CN207729976U - A kind of energy-saving baking box - Google Patents
A kind of energy-saving baking box Download PDFInfo
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- CN207729976U CN207729976U CN201721811908.6U CN201721811908U CN207729976U CN 207729976 U CN207729976 U CN 207729976U CN 201721811908 U CN201721811908 U CN 201721811908U CN 207729976 U CN207729976 U CN 207729976U
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Abstract
A kind of energy-saving baking box, including upper and lower box, substrate conveying mechanism, circulating air conveying mechanism and accumulation of heat mechanism;Circulating air conveying mechanism includes plenum chamber, plenum chamber blast pipe, circulating air valve, backwind tube, return air valve, fan wind inleting tube, circulating fan, wind turbine discharge pipe and heat exchanger;Accumulation of heat mechanism includes heat exchange case, heat storage, hot wind isocon, by-pass valve, heat exchange case blast pipe, heat exchange case discharge pipe and confluence valve;Heat exchange case is located in lower box;Heat storage is located in heat exchange case;The air intake of hot wind isocon is connected to the outlet air end of wind turbine discharge pipe, and the outlet air end of hot wind isocon is connected to the air intake of heat exchange case blast pipe;By-pass valve is located on hot wind isocon;The outlet air end of heat exchange case blast pipe is connected to heat exchange case;The air intake of heat exchange case discharge pipe is connected to heat exchange case, and the outlet air end of heat exchange case discharge pipe is connected to the air intake of fan wind inleting tube;Confluence valve is located on heat exchange case discharge pipe.
Description
Technical field
The utility model is related to a kind of baking ovens, and more specifically, the utility model is related to a kind of energy-saving baking boxes.
Background technology
The main function of baking oven is:To the base material of process(Such as film etc.)Carry out drying and processing.
When base material enters in the babinet of baking oven, the hot wind in babinet carries out drying and processing, drying to the base material in babinet
Treated, and base material is output to outside babinet again, to realize the drying and processing of base material.
During convection oven carries out drying and processing to base material, if necessary to replace base material, generally it is off to case
Internal heat air delivery that is to say shutdown, allow babinet natural cooling, be deformed with preventing the base material in babinet from being dried, to influence
The quality of product.
After the completion of replacing base material, then the heat air delivery into babinet again, restarting is that is to say, so as to the base in babinet
Material carries out drying and processing.
It can be seen that convection oven has the following defects:Not only it consumed energy but also wasted time, and low production efficiency.
For this purpose, designing a kind of energy-saving baking box that production efficiency is high, this has become the technical issues of being badly in need of solving at present.
Utility model content
The technical problem to be solved by the utility model is to provide a kind of energy-saving baking boxes that production efficiency is high.
In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is as follows:
A kind of energy-saving baking box, it is characterised in that:Including babinet, substrate conveying mechanism, circulating air conveying mechanism and accumulation of heat
Mechanism;
Above-mentioned babinet includes upper box and lower box, and upper box can be opened or hermetically be covered on lower box, and top box is worked as
Body hermetically covers when on lower box, and upper box and lower box constitute a sealing cavity;The junction of upper box and lower box
Conveying direction along base material is equipped with inlet port and outlet port, and above-mentioned feed inlet is located on a side of upper box and lower box,
Above-mentioned discharge port is located on another side of upper box and lower box, and above-mentioned inlet port and outlet port are opposite and are located at same water
In plane;Upper box is equipped with return air inlet, and above-mentioned return air inlet is close to discharge port;
Above-mentioned substrate conveying mechanism includes several deflector rolls, and above-mentioned deflector roll is equidistant to be located in lower box, above-mentioned deflector roll and base
The conveying direction of material is vertically arranged, and the peak of deflector roll is flushed with the following of inlet port and outlet port;
Above-mentioned circulating air conveying mechanism includes plenum chamber, plenum chamber blast pipe, circulating air valve, backwind tube, return air
Valve, fan wind inleting tube, circulating fan, wind turbine discharge pipe and heat exchanger;Above-mentioned plenum chamber is located in upper box, above-mentioned static pressure
Room is equipped with hot wind inlet, and above-mentioned hot wind inlet is close to feed inlet;If being evenly provided with dry-air blast on the bottom plate of above-mentioned plenum chamber
