CN207778980U - A kind of diagonal circulating air baking room automation equipment of low in and high out - Google Patents
A kind of diagonal circulating air baking room automation equipment of low in and high out Download PDFInfo
- Publication number
- CN207778980U CN207778980U CN201721897748.1U CN201721897748U CN207778980U CN 207778980 U CN207778980 U CN 207778980U CN 201721897748 U CN201721897748 U CN 201721897748U CN 207778980 U CN207778980 U CN 207778980U
- Authority
- CN
- China
- Prior art keywords
- baking room
- wind
- intake line
- diagonal
- heat exchanger
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Drying Of Solid Materials (AREA)
Abstract
The utility model discloses a kind of diagonal circulating air baking room automation equipments of low in and high out, including baking room and vapor heat exchanger, the baking room is connected with heat supply wind system, inhales warm air system, moisture discharge system, and vapor heat exchanger connects heat supply wind system, inhales warm air system.It has the following advantages:Improve the thermal efficiency of baking room, whole system can be reliable for operation, stables, efficient according to setting automatic running, improves dries quantity, to improve casting quality, reduces loss due to spoiled work, energy saving, reduces cost.
Description
Technical field
The utility model is related to a kind of baking room devices making heat source of steam, more particularly to one kind being suitable for casting industry
Lost foam casting process does heat source using steam and dries white mould, Huang Mo, and the higher quantity-produced casting life of the degree of automation
Producing line, a kind of diagonal circulating air of low in and high out dry the automation equipment of white mould, Huang Mo.
Background technology
Lost foam casting process flow:It is using steam that EPS or copolymerization material prefoam → molding machine is white using steam cure
Mould → drying room dries white mould → by white mould dip-coating fireproof coating → drying room using vapor heat exchanger and utilizes vapor heat exchanger one
Secondary drying coating(Huang Mo)→ by the secondary dip-coating fireproof coating → drying room of yellow mould utilize vapor heat exchanger secondary drying coating(It is yellow
Mould)→ by yellow mould n times dip-coating fireproof coating → drying room using vapor heat exchanger n times dry coating(Huang Mo)→ assembling(It will be yellow
Mould and running gate system link together)→ benefit brush fireproof coating → drying room dries coating again using vapor heat exchanger(Huang Mo)
→ moulding → cast → cooling → impeller blasting → polishing → application → blank finished product.
Lost foam casting process environmental protection and energy saving, were widely applied in recent years.Lost foam casting process utilizes quantity of steam
It is very big, the thermal efficiency of baking room is improved, steam is saved, it is most important.
Recent method has:Acyclic or cycle perspective is unreasonable, causes hot wind effect poor.
Invention content
Problem to be solved in the utility model is to provide a kind of diagonal circulating air drying of low in and high out for the above deficiency
Room automation equipment, improves the thermal efficiency of baking room, and whole system can be reliable for operation, stable, high according to setting automatic running
Effect, improves dries quantity, to improve casting quality, reduces loss due to spoiled work, energy saving, reduces cost.
To solve the above-mentioned problems, the utility model uses following technical scheme:
A kind of diagonal circulating air baking room automation equipment of low in and high out, including baking room and vapor heat exchanger, it is described
Baking room is connected with heat supply wind system, inhales warm air system, moisture discharge system, and vapor heat exchanger connects heat supply wind system, inhales and warm up
Wind system.
Further, the heat supply wind system includes steam supply main pipeline, and steam supply main pipeline is connected with steam confession
To branch pipe(tube), steam supplies branch pipe(tube) and connects vapor heat exchanger, and vapor heat exchanger is connected with condensing hot air furnace branch pipe(tube), condensed water
Recycling branch pipe(tube) is connected with condensing hot air furnace main pipeline.
Further, the heat supply wind system further includes high-temperature centrifugal fan, hot blast conveying pipe road and hot wind discharge duct road,
Hot blast conveying pipe road connects vapor heat exchanger and hot wind discharge duct road, and hot wind discharge duct road is equipped with n thermal wind exhausting shutter, row
Hot wind shutter is equipped with adjusting louvre blade.
Further, the high-temperature centrifugal fan is arranged in the lower section of vapor heat exchanger, the air outlet of high-temperature centrifugal fan
It is directed at the air inlet of vapor heat exchanger, the air outlet of vapor heat exchanger connects heat air delivery pipeline.
