CN207245960U - A kind of air compressor cooling system - Google Patents
A kind of air compressor cooling system Download PDFInfo
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- CN207245960U CN207245960U CN201721220115.7U CN201721220115U CN207245960U CN 207245960 U CN207245960 U CN 207245960U CN 201721220115 U CN201721220115 U CN 201721220115U CN 207245960 U CN207245960 U CN 207245960U
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Abstract
A kind of air compressor cooling system, belongs to heat exchange equipment technology.The air compressor cooling system includes Wind-cooling type radiator and water-cooling type radiator;The Wind-cooling type radiator and water-cooling type radiator are equipped with the oil circuit connected with air compressor circulation line, and Wind-cooling type radiator is connected with the oil circuit of water-cooling type radiator with parallel way;Valve is respectively provided with the oil circuit oil inlet and oil outlet position of Wind-cooling type radiator and water-cooling type radiator;The water-cooling type radiator is additionally provided with the cooling water channel being connected with cooling water recirculation system, and valve is set in the water inlet and water outlet of the cooling water channel.The utility model solves Wind-cooling type heat radiator fin aeration structure and blocks the air compressor machine halting problem triggered, achievees the purpose that to ensure production equipment normal operation.
Description
Technical field
A kind of air compressor is the utility model is related to, especially a kind of air compressor cooling system, belongs to heat exchange
Equipment technical field.
Background technology
Air compressor (abbreviation air compressor machine) is a kind of equipment that source of the gas power is provided by compressed gas, it is by motive power
The mechanical energy of mechanism (being typically motor or diesel engine) is converted into gas pressure energy, is the pressure generator of compressed air.
Running air compressor machine, mechanical friction heat caused by its moving component, causes lubricating oil temperature to raise and be also easy to produce carbon deposit;It is empty
In air pressure compression process, the strenuous exercise between air molecule can also produce substantial amounts of heat;Therefore need to realize by cooling system
The cooling of lubricating oil, at present the cooling system of air compressor use Wind-cooling type heat spreader structures mostly.
As shown in Figure 1, the operation principle of Wind-cooling type radiator 2 is:In 1 operational process of screw type air compressor host,
High temperature and pressure lubricating oil enters Wind-cooling type radiator body after the separation of oil content barrel 5, is dried from fan 3 to heat radiator fin,
Acted on by flow conductance and take away the heat for flowing through lubricating oil in lumen of radiator, lubricating oil after cooling through oil screen 4 again
Air compressor host 1 is back to, completes a circulation.But 2 structure of Wind-cooling type radiator there are the drawbacks of be exactly heat radiator fin
Aeration structure easily blocks, and in the season especially danced in the air all over the sky in the northern area of China spring willow wadding, often occurs because of radiator
Fin aeration structure, which blocks, to be caused air compressor machine high temperature alarm, shuts down phenomenon, the normal operation of production equipment has been seriously affected, to enterprise
Industry production causes damages.
Utility model content
The utility model provides a kind of air compressor cooling system, is blocked up with solving Wind-cooling type heat radiator fin aeration structure
The air compressor machine halting problem triggered is filled in, achievees the purpose that to ensure production equipment normal operation.
To achieve the above object, the utility model adopts the following technical solution:
A kind of air compressor cooling system, including Wind-cooling type radiator and water-cooling type radiator;The Wind-cooling type heat dissipation
Device and water-cooling type radiator are equipped with the oil circuit connected with air compressor circulation line, Wind-cooling type radiator and water-cooling type heat dissipation
The oil circuit of device is connected with parallel way;At the oil circuit oil inlet and oil outlet position of Wind-cooling type radiator and water-cooling type radiator
It is respectively provided with valve;The water-cooling type radiator is additionally provided with the cooling water channel being connected with cooling water recirculation system, in the cooling water
The water inlet and water outlet on road set valve.
