CN207317067U - Heating system based on residual heat of air compressor - Google Patents
Heating system based on residual heat of air compressor Download PDFInfo
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- CN207317067U CN207317067U CN201721389509.5U CN201721389509U CN207317067U CN 207317067 U CN207317067 U CN 207317067U CN 201721389509 U CN201721389509 U CN 201721389509U CN 207317067 U CN207317067 U CN 207317067U
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Abstract
The utility model belongs to waste-heat recovery device technical field, disclose a kind of heating system based on residual heat of air compressor, including the thermal conductive pipe connected with air compressor machine, further include room heater, heating pipe and water tank, thermal conductive pipe includes the first to the 3rd branch pipe, and the first to the 3rd branch pipe is distributed in herringbone;First branch pipe is connected with air compressor machine, and the second branch pipe is connected with room heater, and the 3rd branch pipe is connected with heating pipe;Second branch pipe is equipped with air inlet switch, and reflux valve is connected with the 3rd branch pipe;Room heater includes stent and the warming sheet being arranged on stent, and heating cavity is equipped with warming sheet, and the second branch pipe is connected to the side of warming sheet, and is connected with heating cavity, and the opposite side of warming sheet is equipped with some ventholes connected with heating cavity;Heating pipe runs through water tank.The utility model solves the prior art and the heat that produced during air compressor machine use cannot be made full use of, so that the problem of causing energy waste.
Description
Technical field
The utility model belongs to waste-heat recovery device field, and in particular to the heating system based on residual heat of air compressor.
Background technology
Air compressor machine, is a kind of equipment that compressed air is provided for factory floor.Its operation principle is squeezed using screw rod rotation
External atmospheric air is pressed, is compressed atmospheric air.Screw rod can produce substantial amounts of thermal energy during compressed air, therefore
To ensure the normal use of air compressor machine, it will usually irrigate substantial amounts of cooling oil or cooling water, cooling water or cold inside air compressor machine
But oil is radiated by groups of fins again.To air compressor machine radiate after cooling oil or cooling water temperature generally all 80 °-
100 °, therefore to ensure that cooling oil or cooling water normally cool down air compressor machine, be usually all to use wind turbine, pass through ventilation duct
Waste heat in air compressor machine is directly discharged to outdoor by road in a manner of hot wind.
The waste heat discharging modes of above-mentioned air compressor machine effectively can cool down press, but directly by hot air discharge,
The heat produced during air compressor machine use cannot sufficiently be utilized, cause the waste of residual heat of air compressor.
Utility model content
The utility model is intended to provide a kind of heating system based on residual heat of air compressor, cannot be to sky to solve the prior art
The heat produced during press use is made full use of, so that the problem of causing energy waste.
To achieve the above object, the utility model provides following technical solution, the heating system based on residual heat of air compressor, bag
The thermal conductive pipe connected with air compressor machine is included, further includes room heater, heating pipe and water tank, thermal conductive pipe is in herringbone, and is led
Hot channel includes first, second, third branch pipe;First branch pipe is connected with air compressor machine, and the second branch pipe is connected with room heater, the 3rd
Pipe is connected with heating pipe;Second branch pipe is equipped with air inlet switch, and reflux valve is connected with the 3rd branch pipe;Room heater includes stent
With the warming sheet being arranged on stent, warming sheet is interior to be equipped with heating cavity, and the second branch pipe is connected to the side of warming sheet, and with taking
Warm cavity connection, the opposite side of warming sheet are equipped with some ventholes connected with heating cavity;Heating pipe runs through water tank, storage
Water tank is equipped with water inlet and water outlet, is connected with water pump on water inlet, outlet pipe is connected with water outlet, outlet pipe is equipped with
Effluent switch.
The technique effect of this programme technical characteristic:
Lambdoid thermal conductive pipe is used to discharge the hot gas in air compressor machine, while hot gas is imported in room heater, carries out
Heating, or import in water tank, water is heated.Air inlet switch is provided with second branch pipe, beating for room heater can be controlled
On or off is closed, and reflux valve is set on the 3rd branch pipe, and when air inlet switch is opened, the gas in thermal conductive pipe is imported in room heater,
So that the pressure in thermal conductive pipe is smaller, therefore reflux valve is inoperative.
After air inlet switch is closed, by the first branch pipe it is lasting be passed through hot gas, the pressure increase in passage of heat so that
Reflux valve automatically opens up, and hot gas is exported from the 3rd branch pipe, is entered back into heating pipe, then the water in water tank is heated.
After water in water tank is heated, effluent switch is opened, the water in water tank is flowed out along outlet pipe, and realizing that hot water takes out makes
With so that the waste heat produced to air compressor machine utilizes.After hot gas enters the second branch pipe, enter back into heating cavity, by logical
Stomata flows out, and warms oneself.