Further, the suction warm air system includes high-temperature centrifugal fan, warm wind conveyance conduit and warm wind intake line, height
The air inlet of warm centrifugal blower connects warm wind conveyance conduit, and warm wind conveyance conduit connects warm wind intake line;High-temperature centrifugal fan
Air outlet connect vapor heat exchanger.
Further, the warm wind intake line is equipped with n suction warm wind port, inhales warm wind port and is furnished with the first sliding panel, the
One sliding panel can be with slidable adjustment suction air volume size.
Further, the moisture discharge system includes motor-operated fan, hydrofuge feed channel and moisture intake line, electronic
Exhaust fan connects hydrofuge feed channel, and hydrofuge feed channel connects moisture intake line.
Further, the moisture intake line is equipped with n moisture absorption gas port, and moisture absorption gas port is furnished with the second sliding panel, the
Two sliding panels can be with slidable adjustment moisture absorption tolerance size.
Further, the baking room automation equipment includes hot wind discharge duct road, moisture intake line, warm wind suction line
Road, hot wind discharge duct road, moisture intake line and warm wind intake line are arranged in baking room, and moisture intake line is arranged with hot wind
Go out the position of pipeline, warm wind intake line in baking room and forms " dead angle " relationship.
Further, the automation equipment further includes detecting system, and detecting system includes humidity sensor, temperature sensing
Device, main control PLC, humidity sensor, temperature sensor connect main control PLC, and humidity sensor, temperature sensor are wet by what is detected
Degree, temperature real-time delivery are to main control PLC.
This patent has the following advantages compared with prior art:
The thermal efficiency is fully improved, has used automation drying system, whole system can be according to setting automatic running, operation
Reliably, stablize, efficiently, ensured production requirement, improved dries quantity, to improve casting quality, reduce waste product damage
It loses.
It is fully energy saving, waste is reduced, by 20,000 tons of casting measuring and calculating are produced per year, every year:Steam can be saved and take 600,000 yuan, year
200,000 yuan of labour cost can be saved, white 200,000 yuan of mould Huang mould loss due to spoiled work is saved, casting wasted product is reduced and loses 300,000 yuan, is added up to annual
1,300,000 yuan can be saved.
Technical solutions of the utility model are described in detail with reference to the accompanying drawings and examples.
Description of the drawings
Attached drawing 1 is the horizontal layout schematic diagram of baking room automation equipment in the utility model embodiment;
Attached drawing 2 is the G of attached drawing 1 to revolved view(Wind turbine heat exchanger arrangement schematic diagram);
Attached drawing 3 is the left view of attached drawing 1(Baking room end appearance diagram);
Attached drawing 4 is the A-A sectional views of attached drawing 1(Temperature sensor humidity sensor arrangement schematic diagram);
Attached drawing 5 is the B-B sectional views of attached drawing 1(Inhale warm air system schematic diagram);
Attached drawing 6 is the C-C sectional views of attached drawing 1(Hydrofuge gas system schematic);
Attached drawing 7 is the D-D sectional views of attached drawing 1(Hot wind supply system schematic).
Attached drawing 8 is the E-E sectional views of attached drawing 1(The diagonal circulating air schematic diagram of low in and high out).
Attached drawing 9 is the F direction views of attached drawing 1(Drying vehicle system schematic).
Attached drawing 10 is the K direction views of attached drawing 9(Drying vehicle system end view).
Attached drawing 11 is operating table touch screen schematic diagram;
In figure:The first baking rooms of 1-;The second baking rooms of 2-;3- humidity sensors;4- temperature sensors;5- drying vehicles;
501- rotating wheels;502- directive wheels;503- dries vehicle frame;6- guide rails;7- motor-operated fans;8- moisture discharge systems;
The second sliding panels of 801-;802- moisture absorption gas ports;803- moisture intake lines;804- hydrofuge feed channels;9- inhales warm air system;901-
First sliding panel;902- inhales warm wind port;903- warm wind intake lines;904- warm wind conveyance conduits;10- heat supply wind systems;1001-
Heat air delivery pipeline;1004- heat extraction wind pipelines, 1005- thermal wind exhausting shutters;1006- adjusts louvre blade;1101- steam;
1102- Low Temperature Steams;12- steam supplies main pipeline;13- steam supplies branch pipe(tube);15- vapor heat exchangers;16- baking room heat
Wind;1601- baking room warm winds;1602- heat exchanger hot winds;1603- baking room moistures;1701- flow directors;18- condensed waters
Recycle main pipeline;1801- condensing hot air furnace branch pipe(tube)s;1802- drain valves;1803- condensed waters;19- high-temperature centrifugal fans;20-
Operating table touch screen;White mould/Huang Mo that 21- is oven-dried.