Above-mentioned air compressor cooling system, the water-cooling type radiator is plate heat exchanger structure, in heat exchanger cavity
Heat exchanger cavity, some areolas of sealing structure is divided into by partition plate, between the areola is by one group of partition plate of middle arrangement
Every the lubricant oil cavity and cooling water accommodating chamber of arrangement, oil circuit is set to be passed through through hole and cooling water channel on the partition plate
Hole, connects into the oil circuit in heat exchanger cavity with lubricant oil cavity, into the cooling water channel in heat exchanger cavity and cooling
Water accommodating chamber connects.
Above-mentioned air compressor cooling system, ripple flow deflector is equipped with the two sides of the partition plate.
Above-mentioned air compressor cooling system, the water-cooling type radiator are shell-and-tube heat exchanger structure, the water-cooling type
The oil circuit of radiator is coiled in lumen of radiator, and the cooling water channel of water-filled radiator is connected with lumen of radiator.
The beneficial effects of the utility model are:
The utility model Wind-cooling type radiator and water-cooling type radiator in parallel in air compressor circulation line, and in wind
Valve is respectively provided with the oil inlet and oil outlet position of cold mould radiator and water-cooling type radiator oil circuit, the opening and closing of valve can be passed through
Realize the switching of Wind-cooling type radiator and water-cooling type radiator working status, the autumn, winter in the northern area of China can pass through
Air-cooled pattern cools down air compressor lubricating oil, dries from fan to the fin of Wind-cooling type radiator, is made by flow conductance
Taken away with by the heat for flowing through lubricating oil in Wind-cooling type lumen of radiator, in spring, summer, when generation Wind-cooling type heat radiator fin
Water cooling pattern can be switched to during aeration structure clogging in time, by with cooling water heat exchanged form by the heat band of lubricating oil
Walk.It can be seen from the above that the utility model, which solves Wind-cooling type heat radiator fin aeration structure, blocks the air compressor machine halting problem triggered,
Achieve the purpose that to ensure production equipment normal operation.
Brief description of the drawings
Fig. 1 is the air compressor machine cooling system schematic diagram for using Wind-cooling type heat spreader structures in the prior art;
Fig. 2 is air compressor cooling system schematic diagram described in the utility model;
Fig. 3 is water-cooling type radiator first embodiment structure diagram;
Fig. 4 is water-cooling type radiator second embodiment structure diagram.
Each list of reference numerals is in figure:1st, air compressor host, 2, Wind-cooling type radiator, 3, fan, 4, oil screen, 5, oil
Bucket, 6, water-cooling type radiator, 6-1, partition plate, 6-2, ripple flow deflector, 6-3, lubricant oil cavity, 6-4, cooling water accommodating chamber,
7th, valve, 8, cooling water channel, 9, oil circuit.
Embodiment
Below in conjunction with the accompanying drawings and specific embodiment the utility model is described in further detail.
Referring to Fig. 2, the utility model is a kind of air compressor cooling system, it includes Wind-cooling type radiator 2 and water cooling
Type radiator 6;The Wind-cooling type radiator 2 and water-cooling type radiator 6 are equipped with the oil connected with air compressor circulation line
Road 9, Wind-cooling type radiator 2 are connected with the oil circuit of water-cooling type radiator 6 with parallel way;In Wind-cooling type radiator 2 and water-cooling type
Valve 7 is respectively provided with 9 oil inlet of oil circuit of radiator 6 and oil outlet position;The water-cooling type radiator 6 is additionally provided with and cooling water
The cooling water channel 8 of circulatory system connection, valve 7 is set in the water inlet and water outlet of the cooling water channel 8.The utility model
The switching of 6 working status of Wind-cooling type radiator 2 and water-cooling type radiator can be realized by the opening and closing of valve 7, in northern China
Autumn, the winter in area can cool down air compressor lubricating oil by air-cooled pattern, the wing from fan 3 to Wind-cooling type radiator 2
Piece is dried, and is acted on by flow conductance and is taken away the heat for flowing through lubricating oil in 2 inner cavity of Wind-cooling type radiator, in spring, summer,
Can switch to water cooling pattern in time when 2 fin aeration structure clogging of Wind-cooling type radiator occurs, by with cooling water heat
Exchanged form takes away the heat of lubricating oil.