The technical principle of this programme is:
Air compressor machine is respectively communicated with room heater and water tank respectively using thermal conductive pipe, when need heating when, open into
Air cock, hot gas are entered in heating cavity by the second branch pipe, then are sprayed at by venthole outflow on human body, are warmed oneself.
When that need not warm oneself, air inlet switch is closed, the pressure increase in thermal conductive pipe so that reflux valve is opened, so that hot gas
Into in heating pipe, the water in water tank is heated, is used being taken out hot water by outlet pipe.
What this programme can produce has the technical effect that:
1st, the technical program can reuse the waste heat of air compressor machine, play environmentally friendly, energy saving effect;
2nd, by the way that thermal conductive pipe is arranged to herringbone, a variety of utilizations can be carried out to hot gas;
3rd, when opening air inlet switch, waste heat can realize heating;When that need not warm oneself, waste heat can be in water tank
Water heated, enable to the waste heat of air compressor machine to be fully utilized.
It is the preferred solution based on such scheme below:
Preferred solution one:Based on base case, the heating pipe is in the shape of a spiral.Hot gas can edge after heating pipe is entered
Heating pipe flowing, and heating pipe is set into helical form so that heating pipe is located at the effective length increase in water tank,
Therefore the time of contact of hot gas and the water in water tank can be increased, so that the heat exchange of water and hot gas is more abundant, can be made
The heat for obtaining hot gas is more fully utilized.
Preferred solution two:Based on preferred solution one, the warming sheet is equipped with a lateral opposite side depression of venthole.Energy
It is enough more to assemble so that passing through the hot gas flowed out in venthole.
Preferred solution three:Based on preferred solution two, the venthole is obliquely installed, and the angle of inclination of adjacent vent holes
It is different.Hot gas is avoided to be sprayed directly on caused usage comfort on human body low;Pass through what the angle of inclination of venthole was set
Difference, the hot phase for enabling to flow out from venthole are mutually hit, so that slow down the speed that hot gas is sprayed on human body, so that
Improve usage comfort.
Preferred solution four:Based on preferred solution three, sieve is equipped with second branch pipe.The gas flowed out out of air compressor machine
In may carry impurity, impurity can be stopped by sieve, avoids impurity from being sprayed on human body, human body is caused to hinder
Evil.
Preferred solution five:Based on preferred solution four, insulating tube is enclosed with the outer wall of the thermal conductive pipe, insulating tube includes
Froth bed, asbestos layer and the rubber layer set gradually from the inside to the outside.Insulating tube is used to keep the temperature thermal conductive pipe, avoids heat conduction
Pipeline causes heat losses during hot gas is transmitted;Froth bed and asbestos layer have the effect of thermal insulation, avoid hot gas with it is outer
Heat exchange occurs for boundary's air, so as to play the effect of insulation.
Brief description of the drawings
Fig. 1 is the structure diagram of heating system of the utility model based on residual heat of air compressor;
Fig. 2 is the structure diagram of water tank in Fig. 1;
Fig. 3 is the structure diagram of room heater in Fig. 1;
Fig. 4 is the structure diagram of warming sheet in Fig. 3.
Embodiment
The utility model is described in further detail below by embodiment:
Reference numeral in Figure of description includes:Air compressor machine 1, thermal conductive pipe 2, the first branch pipe 21, the second branch pipe 22,
Three branch pipes 23, room heater 3, stent 31, warming sheet 32, heating cavity 321, venthole 322, heating pipe 4, water tank 5, water inlet
Mouth 51, water outlet 52, outlet pipe 53, insulating tube 6, froth bed 61, asbestos layer 62, rubber layer 63.
As shown in Figure 1, the heating system based on 1 waste heat of air compressor machine, including thermal conductive pipe 2, room heater 3,4 and of heating pipe
Water tank 5.The inner wall of thermal conductive pipe 2 is embedded with some activated carbons, and thermal conductive pipe 2 includes the first branch pipe 21, the second branch pipe 22
With the 3rd branch pipe 23, the first branch pipe 21, the second branch pipe 22, the 3rd branch pipe 23 are set in herringbone, and the left end of the first branch pipe 21 connects
It is connected on air compressor machine 1, the right end of the second branch pipe 22 is connected on room heater 3, and the second branch pipe 22 is equipped with air inlet switch, and second
Sieve is additionally provided with branch pipe 22;The right end of 3rd branch pipe 23 is connected with heating pipe 4, and the 3rd branch pipe 23 is equipped with reflux valve.
As shown in Fig. 2, heating pipe 4 is in the shape of a spiral, the top and bottom of water tank 5 are equipped with mounting hole, heating pipe 4
Run through the upper and lower ends of water tank 5 by mounting hole, rubber seal is installed in mounting hole.The top of 5 left side wall of water tank
Equipped with water inlet 51, water pump is connected with water inlet 51;The lower part of the right side wall of water tank 5 is equipped with water outlet 52, water outlet 52
On be connected with outlet pipe 53, outlet pipe 53 is equipped with effluent switch.Insulating tube 6, insulating tube are enclosed with the outer wall of thermal conductive pipe 2
6 froth bed 61, asbestos layer 62 and rubber layers 63 including setting gradually from the inside to the outside.