Specific implementation mode
Embodiment 1, as shown in Figure 1 to 11, a kind of diagonal circulating air baking room automation equipment of low in and high out, including
Baking room, heat supply wind system 10 inhale warm air system 9, moisture discharge system 8, drying vehicle system 5 and detecting system, and baking room connects
It connects heat supply wind system 10, inhale warm air system 9, moisture discharge system 8, drying vehicle system 5 and detecting system are equipped in baking room.
The heat supply wind system 10 includes that steam supplies main pipeline 12, and steam supply main pipeline 12 is connected with steam supply branch
Pipeline 13, steam supply branch pipe(tube) 13 are connected with vapor heat exchanger 15, and steam supplies between branch pipe(tube) 13 and vapor heat exchanger 15
Equipped with steam electrical ball valve 14 and flow director 1701.
The vapor heat exchanger 15 is connected with condensing hot air furnace branch pipe(tube) 1801, and condensing hot air furnace branch pipe(tube) 1801 is connected with
Condensing hot air furnace main pipeline 18 is equipped with flow director between condensing hot air furnace branch pipe(tube) 1801 and condensing hot air furnace main pipeline 18
1701 and drain valve 1802.
The heat supply wind system 10 further includes high-temperature centrifugal fan 19, hot blast conveying pipe road 1001 and hot wind discharge duct road
1004, hot blast conveying pipe road 1001 connects vapor heat exchanger 15 and hot wind discharge duct road 1004, hot blast conveying pipe road 1001 and steaming
Flow director 1701 is equipped between vapour heat exchanger 15.
The hot wind discharge duct road 1004 is equipped with n thermal wind exhausting shutter 1005, and thermal wind exhausting shutter 1005 is equipped with tune
Louvre blade 1006 is saved, adjusting louvre blade 1006 can adjust hot wind discharge angle and discharge capacity, hot wind discharge duct 1004 are arranged in
The lower-left Angle Position of baking room end view drawing.
The suction warm air system 9 includes high-temperature centrifugal fan 19, warm wind conveyance conduit 904 and warm wind intake line 903, height
Warm centrifugal blower 19 is shared with heat supply wind system, and the air outlet of high-temperature centrifugal fan 19 connects vapor heat exchanger 15, high temperature centrifugation
Wind turbine 19 connects warm wind conveyance conduit 904, and warm wind conveyance conduit 904 connects warm wind intake line 903, warm wind intake line 903
Baking room is connected, warm wind conveyance conduit 904 is equipped with flow director 1701, and warm wind conveyance conduit 904 connects vapor heat exchanger
15。
The warm wind intake line 903 is equipped with n suction warm wind port 902, inhales warm wind port 902 and is furnished with the first sliding panel 901,
First sliding panel 901 can be arranged in the upper right corner of baking room end view drawing with slidable adjustment suction air volume size, warm wind intake line 903
Position forms " diagonal " relationship, warm wind low in and high out with hot wind discharge duct road 1004.
The high-temperature centrifugal fan 19 is arranged in the lower section of vapor heat exchanger 15, and the air outlet of high-temperature centrifugal fan 19 is aligned
The air inlet of vapor heat exchanger 15, the air outlet connection heat air delivery pipeline 1001 of vapor heat exchanger 15.
The moisture discharge system 8 includes motor-operated fan 7, hydrofuge feed channel 804 and moisture intake line 803, electronic
Exhaust fan 7 connects hydrofuge feed channel 804, and hydrofuge feed channel 804 connects moisture intake line 803, and moisture intake line 803 connects
Baking room.