Referring to Fig. 2, Fig. 3, air compressor cooling system described in the utility model, the water-cooling type radiator 6 first is in fact
It is plate heat exchanger structure to apply example, and one group of partition plate 6-1 is arranged in heat exchanger cavity, is divided heat exchanger cavity by partition plate 6-1
Some areolas of sealing structure are segmented into, the areola is spaced apart lubricant oil cavity 6-3 and cooling water accommodating chamber
6-4, sets oil circuit to pass through hole through hole and cooling water channel on the partition plate 6-1, into the oil circuit 9 in heat exchanger cavity and profit
Lubricating oil accommodating chamber 6-3 is connected, and is connected into the cooling water channel 8 in heat exchanger cavity with cooling water accommodating chamber 6-4;In the partition plate
The two sides of 6-1 is equipped with ripple flow deflector 6-2.
Referring to Fig. 2, Fig. 4, air compressor cooling system described in the utility model, the water-cooling type radiator 6 second is in fact
It is shell-and-tube heat exchanger structure to apply example, and the oil circuit 9 of the water-cooling type radiator 6 is coiled in lumen of radiator, water-filled radiator
Cooling water channel 8 connected with lumen of radiator.
Claims (4)
1. a kind of air compressor cooling system, it is characterized in that, the air compressor cooling system includes Wind-cooling type radiator
(2) and water-cooling type radiator (6);The Wind-cooling type radiator (2) and water-cooling type radiator (6) are equipped with and are followed with air compressor
The oil circuit (9) of ring pipeline connection, Wind-cooling type radiator (2) are connected with the oil circuit of water-cooling type radiator (6) with parallel way;In wind
Valve (7) is respectively provided with cold mould radiator (2) and oil circuit (9) oil inlet of water-cooling type radiator (6) and oil outlet position;It is described
Water-cooling type radiator (6) is additionally provided with the cooling water channel (8) being connected with cooling water recirculation system, the cooling water channel (8) into
The mouth of a river and water outlet set valve (7).
2. air compressor cooling system according to claim 1, it is characterized in that, the water-cooling type radiator (6) is plate
Formula heat exchanger structure, arranges one group of partition plate (6-1) in heat exchanger cavity, is divided into heat exchanger cavity by partition plate (6-1)
Some areolas of sealing structure, the areola are spaced apart lubricant oil cavity (6-3) and cooling water accommodating chamber (6-
4), oil circuit is set to pass through hole through hole and cooling water channel on the partition plate (6-1), into the oil circuit (9) in heat exchanger cavity
Connect with lubricant oil cavity (6-3), connected into the cooling water channel (8) in heat exchanger cavity with cooling water accommodating chamber (6-4).
3. air compressor cooling system according to claim 2, it is characterized in that, it is equal on the two sides of the partition plate (6-1)
Equipped with ripple flow deflector (6-2).
4. air compressor cooling system according to claim 1, it is characterized in that, the water-cooling type radiator (6) is pipe
Shell heat exchanger structure, the oil circuit (9) of the water-cooling type radiator (6) are coiled in lumen of radiator, water-filled radiator it is cold
But water route (8) are connected with lumen of radiator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721220115.7U CN207245960U (en) | 2017-09-22 | 2017-09-22 | A kind of air compressor cooling system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721220115.7U CN207245960U (en) | 2017-09-22 | 2017-09-22 | A kind of air compressor cooling system |
Publications (1)
Publication Number | Publication Date |
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CN207245960U true CN207245960U (en) | 2018-04-17 |
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ID=61886193
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721220115.7U Active CN207245960U (en) | 2017-09-22 | 2017-09-22 | A kind of air compressor cooling system |
Country Status (1)
Country | Link |
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CN (1) | CN207245960U (en) |
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2017
- 2017-09-22 CN CN201721220115.7U patent/CN207245960U/en active Active
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