Mouth, above-mentioned tuyere be connected to plenum chamber and towards by base material upper surface;The outlet air end of above-mentioned plenum chamber blast pipe passes through upper
Babinet is connected to the hot wind inlet of plenum chamber;Above-mentioned circulating air valve is mounted on plenum chamber blast pipe;Above-mentioned backwind tube
Air intake is connected to the return air inlet of upper box;Above-mentioned return air valve is mounted on backwind tube;The air intake of above-mentioned fan wind inleting tube
It is connected to the outlet air end of backwind tube, the outlet air end of above-mentioned fan wind inleting tube is connected to the air inlet of circulating fan;Above-mentioned circulated air
The air outlet of machine is connected to the air intake of wind turbine discharge pipe;The air inlet of the outlet air end and plenum chamber blast pipe of above-mentioned wind turbine discharge pipe
End connection;Above-mentioned heat exchanger is mounted on wind turbine discharge pipe, and above-mentioned heat exchanger coordinates with wind turbine outlet air tube heat exchange;
Above-mentioned accumulation of heat mechanism includes heat exchange case, heat storage, hot wind isocon, by-pass valve, heat exchange case blast pipe, heat
Commuting case discharge pipe and confluence valve;Above-mentioned heat exchange case is located in lower box, and above-mentioned heat exchange case is equipped with air inlet hole and goes out
Air holes, above-mentioned air inlet hole is close to feed inlet, and above-mentioned exhaust vent is close to discharge port;Above-mentioned heat storage is located in heat exchange case;
The air intake of above-mentioned hot wind isocon is connected to the outlet air end of wind turbine discharge pipe, the outlet air end of above-mentioned hot wind isocon and heat exchange
The air intake of case blast pipe is connected to;Above-mentioned by-pass valve is mounted on hot wind isocon;The outlet air of above-mentioned heat exchange case blast pipe
End is connected to the air inlet hole of heat exchange case;The air intake of above-mentioned heat exchange case discharge pipe is connected to the exhaust vent of heat exchange case, on
The outlet air end for stating heat exchange case discharge pipe is connected to the air intake of fan wind inleting tube;Above-mentioned confluence valve goes out mounted on heat exchange case
On air hose.
When carrying out drying and processing to base material using this energy-saving baking box, base material is made to be entered in upper and lower box from feed inlet, on
Base material in lower box is continued to be fed forward by deflector roll again, in this way, the base material in upper and lower box is just from the tuyere of plenum chamber lower section
By finally being exported from discharge port;Meanwhile by-pass valve and confluence valve are closed, circulating air valve and return air valve are opened,
Start circulating fan, in this way, under the driving of circulating fan, hot wind is just by plenum chamber blast pipe, plenum chamber, tuyere, up and down
It is circulated in the closed loop that babinet, backwind tube, fan wind inleting tube, circulating fan, wind turbine discharge pipe are constituted, in hot wind
Circulation conveying during, the hot wind in heat exchanger and wind turbine discharge pipe carries out heat exchange, to make tuyere blow out a constant temperature
The hot wind of degree, to realize the drying and processing to base material in upper and lower box.
When needing replacing base material, circulating air valve and return air valve are closed, opens by-pass valve and confluence valve, this
Sample, under the driving of circulating fan, hot wind just goes out by hot wind isocon, heat exchange case blast pipe, heat exchange case, heat exchange case
It is circulated in the closed loop that air hose, fan wind inleting tube, circulating fan, wind turbine discharge pipe are constituted, in the cycle of hot wind
In transmission process, the heat storage in heat exchange case absorbs the heat in hot wind and savings are got up, in case he uses, it is energy saving to reach
The technique effect of environmental protection;Also, this energy-saving baking box is not necessarily to stop the conveying of hot wind, that is to say without shutting down, it will be able to allow top box
Body natural cooling, in order to open upper box and replace base material;After the completion of replacing base material, upper box is covered, then, only needs to close
By-pass valve and confluence valve, open circulating air valve and return air valve, in this way, under the driving of circulating fan, hot wind is again
By plenum chamber blast pipe, plenum chamber, tuyere, upper and lower box, backwind tube, fan wind inleting tube, circulating fan, wind turbine discharge pipe structure
At closed loop in circulate, during the circulation conveying of hot wind, the heat in heat exchanger and wind turbine discharge pipe
Wind carries out heat exchange, to make tuyere blow out the hot wind of certain temperature, to realize to the drying again of base material in upper and lower box
Reason.