The moisture intake line 803 is equipped with n moisture absorption gas port 802, and moisture absorption gas port 802 is furnished with the second sliding panel 801,
Second sliding panel 801 can be arranged with slidable adjustment moisture absorption tolerance size, moisture intake line 803 in baking room, moisture sucking
Pipeline 803 forms " dead angle " relationship with hot wind discharge duct road 1004, warm wind intake line 903.
The motor-operated fan 7 sucks baking room moisture 1603 by moisture intake line 803, sucks baking room moisture
1603 reach the top of baking room by hydrofuge feed channel 804, are turned right away at the top of baking room by hydrofuge feed channel 804,
Motor-operated fan 7 is reached, motor-operated fan 7 empties baking room moisture 1603.
The drying vehicle system 5 includes drying vehicle 5 and guide rail 6, and drying vehicle 5 is set on guide rail 6, drying vehicle 5
It is equipped with drying vehicle frame 503, dries and 4 drying vehicle rotating wheels 501 and 1 directive wheel is installed below the frame body of vehicle frame 503
502, it dries and places white mould on vehicle frame 503(The model made of EPS or copolymerization material)Or yellow mould(The white mould of fireproof coating is soaked)
21, manually Bai Mo or yellow moulds 21 are placed on drying vehicle frame 503,4 running wheels carry drying vehicles 5 and Bai Mo or yellow mould 21
Weight simultaneously rotates, and 1 directive wheel plays guiding role, and drying vehicle 5 is kept to be run by intended trajectory.Directive wheel 502 is led
It into track 6, is pushed into baking room under the guiding of guide rail 6, high temperature in baking room is by the white mould or Huang on drying vehicle 5
Mould 21 is dried, and drying vehicle 5, which is manually carried Bai Mo or yellow moulds 21, after drying releases baking room, into next procedure.
The detecting system includes humidity sensor 3, temperature sensor 4, main control PLC, humidity sensor 3, temperature sensing
Device 4 connects main control PLC, and humidity sensor 3, temperature sensor 4 are by the humidity detected, temperature real-time delivery to main control PLC.
The baking room includes the first baking room 1 and the second baking room 2, the work of the first baking room 1 and the second baking room 2
Flow is as follows:
Steam 1101 supplies steam by steam and supplies the steam supply branch pipe(tube) that main pipeline 12 enters the first baking room 1
13, steam 1101 is controlled by steam electrical ball valve 14, enters vapor heat exchanger 15 by flow director 1701, steam 1101 passes through
Temperature reduction becomes Low Temperature Steam 1102 after heat exchange, and Low Temperature Steam 1102 is pooled to condensed water and condensing hot air furnace branch pipe(tube)
1801, by flow director 1701, after drain valve 1802, becomes condensed water 1803 and be flowed into condensing hot air furnace main pipeline
In 18, it is recycled.
After high-temperature centrifugal fan 19 is opened, baking room warm wind 1601 is inhaled from the first baking room 1 and enters warming up in the upper right corner
In wind intake line 903, the baking room warm wind 1601 of sucking is through warm wind conveyance conduit 904, by flow director 1701, from steaming
The bottom of vapour heat exchanger 15, which enters in vapor heat exchanger 15, is heated, and the heat exchanger hot wind 1602 after being heated is from steam heat-exchanging
The top of device 15 is sent out, through flow director 1701, through heat air delivery pipeline 1001, the lower left corner hot wind exhaust duct 1004,
Hot wind is discharged shutter 1005,1006 and is discharged.Baking room hot wind 16 after discharge by the natural law from the lower left corner up ascension,
White mould/Huang Mo 21 is dried in baking room.Baking room hot wind 16 is natural from the upward ascension in the lower left corner, and white mould is dried during ascension
Or yellow mould 21 is tilted drift by the natural law by 903 suction of upper right corner warm wind intake line toward upper right angular direction, until
It is siphoned away again.Baking room warm wind 1601 constantly is siphoned away from the upper right corner in this way, vapor heat exchanger 15 is sent to and is heated, after heating
Heat exchanger hot wind 1602 be discharged from lower left corner thermal wind exhausting shutter 905,906 again, constantly recycle, reach best hot wind effect
Fruit.
Temperature sensor 4 is installed in baking room, temperature sensor 4 by the temperature real-time delivery detected to main control PLC,
Main control PLC works according to temperature value setting range, commander's steam electrical ball valve 14, i.e.,:When temperature is close to lower limiting value, steam electricity
The dynamic rotation of ball valve 14 makes steam influx increase, until maximum;When temperature is close to upper limit value, the rotation of steam electrical ball valve 14 makes
Steam influx reduces, until stopping.
