CN217632821U - Efficient air compressor - Google Patents

Abstract

The utility model discloses an efficient air compressor, including the air compressor body, the suction hood is installed to the air inlet block of air compressor body, and the exhaust hood is installed to the gas outlet block of air compressor body, and the internally mounted of air compressor body has the gas pitcher body, and the equal fixed mounting in both sides of gas pitcher body has a plurality of copper conduction pipe, and the equal fixed mounting in both sides of exhaust hood inner wall has the movable rod, and the equal sliding connection in middle part of two movable rods has the heating panel, the utility model relates to an efficient air compressor, through setting up the heating panel, annular condenser pipe and add exhaust duct, when the air compressor accomplishes the gas compression after-exhaust, heating panel and annular condenser pipe pass through the heat transfer for the heat dissipation of gas pitcher, exhaust duct increases air compressor's exhaust efficiency, guarantees the air quantity that every duty cycle got into the cylinder, has improved air compressor's compression efficiency.

Description

Efficient air compressor

Technical Field

The utility model relates to an air compressor technical field specifically is an efficient air compressor.

Background

The air compressor is a device for providing air source power, is a core device of a pneumatic system, and is a main body in an electromechanical air-entraining source device, and is a device for converting mechanical energy of a prime mover, namely a motor or a diesel engine, into gas pressure energy, and is an air pressure generating device for compressing air, the air compressor and a water pump are similar in structure, common compressors in the market are roughly divided into a worm compressor and a piston compressor, however, with the use of the air compressor, it is found that when the air is compressed to a certain degree, the pressure temperature of the air rises along with the rise of the pressure temperature, the air releases heat to the cylinder wall of the air compressor, and meanwhile, a piston in the air compressor generates heat by friction with the cylinder wall, so that the temperature of the cylinder wall rises, and when residual air in the cylinder is mixed with low-temperature air sucked into the outside in the air suction process, the density decreases after the air temperature rises, so that the air amount entering the cylinder in each working cycle is reduced, and the compression efficiency of the air compressor is reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an efficient air compressor, in order to solve the people discovery that proposes in the above-mentioned background art to a certain extent when air compression, the pressure temperature of air risees thereupon, the air is exothermic to air compressor cylinder wall, piston and cylinder wall frictional heating in the air compressor simultaneously, so, cylinder wall temperature risees, and the in-cylinder residual gas of the in-process of breathing in heats when mixing with the external low temperature air of inspiration, and density descends after the air temperature risees, the air quantity that makes every duty cycle get into the cylinder reduces, the problem of air compressor's compression efficiency has been reduced.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an efficient air compressor, includes the air compressor body, the suction hood is installed to the air inlet block of air compressor body, the exhaust hood is installed to the gas outlet block of air compressor body, the internally mounted of air compressor body has the gas pitcher body, the equal fixed mounting in both sides of gas pitcher body has a plurality of heat conduction copper pipe, the equal fixed mounting in both sides of exhaust hood inner wall has the movable rod, two the equal sliding connection in middle part of movable rod has the heating panel, a plurality of the one side fixed connection that the gas pitcher body was kept away from to the heat conduction copper pipe is adjacent with two heating panels respectively, the inside fixed mounting of exhaust hood has annular condenser pipe, the fixed surface intercommunication of exhaust hood has two exhaust duct, two the equal fixed mounting in surface of heating panel has a plurality of fin, two equal fixed mounting has a movable spring between heating panel and the exhaust hood, and the heat that the gas pitcher body produced passes through heat conduction copper pipe and transmits to adjacent heating panel on, the heat radiating area of the installation increase of fin, and annular condenser pipe passes through the cooling water that the inside flows, reduces the gaseous temperature that flows in the exhaust hood.

Preferably, two the equal fixed mounting in middle part of exhaust duct has the flow valve, and the staff opens the flow valve, adjusts the gas flow rate in air compressor body transmits the exhaust duct.

Preferably, the inside fixed mounting of cover admits air has filtering mechanism, filtering mechanism includes first filter plate, two coupling springs, second filter plate, two positioning seats, two telescopic links and two angle seats, the equal fixed mounting in both sides on first filter plate top has the angle seat, two the inside of angle seat all rotates and is connected with the telescopic link, two the expansion end of telescopic link all rotates and is connected with the positioning seat, two the top of positioning seat respectively with the both sides fixed connection of second filter plate bottom, the equal fixed mounting in both ends between first filter plate and the second filter plate has coupling springs, and the impurity in the gas is intercepted through the second filter plate to the gas in the outer ring border, and the second filter plate receives the impact of gas to the direction motion that is close to first filter plate, and second filter plate extrudes coupling spring from one side, and the telescopic link takes place the change of corresponding length and angle simultaneously, and coupling spring has elasticity, and coupling spring takes place elastic deformation and cushions the extrusion force.