As further improvement of the utility model technical solution:
The air intake of the heat exchange case blast pipe is also communicated with fresh air input mechanism;Exhaust outlet is additionally provided on upper box,
Said exhaust mouth is communicated with air draft mechanism close to discharge port, said exhaust mouth;
Above-mentioned fresh air input mechanism includes fresh wind tube and fresh air valve, and outlet air end and the heat exchange case of above-mentioned fresh wind tube are entered the wind
The air intake of pipe is connected to, and above-mentioned fresh air valve is mounted on fresh wind tube;
Said exhaust mechanism includes exhaust duct, valve for air exhaust and exhaust fan;The air intake and upper box of said exhaust pipe
Exhaust outlet connection, the outlet air end of said exhaust pipe is connected to the air inlet of exhaust fan;Said exhaust valve is mounted on air draft
Guan Shang.
During carrying out drying and processing to base material, if the gas concentration containing volatile solvent in upper and lower box reaches
Limiting value opens fresh air valve, confluence valve and valve for air exhaust, starts exhaust fan, in this way, fresh air, that is, fresh air, passes through
Fresh wind tube, heat exchange case blast pipe, heat exchange case, heat exchange case discharge pipe, fan wind inleting tube, circulating fan, wind turbine discharge pipe,
Plenum chamber blast pipe, plenum chamber, tuyere, enter in upper and lower box;When fresh air flows through heat exchange case, fresh air and heat exchange case
Interior heat storage carries out heat exchange and reaches energy-saving and environment-friendly technique effect to realize fresh air preheating.
Fresh air after preheating mixes confluence with the hot wind in backwind tube and enters wind turbine air inlet by heat exchange case discharge pipe
In pipe, to form mixing hot wind, mixing hot wind carries out heat exchange in wind turbine discharge pipe with heat exchanger, to make tuyere blow
The hot wind for going out certain temperature, to realize the drying and processing to base material in upper and lower box.
And under the driving of exhaust fan, upper and lower box includes the high hot wind of volatile solvent gas concentration, passes through air draft
Pipe, the outside of upper and lower box is discharged to by exhaust fan, to ensure that the safe to use of this energy-saving baking box.
Optimal technical scheme as the plenum chamber in the utility model:
The height of the plenum chamber is continuously decreased along the conveying direction of base material.
When the height of plenum chamber is continuously decreased along the conveying direction of base material, the hot wind of plenum chamber will more uniformly from
The tuyere of plenum chamber blow to by base material ensure that the quality of finished product to further improve the drying effect of base material.
Optimal technical scheme as the tuyere in the utility model:
The tuyere is located at the surface of deflector roll, also, a tuyere is corresponding with a deflector roll.
After tuyere uses this optimal technical scheme, due to there is the support of deflector roll below the wind-engaging position of base material, so, base
Shake is not will produce when material wind-engaging, to further improve the drying effect of base material, ensure that the quality of finished product.
Compared with the prior art, the utility model has the beneficial effect that:
Due to this energy-saving baking box when replacing base material without stopping the conveying of hot wind, that is to say without shutting down, only need to switch
The circulation loop of hot wind, so, this energy-saving baking box it is easy to operate, it is time saving and energy saving, to improve production efficiency.
Meanwhile during replacing base material, since the heat storage in heat exchange case can absorb the heat in hot wind simultaneously
Savings are got up, in case he uses, such as fresh air preheating, to reach energy-saving and environment-friendly technique effect.
In addition, this energy-saving baking box also have it is reasonable for structure, novel in design, operate steadily, high degree of automation, security performance
It is good, service life is long, installation and it is easy to maintain, easy to spread the advantages that.
The utility model is described in further detail with reference to the accompanying drawings and detailed description.
Description of the drawings
Fig. 1 is the structural schematic diagram of the preferred embodiment in the utility model;
Fig. 2 is that hot wind of the preferred embodiment in the utility model when carrying out drying and processing to base material conveys schematic diagram;
Fig. 3 is hot wind conveying schematic diagram of the preferred embodiment in the utility model when replacing base material;
Fig. 4 is the preferred embodiment in the utility model in supplement fresh air and the high hot wind of gas concentration containing volatile solvent is discharged
When hot wind convey schematic diagram.