Humidity sensor 3 is also equipped in baking room, humidity sensor 3 is by the humidity real-time delivery detected to master control
PLC, main control PLC work according to humidity value setting range, commander's motor-operated fan 7, suck moisture from the upper left corner, this is row, inhales
" dead angle " of hot wind, moisture is maximum, i.e.,:When humidity reaches the upper limit, motor-operated fan 7 is started to work;When humidity reaches lower limit
When, motor-operated fan 7 is stopped.
Manually Bai Mo or yellow moulds 21 are placed on drying vehicle frame 503,4 running wheels carry drying vehicles 5 and Bai Mo or Huang
The weight and rotation, 1 directive wheel of mould 21 play guiding role, and drying vehicle 5 is kept to be run by intended trajectory.Manually by drying vehicle
5 shift baking room inlet onto, and directive wheel 502 is imported in guide rail 6, are pushed into baking room under the guiding of guide rail 6.
High temperature in baking room by drying vehicle 5 white mould or yellow mould 21 dry, drying vehicle 5 is manually carried into Bai Mo or yellow moulds after drying
21 release baking room, into next procedure.
The course of work of baking room:
The power switch 2001 on 20 right side of opening operation table, at this moment 2001 knob wheels presentation are red.
After turning on the power switch 2001,2002 bright screen of touch screen shows " equipment arrangement schematic diagram ", touch screen on screen
2002 upper right corner have " the diagonal circulating air baking room automation equipment flow chart of low in and high out " printed words, 2002 middle part of touch screen right
There are " manual ", " 1# is automatic ", " 2# is automatic ", " full-automatic ", " stopping " 5 icons in side.
Method 1. clicks " full-automatic " icon, and at this moment " full-automatic " icon and " stopping " icon light, remaining icon is dark,
Baking room 1#, baking room 2# enter full automatic drying pattern:
Main control PLC commands steam electrical ball valve 14 to open, and steam 1101 supplies main pipeline 12 by steam and enters steam confession
To branch pipe(tube) 13, approach steam electrical ball valve 14, flow director 1701 enter in vapor heat exchanger 15, Low Temperature Steam after cooling
1102 enter recycling branch pipe(tube)s 1801, enter drain valve 1802 by flow director 1701, drain valve 1802 is by condensed water
1803 release, and are delivered in condensing hot air furnace main pipeline 18, and condensed water is delivered to recycling profit again by condensing hot air furnace main pipeline 18
Use, into next link.
Main control PLC commands high-temperature centrifugal fan 19 to open simultaneously, after high-temperature centrifugal fan 19 is opened, the upper right from baking room
Angle is inhaled baking room warm wind 1601 and is entered in warm wind intake line 903, and the baking room warm wind 1601 of sucking is through warm wind conveyance conduit
904, by flow director 1701, enter in vapor heat exchanger 15 from the bottom of vapor heat exchanger 15 and heated, is heated
Heat exchanger hot wind 1602 afterwards is sent out from the top of vapor heat exchanger 15, through flow director 1701, through heat air delivery pipeline
1001, hot wind exhaust duct 1004, hot wind are discharged window 1005 and are discharged from the lower left corner.
Baking room hot wind 16 after being discharged from the lower left corner presses the upward ascension of the natural law, and white mould/Huang is dried in baking room
Mould 21.
After white mould or yellow mould 21 are dried in the naturally upward ascension of baking room hot wind 16, inhaled by upper right corner warm wind intake line 903
Force effect tilts drift by the natural law toward upper right angular direction, until being siphoned away again, a cycle is completed.
The humidity value that main control PLC is come also according to 3 real-time delivery of humidity sensor compares humidity value setting range, Zhi Hui electricity
Dynamic exhaust fan 7 works, and moisture is sucked from the upper left corner, this is row, heat absorption wind " dead angle ", and moisture is maximum, i.e.,:On humidity reaches
In limited time, electric exhaust fan 7 is started to work;When humidity reaches lower limit, electric exhaust fan 7 is stopped.