Preferably, last fixed mounting of exhaust hood has the filter core that is located the annular condenser pipe top, and the filter core intercepts the oily granule that air compressor body discharged to the external gas in, avoids air compressor body to discharge to external gaseous polluted working environment.

Preferably, the sealing plug is installed to the inside of annular condenser pipe water inlet and the equal block in inside of annular condenser pipe delivery port, and the staff opens the sealing plug on the annular condenser pipe water inlet, pours into the cooling water into to the annular condenser pipe, and the staff opens the sealing plug on the annular condenser pipe delivery port and discharges the cooling water to the external world in the annular condenser pipe.

Preferably, the surface of the air inlet cover is fixedly communicated with an air inlet pipeline, a worker opens a valve on the air inlet pipeline, and air in the external environment flows into the air compressor body through the air inlet pipeline.

Compared with the prior art, the beneficial effects of the utility model are that: through setting up heating panel, annular condenser pipe and addding exhaust duct, when air compressor accomplishes the gas compression back exhaust, heating panel and annular condenser pipe pass through the heat transfer for the heat dissipation of gas pitcher, exhaust duct increases air compressor's exhaust efficiency, guarantees the air quantity that every duty cycle got into the cylinder, has improved air compressor's compression efficiency.

Drawings

Fig. 1 is a side view of the present invention;

fig. 2 is a cross-sectional view of the intake cover of the present invention;

FIG. 3 is a side view of the filter mechanism of the present invention;

fig. 4 is a sectional view of the exhaust hood of the present invention.

In the figure: 1. an air compressor body; 2. a gas tank body; 3. a heat conducting copper tube; 4. a heat dissipation plate; 5. an exhaust duct; 6. a flow valve; 7. an air intake hood; 8. an air intake duct; 9. a filtering mechanism; 91. a first filter plate; 92. a connecting spring; 93. a second filter plate; 94. positioning seats; 95. a telescopic rod; 96. an angle seat; 10. an exhaust hood; 11. a filter element; 12. a sealing plug; 13. a heat sink; 14. a movable rod; 15. a movable spring; 16. and an annular condensation pipe.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

Please refer to fig. 1-4, the utility model provides an efficient air compressor, including air compressor body 1, air inlet hood 7 is installed to air compressor body 1's air inlet block, exhaust hood 10 is installed to air compressor body 1's gas outlet block, air compressor body 1's internally mounted has gas pitcher body 2, the equal fixed mounting in both sides of gas pitcher body 2 has a plurality of heat conduction copper pipe 3, the equal fixed mounting in both sides of exhaust hood 10 inner wall has movable rod 14, the equal sliding connection in middle part of two movable rod 14 has heating panel 4, the one end that gas pitcher body 2 was kept away from to a plurality of heat conduction copper pipe 3 is respectively with two adjacent one side fixed connection of heating panel 4, the inside fixed mounting of exhaust hood 10 has annular condenser pipe 16, the fixed surface of exhaust hood 10 communicates there are two exhaust duct 5, the equal fixed mounting in surface of two heating panels 4 has a plurality of fin 13, equal fixed mounting has movable spring 15 between two heating panels 4 and the exhaust hood 10, the heat that gas pitcher body 2 produced passes through heat conduction copper pipe 3 and transmits to adjacent heating panel 4, the heat radiating area of heat dissipation 4 is increased in the installation of fin 13, annular condenser pipe 16 passes through the cooling water that inside flows, reduce the gaseous temperature that flows in the exhaust hood 10.

The middle parts of the two exhaust pipelines 5 are fixedly provided with flow valves 6, the flow valves 6 are opened by workers, and the gas flow rate transmitted into the exhaust pipelines 5 by the air compressor body 1 is adjusted.

The inside fixed mounting that admits air cover 7 has filtering mechanism 9, filtering mechanism 9 includes first filter plate 91, two coupling springs 92, second filter plate 93, two positioning seats 94, two telescopic links 95 and two angle seats 96, the equal fixed mounting in both sides on first filter plate 91 top has angle seat 96, the inside of two angle seats 96 all rotates and is connected with telescopic link 95, the expansion end of two telescopic links 95 all rotates and is connected with positioning seat 94, the top of two positioning seats 94 respectively with the both sides fixed connection of second filter plate 93 bottom, the equal fixed mounting in both ends between first filter plate 91 and the second filter plate 93 has coupling spring 92, gas in the outer environment intercepts impurity in the gas through second filter plate 93, second filter plate 93 receives the gaseous impact to the direction motion that is close to first filter plate 91, second filter plate 93 extrudees coupling spring 92 from one side, the change of corresponding length and angle takes place for telescopic link 95 simultaneously, coupling spring 92 has elasticity, coupling spring 92 takes place elastic deformation and cushions the extrusion force.