Specific implementation mode
As shown in Figure 1, the energy-saving baking box in this preferred embodiment, including babinet 1, substrate conveying mechanism 2, circulating air are defeated
Send mechanism 3, accumulation of heat mechanism 4, fresh air input mechanism 5 and air draft mechanism 6.
Above-mentioned babinet 1 includes upper box 11 and lower box 12;
Upper box 11 can be opened or hermetically be covered on lower box 12, when upper box 11 hermetically covers on lower box 12
When, upper box 11 and lower box 12 constitute a sealing cavity;
Conveying direction of the junction of upper box 11 and lower box 12 along base material 10(That is direction shown in double-head arrow in Fig. 1)
Equipped with feed inlet 13 and discharge port 14, above-mentioned feed inlet 13 is located on a side of upper box 11 and lower box 12, it is above-mentioned go out
Material mouth 14 is located on another side of upper box 11 and lower box 12, and above-mentioned feed inlet 13 and discharge port 14 are relatively and positioned at same
On one horizontal plane;
Upper box 11 is equipped with return air inlet 15 and exhaust outlet 16, and above-mentioned return air inlet 15 and exhaust outlet 16 are close to discharge port
14。
Above-mentioned substrate conveying mechanism 2 includes several deflector rolls 20;
Above-mentioned deflector roll 20 is equidistant to be located in lower box 12;
Above-mentioned deflector roll 20 and the conveying direction of base material 10 are vertically arranged;
The peak of above-mentioned deflector roll 20 is flushed with feed inlet 13 and the following of discharge port 14.
Above-mentioned circulating air conveying mechanism 3 includes plenum chamber 30, plenum chamber blast pipe 31, circulating air valve 32, return air
Pipe 33, return air valve 34, fan wind inleting tube 35, circulating fan 36, wind turbine discharge pipe 37 and heat exchanger 38;
Above-mentioned plenum chamber 30 is located in upper box 11, and the height of above-mentioned plenum chamber 30 is gradually dropped along the conveying direction of base material 10
It is low;
Above-mentioned plenum chamber 30 is equipped with hot wind inlet 301, and above-mentioned hot wind inlet 301 is close to feed inlet 13;
Several tuyeres 39 are evenly provided on the bottom plate 300 of above-mentioned plenum chamber 30, above-mentioned tuyere 39 is connected to plenum chamber 30
And towards by base material 10 upper surface;
Above-mentioned tuyere 39 is located at the top of deflector roll 20, it is clear that and above-mentioned tuyere 39 is preferably located at the surface of deflector roll 20, and
And a tuyere 39 is preferably corresponding with a deflector roll 20;
The outlet air end of above-mentioned plenum chamber blast pipe 31 is connected to across upper box 11 with the hot wind inlet 301 of plenum chamber 30;
Above-mentioned circulating air valve 32 is mounted on plenum chamber blast pipe 31;
The air intake of above-mentioned backwind tube 33 is connected to the return air inlet 15 of upper box 11;
Above-mentioned return air valve 34 is mounted on backwind tube 33;
The air intake of above-mentioned fan wind inleting tube 35 is connected to the outlet air end of backwind tube 33, the outlet air of above-mentioned fan wind inleting tube 35
End is connected to the air inlet of circulating fan 36;
The air outlet of above-mentioned circulating fan 36 is connected to the air intake of wind turbine discharge pipe 37;
The outlet air end of above-mentioned wind turbine discharge pipe 37 is connected to the air intake of plenum chamber blast pipe 31;
Above-mentioned heat exchanger 38 is mounted on wind turbine discharge pipe 37, above-mentioned heat exchanger 38 and 37 heat exchange of wind turbine discharge pipe
Cooperation.