The temperature value that main control PLC is come also according to 4 real-time delivery of temperature sensor compares temperature value setting range, Zhi Huizheng
Vapour electrical ball valve 14 works, i.e.,:When temperature is close to lower limiting value, the rotation of steam electrical ball valve 14 makes steam influx increase, directly
To maximum;When temperature is close to upper limit value, the rotation of steam electrical ball valve 14 makes steam influx reduce, until stopping.
It is 14, four flow directors 1701 of steam electrical ball valve, drain valve 1802, red on 19 icon of high-temperature centrifugal fan
Color arrow flickers, and the yellow icon flicker on humidity sensor 3,4 icon of temperature sensor illustrates these original papers in normal work
Make, each road cycle is in normal condition.
When stopping fully automatic operation pattern, " stopping " icon, at this moment, the fully automatic operation pattern of baking room 1#, 2# are clicked
Stop, " full-automatic icon " flicker is wholly off after 10 seconds.
Method 2. clicks " 1# is automatic " icon, and at this moment " 1# is automatic " icon and " stopping " icon light, remaining icon is dark,
First baking room 1 enters full automatic drying pattern, the first baking room when the operation of the first baking room 1, stopped process and method 1
It is identical when 1 fully automatic mode;Baking room 2# is in halted state.
Method 3. clicks " 2# is automatic " icon, and at this moment " 2# is automatic " icon and " stopping " icon light, remaining icon is dark,
Baking room 2# enters full automatic drying pattern, the second baking room 2 when the operation of baking room 2#, stopped process and method 1 it is complete from
It is identical when dynamic model formula;Baking room 1# is in halted state.
Method 4. clicks " manual " icon, and at this moment " manual " icon and " stopping " icon light, remaining icon is dark, drying
Room 1#, 2# enter drying pattern manually:Which appliance icon is clicked, the equipment of which equipment operation, operation shows symbol flicker;
Such as:When clicking steam 14 icon of electrical ball valve, steam electrical ball valve 14 is started to work, red arrow flicker;It clicks electronic
When 7 icon of exhaust fan, electric exhaust fan 7 is started to work, cyan arrow flicker.It does not click, does not run, symbol does not flicker.
Under normal circumstances, " manual " pattern is used during equipment debugging.Automatic mode is used under normal operating conditions:Fortune
When 1 baking room 1# or 2# of row, click " 1# is automatic " or " 2# is automatic ";When two baking rooms 1#, 2# are run, click " entirely certainly
It is dynamic ".
Under either full-automatic, semi-automatic or manual mode, when the device components of operating status break down, touch
It touches the flicker of the failure alarm signal lamp on screen to thunder, at this point, which is looked at, the glittering device components run signal lamp does not dodge
It is bright, it is exactly that it breaks down, reparation of dispatching officers immediately.
The design principle of baking room:
1. hot wind discharge duct 1004 is arranged in the lower-left Angle Position of 1 end view drawing of the first baking room;Warm wind intake line 903
It is arranged in the upper right Angle Position of 1 end view drawing of the first baking room, " diagonal " relationship and low into height is formed with hot wind discharge duct road 1004
Go out;Moisture intake line 803 is arranged in the upper left position of 1 end view drawing of the first baking room, with hot wind discharge duct road 1004 and warm
Wind intake line 903 forms " dead angle " relationship.
2. the sum of area of n 1005 standard-sized sheet of thermal wind exhausting shutter on hot wind discharge duct road 1004=warm wind intake line
The sum of the area of n on 903 suction 902 standard-sized sheet of warm wind port, the face of n 802 standard-sized sheet of moisture absorption gas port on moisture intake line 803
The sum of the area of n 1005 standard-sized sheet of thermal wind exhausting shutter on the sum of product=0.5 times of hot wind discharge duct road 1004(This is to pass through
Adjust the data that the second sliding panel 801 of moisture absorption gas port 802 obtains), in this way, can guarantee that effect is discharged in moisture, and can guarantee
Hot wind 16 keeps passing through Bai Mo or yellow moulds 21 from heat supply wind system 10, reaches and inhale warm air system when moisture discharge system 8 works
9 diagonal flow relationship.
3. selecting vapor heat exchanger, its feature is utilized(Steam channel cross-sectional area into more than go out, steam be sent into direction with
Heat exchanger tube direction is vertical, no-welding type, double thread screw and nut, two seals item, all steel material)Improve the thermal efficiency.
