honeycomb type gas guide valve 1b31 in a pressurization way, the secondary compression mechanism 1b5 is pushed open through pressurization, the gas is discharged, and the gas compression efficiency is improved.

Example 2

Referring to fig. 1-7, the present invention provides an array type micro gas compressor, wherein the intake filter mechanism 1g comprises an intake cover plate 1g1, an intake hole 1g2, a rotating shaft 1g3, intake valve plates 1g4, and a gas filter screen 1g5, the surface of the intake cover plate 1g1 is provided with an intake hole 1g2, the inner side of the intake cover plate 1g1 is provided with a gas filter screen 1g5, the intake cover plate 1g1 and the gas filter screen 1g5 are connected through the rotating shaft 1g3, the surface of the rotating shaft 1g3 is equidistantly distributed with three intake valve plates 1g4, and the rotating shaft 1g3 is mechanically connected with the intake valve plates 1g 4.

An ash removal cover 1g11 is arranged below the bottom end of the air inlet cover plate 1g1, and the air inlet cover plate 1g1 is movably connected with the ash removal cover 1g 11.

The inside of the air suction valve plate 1g4 is provided with an ash removal scraping strip 1g41, and the air suction valve plate 1g4 is connected with the ash removal scraping strip 1g41 through glue.

Gas filter screen panel 1g5 and air suction valve block 1g4 scrape strip 1g41 activity laminating through the deashing, air inlet panel 1g1 and gas filter screen panel 1g5 be parallel to each other between the two, the rotor 1d other end be connected with pivot 1g3 one end, protruding type valve block 1b24 adopt the preparation of rubber material, the pliability is strong, and non-deformable.

The principle of the embodiment: when the rotor 1d rotates, the rotating shaft 1g3 is driven, the rotating shaft 1g3 drives the air suction valve plate 1g4 to rotate to generate negative pressure suction force, outside air is sent into the air compressor through the air inlet holes 1g2 on the air inlet cover plate 1g1, when the outside air passes through the air filter screen 1g5, dust driven by the air is filtered and intercepted, so that the air cannot bring the dust into the air compressor 1, the intercepted dust stays on the surface of the air filter screen 1g5, the air suction valve plate 1g4 scrapes the dust from the surface of the air filter screen 1g41 by using the ash removal scraping strip 1g41, the dust is cleaned out by opening the ash removal cover 1g11, long-time accumulation blockage is avoided, and the dust cleaning efficiency is also facilitated.

The method for solving the problems in the embodiment is as follows: utilize rotor 1d to drive the rotation of suction valve piece 1g4 and produce negative pressure suction, send external gas into inside gas compressor 1, improve gaseous suction efficiency, filter the interception to the dust through gas filter screen panel 1g5 for gas can not bring the dust into gas, avoids inside jam or machinery and dust friction to appear the emergence of factors such as mechanical wear, heat altered shape.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an array miniature gas compressor, its structure includes gas compressor (1), shock attenuation supporting legs (2), switch (3), carrying handle (4), radiator (5), outlet duct (6), its characterized in that: gas compressor (1) bottom have shock attenuation supporting legs (2), gas compressor (1) and shock attenuation supporting legs (2) adopt clearance fit, gas compressor (1) top on install switch (3), gas compressor (1) top intermediate position on be equipped with carrying handle (4), gas compressor (1) and carrying handle (4) fixed connection, gas compressor (1) top on be equipped with radiator (5), gas compressor (1) and radiator (5) structure as an organic whole, radiator (5) have outlet duct (6), outlet duct (6) be connected with gas compressor (1).

2. The array type micro gas compressor as claimed in claim 1, wherein: the gas compressor (1) consists of a machine body (1a), a pressurizing mechanism (1b), a motor (1c), a rotor (1d), an impeller (1e), an air inlet pipeline (1f) and an air inlet filtering mechanism (1g), wherein the pressurizing mechanism (1b) is arranged at the top end inside the machine body (1a), the machine body (1a) and the pressurizing mechanism (1b) are of an integrated structure, the motor (1c) is arranged inside the machine body (1a), the rotor (1d) is arranged on the motor (1c), the motor (1c) is mechanically connected with one end of the rotor (1d), more than two impellers (1e) are arranged on the surface of the rotor (1d), the rotor (1d) is fixedly connected with the impeller (1e), the air inlet pipeline (1f) is arranged inside the machine body (1a), the air inlet filtering mechanism (1g) is arranged at the right end of the machine body (1a), and the machine body (1a) is movably connected with the air inlet filtering mechanism (1 g).

3. The array type micro gas compressor as claimed in claim 2, wherein: pressurization mechanism (1b) constitute by body (1b1), the one-way compressing mechanism of array (1b2), pressurization chamber (1b3), compression chamber (1b4), secondary compressing mechanism (1b5), body (1b1) inside from left to right be equipped with compression chamber (1b4), pressurization chamber (1b3) in proper order, pressurization chamber (1b3) inboard bottom have the one-way compressing mechanism of array (1b2), the one-way compressing mechanism of array (1b2) and body (1b1) be the integral structure, compression chamber (1b4) inboard on be equipped with secondary compressing mechanism (1b5), secondary compressing mechanism (1b5) be connected with body (1b 1).

4. An array type micro gas compressor as claimed in claim 3, wherein: array one-way compression mechanism (1b2) by valve plate (1b21), flexible post (1b22), spring (1b23), protruding type valve block (1b24), air guide hole (1b25) constitute, valve plate (1b21) bottom array be equipped with more than two flexible post (1b22), valve plate (1b21) and flexible post (1b22) top be connected, flexible post (1b22) install spring (1b23) on the surface, flexible post (1b22) bottom under have protruding type valve block (1b24), flexible post (1b22) and protruding type valve block (1b24) fixed connection, valve plate (1b21) inboard be equipped with more than two air guide hole (1b 25).

5. An array type micro gas compressor as claimed in claim 3, wherein: a honeycomb air guide valve (1b31) is arranged between the pressurizing cavity (1b3) and the compression cavity (1b4), and the pressurizing cavity (1b3) is communicated with the compression cavity (1b4) through the honeycomb air guide valve (1b 31).

6. The array type micro gas compressor as claimed in claim 2, wherein: intake filter mechanism (1g) by intake apron (1g1), inlet port (1g2), pivot (1g3), air suction valve block (1g4), gas filtration screen panel (1g5) constitute, intake apron (1g1) be equipped with inlet port (1g2) on the surface, intake apron (1g1) inboard on be equipped with gas filtration screen panel (1g5), intake apron (1g1) and gas filtration screen panel (1g5) be connected through pivot (1g3), pivot (1g3) on the surface equidistant three air suction valve block (1g4) that distribute, pivot (1g3) and air suction valve block (1g4) mechanical connection.

7. The array type micro gas compressor as claimed in claim 6, wherein: the bottom end of the air inlet cover plate (1g1) is provided with an ash removal cover (1g11), and the air inlet cover plate (1g1) is movably connected with the ash removal cover (1g 11).

8. The array type micro gas compressor as claimed in claim 6, wherein: the inside of the air suction valve plate (1g4) is provided with an ash removal scraping strip (1g41), and the air suction valve plate (1g4) is connected with the ash removal scraping strip (1g41) through glue.