Above-mentioned accumulation of heat mechanism 4 includes heat exchange case 40, heat storage 41, hot wind isocon 42, by-pass valve 43, heat exchange case
Blast pipe 44, heat exchange case discharge pipe 45 and confluence valve 46;
Above-mentioned heat exchange case 40 is located in lower box 12, and above-mentioned heat exchange case 40 is equipped with air inlet hole 401 and exhaust vent
402, above-mentioned air inlet hole 401 is close to feed inlet 13, and above-mentioned exhaust vent 402 is close to discharge port 14;
Above-mentioned heat storage 41 is located in heat exchange case 40;
The air intake of above-mentioned hot wind isocon 42 is connected to the outlet air end of wind turbine discharge pipe 37, above-mentioned hot wind isocon 42
Outlet air end is connected to the air intake of heat exchange case blast pipe 44;
Above-mentioned by-pass valve 43 is mounted on hot wind isocon 42;
The outlet air end of above-mentioned heat exchange case blast pipe 44 is connected to the air inlet hole 401 of heat exchange case 40;
The air intake of above-mentioned heat exchange case discharge pipe 45 is connected to the exhaust vent 402 of heat exchange case 40, above-mentioned heat exchange case
The outlet air end of discharge pipe 45 is connected to the air intake of fan wind inleting tube 35;
Above-mentioned confluence valve 46 is mounted on heat exchange case discharge pipe 45.
Above-mentioned fresh air input mechanism 5 includes fresh wind tube 51 and fresh air valve 52, and outlet air end and the heat of above-mentioned fresh wind tube 51 are handed over
The air intake connection of case blast pipe 44 is changed, above-mentioned fresh air valve 52 is mounted on fresh wind tube 51.
Said exhaust mechanism 6 includes exhaust duct 61, valve for air exhaust 62 and exhaust fan 63;
The air intake of said exhaust pipe 61 is connected to the exhaust outlet 16 of upper box 11, the outlet air end of said exhaust pipe 61 and row
The air inlet of wind wind turbine 63 is connected to;
Said exhaust valve 62 is mounted on exhaust duct 61.
The course of work of the utility model and operation principle are described in further detail below in conjunction with the accompanying drawings.
As shown in Fig. 2, when carrying out drying and processing to base material 10 using this energy-saving baking box, base material 10 is made to enter from feed inlet 13
Into upper and lower box 11,12, the base material 10 in upper and lower box 11,12 is continued to be fed forward by deflector roll 20 again, in this way, upper and lower box
11, the base material 10 in 12 just passes through from 39 lower section of the tuyere of plenum chamber 30, is finally exported from discharge port 14;Meanwhile closing fresh air
Valve 52, by-pass valve 43, confluence valve 46 and valve for air exhaust 62, open circulating air valve 32 and return air valve 34, start
Circulating fan 36, in this way, under the driving of circulating fan 36, hot wind is just by plenum chamber blast pipe 31, plenum chamber 30, tuyere
39, the closed circulation that upper and lower box 11,12, backwind tube 33, fan wind inleting tube 35, circulating fan 36, wind turbine discharge pipe 37 are constituted
It is circulated in circuit, as shown in single arrow in Fig. 2, during the circulation conveying of hot wind, heat exchanger 38 and wind turbine outlet air
Hot wind in pipe 37 carries out heat exchange, to make tuyere 39 blow out the hot wind of certain temperature, to realize in upper and lower box 11,12
The drying and processing of base material 10.
As shown in figure 3, when needing replacing base material 10, circulating air valve 32 and return air valve 34 are closed, opens shunting
Valve 43 and confluence valve 46, in this way, under the driving of circulating fan 36, hot wind is just by hot wind isocon 42, heat exchange case
Blast pipe 44, heat exchange case 40, heat exchange case discharge pipe 45, fan wind inleting tube 35, circulating fan 36, wind turbine discharge pipe 37 are constituted
Closed loop in circulate, as shown in single arrow in Fig. 3, during the circulation conveying of hot wind, heat exchange case 40
Interior heat storage 41 absorbs the heat in hot wind and savings are got up, and is just not necessarily to stop the conveying of hot wind in this way, that is to say without stopping
Machine, it will be able to 11 natural cooling of upper box is allowed, in order to open upper box 11 and replace base material 10;After the completion of replacing base material 10,
Upper box 11 is covered, then, by-pass valve 43 and confluence valve 46 need to be only closed, open circulating air valve 32 and return air valve
34, in this way, as shown in Fig. 2, under the driving of circulating fan 36, hot wind is again by plenum chamber blast pipe 31, plenum chamber 30, tuyere
39, the closed circulation that upper and lower box 11,12, backwind tube 33, fan wind inleting tube 35, circulating fan 36, wind turbine discharge pipe 37 are constituted
It is circulated in circuit, as shown in single arrow in Fig. 2, during the circulation conveying of hot wind, heat exchanger 38 and wind turbine outlet air
Hot wind in pipe 37 carries out heat exchange, in this way can be again to upper nowel to make tuyere 39 blow out the hot wind of certain temperature
Base material 10 in body 11,12 carries out drying and processing;Therefore, this energy-saving baking box is easy to operate, time saving and energy saving, to improve
Production efficiency.