4. using main control PLC, realize that drying is full-automatic.
4. recovered steam condensed water and residue vapor recycle.
According to steam drying room made of this design principle, efficiency is best, most economical material benefit.
The above is the citing of the utility model preferred forms, wherein the part that do not address in detail is this field
The common knowledge of those of ordinary skill.The scope of protection of the utility model is based on the contents of the claims, any to be based on this reality
The equivalent transformation carried out with novel technical inspiration is also within the protection scope of the utility model.
Claims (10)
1. a kind of diagonal circulating air baking room automation equipment of low in and high out, including baking room and vapor heat exchanger(15),
It is characterized in that:The baking room is connected with heat supply wind system(10), inhale warm air system(9), moisture discharge system(8), steam changes
Hot device(15)Connect heat supply wind system(10), inhale warm air system(9).
2. a kind of diagonal circulating air baking room automation equipment of low in and high out as described in claim 1, it is characterised in that:Institute
State heat supply wind system(10)Main pipeline is supplied including steam(12), steam supply main pipeline(12)It is connected with steam supply branch pipe(tube)
(13), steam supply branch pipe(tube)(13)Connect vapor heat exchanger(15), vapor heat exchanger(15)It is connected with condensing hot air furnace branch pipe
Road(1801), condensing hot air furnace branch pipe(tube)(1801)It is connected with condensing hot air furnace main pipeline(18).
3. a kind of diagonal circulating air baking room automation equipment of low in and high out as described in claim 1, it is characterised in that:Institute
State heat supply wind system(10)It further include high-temperature centrifugal fan(19), hot blast conveying pipe road(1001)With hot wind discharge duct road
(1004), hot blast conveying pipe road(1001)Connect vapor heat exchanger(15)With hot wind discharge duct road(1004), hot wind discharge duct road
(1004)It is equipped with n thermal wind exhausting shutter(1005), thermal wind exhausting shutter(1005)Equipped with adjusting louvre blade(1006).
4. a kind of diagonal circulating air baking room automation equipment of low in and high out as claimed in claim 3, it is characterised in that:Institute
State high-temperature centrifugal fan(19)It is arranged in vapor heat exchanger(15)Lower section, high-temperature centrifugal fan(19)Air outlet be aligned steam
Heat exchanger(15)Air inlet, vapor heat exchanger(15)Air outlet connect heat air delivery pipeline(1001).
5. a kind of diagonal circulating air baking room automation equipment of low in and high out as described in claim 1, it is characterised in that:Institute
State suction warm air system(9)Including high-temperature centrifugal fan(19), warm wind conveyance conduit(904)With warm wind intake line(903), high temperature
Centrifugal blower(19)Air inlet connect warm wind conveyance conduit(904), warm wind conveyance conduit(904)Connect warm wind intake line
(903), warm wind intake line(903)Connect baking room, high-temperature centrifugal fan(19)Air outlet connect vapor heat exchanger(15).
6. a kind of diagonal circulating air baking room automation equipment of low in and high out as claimed in claim 5, it is characterised in that:Institute
State warm wind intake line(903)It is equipped with n suction warm wind port(902), inhale warm wind port(902)Equipped with the first sliding panel(901), the
One sliding panel(901)It can be with slidable adjustment suction air volume size.
7. a kind of diagonal circulating air baking room automation equipment of low in and high out as described in claim 1, it is characterised in that:Institute
State moisture discharge system(8)Including motor-operated fan(7), hydrofuge feed channel(804)With moisture intake line(803);Electronic row
Fan(7)Connect hydrofuge feed channel(804), hydrofuge feed channel(804)Connect moisture intake line(803).
8. a kind of diagonal circulating air baking room automation equipment of low in and high out as claimed in claim 7, it is characterised in that:Institute
State moisture intake line(803)It is equipped with n moisture absorption gas port(802), moisture absorption gas port(802)Equipped with the second sliding panel(801), the
Two sliding panels(801)It can be with slidable adjustment moisture absorption tolerance size.