As shown in figure 3, room heater 3 includes roller, base, stent 31 and the warming sheet 32 set gradually from top to bottom, bottom
Seat be in frustum, as shown in figure 4, the right side of warming sheet 32 is recessed to the left, is equipped with cavity 321 of warming oneself in warming sheet 32, second
The right end of pipe 22 is connected on the left side wall of warming sheet 32, and the second branch pipe 22 is connected with heating cavity 321.The right side of warming sheet 32
Side wall is equipped with some inclined through holes, and the angle of inclination of adjacent through-holes is different, and through hole is connected with heating cavity 321.
During using the present embodiment, the waste heat of the generation of air compressor machine 1, is exported by the first branch pipe 21, when needing heating, is opened
Air inlet switch, after hot gas is removed impurity by the sieve on the second branch pipe 22, enters back into heating cavity 321, finally by
Venthole 322 flows out, and is sprayed on human body, realizes heating.When that need not warm oneself, air inlet switch is closed, in thermal conductive pipe 2
Pressure becomes larger so that reflux valve automatically opens up, and hot gas is entered in heating pipe 4 by the 3rd branch pipe 23, then passes through heating pipe 4
With the water in water tank 5 heat exchange occurs for interior hot gas so that the coolant-temperature gage rise in heating water tank 5, is easy to use.Need
During using hot water, it is only necessary to open effluent switch, just can be used.
For those skilled in the art, on the premise of technical solutions of the utility model are not departed from, can also make
Go out several modifications and improvements, these should also be considered as the scope of protection of the utility model, these are all without influence the utility model
The effect and practical applicability of implementation.
Claims (6)
1. the heating system based on residual heat of air compressor, including the thermal conductive pipe connected with air compressor machine, it is characterised in that:Further include and take
Warming-up, heating pipe and water tank, thermal conductive pipe includes the first to the 3rd branch pipe, and the first to the 3rd branch pipe is in herringbone point
Cloth;First branch pipe is connected with air compressor machine, and the second branch pipe is connected with room heater, and the 3rd branch pipe is connected with heating pipe;Second branch pipe
Air inlet switch is equipped with, reflux valve is connected with the 3rd branch pipe;Room heater includes stent and the warming sheet being arranged on stent, takes
Heating cavity is equipped with warm piece, the second branch pipe is connected to the side of warming sheet, and is connected with heating cavity, the opposite side of warming sheet
Equipped with some ventholes connected with heating cavity;Heating pipe runs through water tank, and water tank is equipped with water inlet and water outlet,
Water pump is connected with water inlet, outlet pipe is connected with water outlet, outlet pipe is equipped with effluent switch.
2. the heating system according to claim 1 based on residual heat of air compressor, it is characterised in that:The heating pipe is in spiral shell
Revolve shape.
3. the heating system according to claim 2 based on residual heat of air compressor, it is characterised in that:The warming sheet is equipped with
One lateral opposite side depression of venthole.
4. the heating system according to claim 3 based on residual heat of air compressor, it is characterised in that:The venthole tilts
Set, and the angle of inclination of adjacent vent holes is different.
5. the heating system according to claim 4 based on residual heat of air compressor, it is characterised in that:Set in second branch pipe
There is sieve.
6. the heating system according to claim 5 based on residual heat of air compressor, it is characterised in that:Outside the thermal conductive pipe
Insulating tube is enclosed with wall, insulating tube includes froth bed, asbestos layer and the rubber layer set gradually from the inside to the outside.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721389509.5U CN207317067U (en) | 2017-10-25 | 2017-10-25 | Heating system based on residual heat of air compressor |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721389509.5U CN207317067U (en) | 2017-10-25 | 2017-10-25 | Heating system based on residual heat of air compressor |
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Publication Number | Publication Date |
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CN207317067U true CN207317067U (en) | 2018-05-04 |
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CN201721389509.5U Active CN207317067U (en) | 2017-10-25 | 2017-10-25 | Heating system based on residual heat of air compressor |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111998428A (en) * | 2020-09-05 | 2020-11-27 | 张惠言 | Air compressor cooling water waste heat utilization system capable of avoiding excessive heat dissipation loss |
-
2017
- 2017-10-25 CN CN201721389509.5U patent/CN207317067U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111998428A (en) * | 2020-09-05 | 2020-11-27 | 张惠言 | Air compressor cooling water waste heat utilization system capable of avoiding excessive heat dissipation loss |
CN111998428B (en) * | 2020-09-05 | 2022-03-08 | 张惠言 | Air compressor cooling water waste heat utilization system capable of avoiding excessive heat dissipation loss |
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