As shown in figure 4, during carrying out drying and processing to base material 10, if containing volatilization in upper and lower box 11,12
Property solvent gas concentration reach the limit values, open fresh air valve 52, confluence valve 46 and valve for air exhaust 62, start exhaust fan
63, in this way, fresh air, that is, fresh air, passes through fresh wind tube 51, heat exchange case blast pipe 44, heat exchange case 40, heat exchange case outlet air
Pipe 45, fan wind inleting tube 35, circulating fan 36, wind turbine discharge pipe 37, plenum chamber blast pipe 31, plenum chamber 30, tuyere 39 enter
Into upper and lower box 11,12, as shown in single arrow in Fig. 4;When fresh air flows through heat exchange case 40, in fresh air and heat exchange case 40
Heat storage 41 carry out heat exchange reach energy-saving and environment-friendly technique effect to realize fresh air preheating;Fresh air after preheating passes through
Heat exchange case discharge pipe 45 mixes confluence with the hot wind in backwind tube 33 and enters in fan wind inleting tube 35, to form mixing
Hot wind, mixing hot wind carry out heat exchange in wind turbine discharge pipe 37 with heat exchanger 38, to make tuyere 39 blow out certain temperature
Hot wind, to realize to the drying and processing of base material 10 in upper and lower box 11,12;And under the driving of exhaust fan 63, upper nowel
Body 11,12 includes the high hot wind of volatile solvent gas concentration, and by exhaust duct 61, upper and lower box is discharged to by exhaust fan 63
11,12 outside, to ensure the safe to use of this energy-saving baking box.
In Fig. 1 to Fig. 4, single arrow indicates that gas flow direction, double-head arrow indicate 10 conveying direction of base material.
Claims (4)
1. a kind of energy-saving baking box, it is characterised in that:Including babinet, substrate conveying mechanism, circulating air conveying mechanism and accumulation of heat machine
Structure;
Above-mentioned babinet includes upper box and lower box, and upper box can be opened or hermetically be covered on lower box, when upper box is close
Feud is covered when on lower box, and upper box and lower box constitute a sealing cavity;The junction of upper box and lower box is along base
The conveying direction of material is equipped with inlet port and outlet port, and above-mentioned feed inlet is located on a side of upper box and lower box, above-mentioned
Discharge port is located on another side of upper box and lower box, and above-mentioned inlet port and outlet port are opposite and are located at same level
On;Upper box is equipped with return air inlet, and above-mentioned return air inlet is close to discharge port;
Above-mentioned substrate conveying mechanism includes several deflector rolls, and above-mentioned deflector roll is equidistant to be located in lower box, above-mentioned deflector roll and base material
Conveying direction is vertically arranged, and the peak of deflector roll is flushed with the following of inlet port and outlet port;
Above-mentioned circulating air conveying mechanism include plenum chamber, plenum chamber blast pipe, circulating air valve, backwind tube, return air valve,
Fan wind inleting tube, circulating fan, wind turbine discharge pipe and heat exchanger;Above-mentioned plenum chamber is located in upper box, on above-mentioned plenum chamber
Equipped with hot wind inlet, above-mentioned hot wind inlet is close to feed inlet;Several tuyeres are evenly provided on the bottom plate of above-mentioned plenum chamber, on
State tuyere be connected to plenum chamber and towards by base material upper surface;The outlet air end of above-mentioned plenum chamber blast pipe pass through upper box with
The hot wind inlet of plenum chamber is connected to;Above-mentioned circulating air valve is mounted on plenum chamber blast pipe;The air intake of above-mentioned backwind tube
It is connected to the return air inlet of upper box;Above-mentioned return air valve is mounted on backwind tube;The air intake and return air of above-mentioned fan wind inleting tube
The outlet air end of pipe is connected to, and the outlet air end of above-mentioned fan wind inleting tube is connected to the air inlet of circulating fan;Above-mentioned circulating fan goes out