The exhaust hood 10 is fixedly provided with a filter element 11 positioned above the annular condensation pipe 16, and the filter element 11 intercepts oily particles discharged into the outside air from the air compressor body 1, so that the air compressor body 1 is prevented from discharging into the outside air to pollute the working environment.

Sealing plug 12 is installed to the inside of 16 water inlets of annular condenser pipe and the equal block in inside of 16 delivery ports of annular condenser pipe, and the sealing plug 12 on the 16 water inlets of annular condenser pipe is opened to the staff, injects the cooling water into the annular condenser pipe 16, and the staff opens sealing plug 12 on the 16 delivery ports of annular condenser pipe and arranges the cooling water in the annular condenser pipe 16 to external.

The surface of the air inlet cover 7 is fixedly communicated with an air inlet pipeline 8, a worker opens a valve on the air inlet pipeline 8, and air in the external environment flows into the air compressor body 1 through the air inlet pipeline 8.

When the embodiment of the application is used: the staff opens the valve on the admission line 8, the gas of external environment flows into inside air compressor body 1 through admission line 8, the gas in the external environment intercepts the impurity in the gas through second filter plate 93, second filter plate 93 receives gaseous impact to the direction motion of being close to first filter plate 91, second filter plate 93 extrudees coupling spring 92 from one side, telescopic link 95 takes place the change of corresponding length and angle simultaneously, coupling spring 92 has elasticity, coupling spring 92 takes place elastic deformation and cushions the extrusion force, first filter plate 91 and the double-deck filtration of second filter plate 93, improve the cleanliness factor of the gaseous flow in air compressor body 1, air compressor body 1 compresses the gas after, the heat that gas pitcher body 2 produced passes through copper 3 and transmits to adjacent heating panel 4, the heat radiating area of heating panel 4 is increased in the installation of fin 13, annular condenser pipe 16 passes through the inside cooling water that flows, reduce the gaseous temperature of flow in exhaust hood 10.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. A high efficiency air compressor comprising an air compressor body (1), characterized in that: air inlet hood (7) are installed to the air inlet block of air compressor body (1), exhaust hood (10) are installed to the gas outlet block of air compressor body (1), the internally mounted of air compressor body (1) has gas pitcher body (2), the equal fixed mounting in both sides of gas pitcher body (2) has a plurality of heat conduction copper pipe (3), the equal fixed mounting in both sides of exhaust hood (10) inner wall has movable rod (14), two the equal sliding connection in middle part of movable rod (14) has heating panel (4), a plurality of the one end that gas pitcher body (2) were kept away from in heat conduction copper pipe (3) is respectively with two adjacent one side fixed connection of heating panel (4), the inside fixed mounting of exhaust hood (10) has annular condenser pipe (16), the fixed surface intercommunication of exhaust hood (10) has two exhaust duct (5), two the equal fixed mounting in surface of heating panel (4) has a plurality of fin (13), two equal fixed mounting has movable spring (15) between heating panel (4) and exhaust hood (10).

2. A high efficiency air compressor as claimed in claim 1 wherein: and the middle part of the two exhaust pipelines (5) is fixedly provided with a flow valve (6).

3. A high efficiency air compressor as claimed in claim 1 wherein: the inside fixed mounting of cover (7) admits air has filtering mechanism (9), filtering mechanism (9) include first filter plate (91), two coupling spring (92), second filter plate (93), two positioning seats (94), two telescopic link (95) and two angle seat (96), the equal fixed mounting in both sides on first filter plate (91) top has angle seat (96), two the inside of angle seat (96) all rotates and is connected with telescopic link (95), two the expansion end of telescopic link (95) all rotates and is connected with positioning seat (94), two the top of positioning seat (94) respectively with the both sides fixed connection of second filter plate (93) bottom, the equal fixed mounting in both ends between first filter plate (91) and second filter plate (93) has coupling spring (92).

4. A high efficiency air compressor as claimed in claim 1 wherein: and a filter element (11) positioned above the annular condensation pipe (16) is fixedly arranged on the exhaust hood (10).

5. A high efficiency air compressor as claimed in claim 1 wherein: and the sealing plug (12) is clamped and installed in the inner part of the water inlet of the annular condensation pipe (16) and the inner part of the water outlet of the annular condensation pipe (16).

6. A high efficiency air compressor as claimed in claim 1 wherein: and an air inlet pipeline (8) is fixedly communicated with the surface of the air inlet cover (7).

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