Air port is connected to the air intake of wind turbine discharge pipe;The outlet air end of above-mentioned wind turbine discharge pipe connects with the air intake of plenum chamber blast pipe
It is logical;Above-mentioned heat exchanger is mounted on wind turbine discharge pipe, and above-mentioned heat exchanger coordinates with wind turbine outlet air tube heat exchange;
Above-mentioned accumulation of heat mechanism includes heat exchange case, heat storage, hot wind isocon, by-pass valve, heat exchange case blast pipe, heat exchange
Case discharge pipe and confluence valve;Above-mentioned heat exchange case is located in lower box, and above-mentioned heat exchange case is equipped with air inlet hole and exhaust vent,
Above-mentioned air inlet hole is close to feed inlet, and above-mentioned exhaust vent is close to discharge port;Above-mentioned heat storage is located in heat exchange case;Above-mentioned heat
The air intake of wind isocon is connected to the outlet air end of wind turbine discharge pipe, and outlet air end and the heat exchange case of above-mentioned hot wind isocon are entered the wind
The air intake of pipe is connected to;Above-mentioned by-pass valve is mounted on hot wind isocon;The outlet air end of above-mentioned heat exchange case blast pipe and heat
The air inlet hole of commuting case is connected to;The air intake of above-mentioned heat exchange case discharge pipe is connected to the exhaust vent of heat exchange case, and above-mentioned heat is handed over
The outlet air end for changing case discharge pipe is connected to the air intake of fan wind inleting tube;Above-mentioned confluence valve is mounted on heat exchange case discharge pipe
On.
2. energy-saving baking box according to claim 1, it is characterised in that:The air intake of the heat exchange case blast pipe is also connected to
There is fresh air input mechanism;Exhaust outlet is additionally provided on upper box, said exhaust mouth is communicated with row close to discharge port, said exhaust mouth
Wind mechanism;
Above-mentioned fresh air input mechanism includes fresh wind tube and fresh air valve, outlet air end and the heat exchange case blast pipe of above-mentioned fresh wind tube
Air intake is connected to, and above-mentioned fresh air valve is mounted on fresh wind tube;
Said exhaust mechanism includes exhaust duct, valve for air exhaust and exhaust fan;The air intake of said exhaust pipe and the row of upper box
Air port is connected to, and the outlet air end of said exhaust pipe is connected to the air inlet of exhaust fan;Said exhaust valve is mounted on exhaust duct.
3. energy-saving baking box according to claim 1, it is characterised in that:Conveying direction of the height of the plenum chamber along base material
It continuously decreases.
4. energy-saving baking box according to claim 1, it is characterised in that:The tuyere is located at the surface of deflector roll, also, one
A tuyere is corresponding with a deflector roll.
Priority Applications (1)
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CN201721811908.6U CN207729976U (en) | 2017-12-22 | 2017-12-22 | A kind of energy-saving baking box |
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Application Number | Priority Date | Filing Date | Title |
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CN201721811908.6U CN207729976U (en) | 2017-12-22 | 2017-12-22 | A kind of energy-saving baking box |
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Publication Number | Publication Date |
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CN207729976U true CN207729976U (en) | 2018-08-14 |
Family
ID=63086196
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111947430A (en) * | 2020-07-21 | 2020-11-17 | 深圳市恒捷自动化有限公司 | Oven with wind energy circulation system |
-
2017
- 2017-12-22 CN CN201721811908.6U patent/CN207729976U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111947430A (en) * | 2020-07-21 | 2020-11-17 | 深圳市恒捷自动化有限公司 | Oven with wind energy circulation system |
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Effective date of registration: 20190829 Address after: Haojiang District Textile Industrial Park, 515098 Guangdong city of Shantou Province Patentee after: Guangdong Jinming Machinery Co., Ltd. Address before: 515022 Far East Industrial Park, Shantou, Guangdong, new town, Longhu Patentee before: Yuandong Light Chemical Equipment Co, Ltd., Shantou City |