9. a kind of diagonal circulating air baking room automation equipment of low in and high out as described in claim 1, it is characterised in that:Institute
It includes hot wind discharge duct road to state baking room automation equipment(1004), moisture intake line(803), warm wind intake line(903),
Hot wind discharge duct road(1004), moisture intake line(803)With warm wind intake line(903)It is arranged in baking room, moisture is inhaled
Enter pipeline(803)With hot wind discharge duct road(1004), warm wind intake line(903)Position in baking room forms " dead angle " and closes
System.
10. a kind of diagonal circulating air baking room automation equipment of low in and high out as described in claim 1, it is characterised in that:
The automation equipment further includes detecting system, and detecting system includes humidity sensor(3), temperature sensor(4), main control PLC,
Humidity sensor(3), temperature sensor(4)Connect main control PLC, humidity sensor(3), temperature sensor(4)By what is detected
Humidity, temperature real-time delivery are to main control PLC.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721897748.1U CN207778980U (en) | 2017-12-29 | 2017-12-29 | A kind of diagonal circulating air baking room automation equipment of low in and high out |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721897748.1U CN207778980U (en) | 2017-12-29 | 2017-12-29 | A kind of diagonal circulating air baking room automation equipment of low in and high out |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207778980U true CN207778980U (en) | 2018-08-28 |
Family
ID=63224274
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721897748.1U Expired - Fee Related CN207778980U (en) | 2017-12-29 | 2017-12-29 | A kind of diagonal circulating air baking room automation equipment of low in and high out |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207778980U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110076063A (en) * | 2019-04-24 | 2019-08-02 | 邵东智能制造技术研究院有限公司 | A kind of evaporative pattern drying production line |
CN110195965A (en) * | 2019-06-26 | 2019-09-03 | 珠海格力电器股份有限公司 | Dryer and dryer adjusting method |
CN117781651A (en) * | 2024-02-23 | 2024-03-29 | 烟台大学 | Sport equipment washs back drying device |
-
2017
- 2017-12-29 CN CN201721897748.1U patent/CN207778980U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110076063A (en) * | 2019-04-24 | 2019-08-02 | 邵东智能制造技术研究院有限公司 | A kind of evaporative pattern drying production line |
CN110195965A (en) * | 2019-06-26 | 2019-09-03 | 珠海格力电器股份有限公司 | Dryer and dryer adjusting method |
CN110195965B (en) * | 2019-06-26 | 2024-03-19 | 珠海格力电器股份有限公司 | Dryer and dryer adjustment method |
CN117781651A (en) * | 2024-02-23 | 2024-03-29 | 烟台大学 | Sport equipment washs back drying device |
CN117781651B (en) * | 2024-02-23 | 2024-05-07 | 烟台大学 | Sport equipment washs back drying device |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN207778980U (en) | A kind of diagonal circulating air baking room automation equipment of low in and high out | |
CN107830705A (en) | A kind of novel high-efficiency and energy-saving heat pump double back heated drying system | |
CN103968658B (en) | A kind of air source heat pump water circulation heating and water circulation dehumidification by condensation drying unit | |
CN107726807A (en) | A kind of multiple step drainage air-distribution device, drying chamber and dryer | |
CN206094826U (en) | A energy -conserving drying -machine of environment -friendly for solid wood panel is dried | |
CN101648178B (en) | Energy-saving drying method and energy-saving type drying oven cover | |
CN206094832U (en) | Energy -concerving and environment -protective drying device of tunnel type | |
CN201863287U (en) | Intelligent curving equipment of quartz ceramic crucible | |
CN207527938U (en) | Combined drying system | |
CN203771961U (en) | Automatic thermostat of grain drying machine | |
KR102431531B1 (en) | High-efficiency heat exchanger for drying equipment for agricultural and fishery products by using automatic temperature and humidity control method and negative pressure interlocking system | |
CN215270916U (en) | Steam-electricity dual-purpose drying tunnel equipment | |
CN206094828U (en) | Heat energy cyclic utilization's energy -conserving drying device of panel | |
CN104677067B (en) | A kind of cold, hot two-purpose type drying box | |
CN108800801A (en) | A kind of heat pump hot wind cycle intelligent oven drying device | |
CN201659077U (en) | Environment-friendly drying oven cover | |
CN108518319A (en) | Tower bottom of marine wind generating set cooling and dehumidifying system and control method | |
CN204535296U (en) | A kind of cold, hot two-purpose type drying box | |
CN205311022U (en) | Multistage energy -conserving oven of aluminium foil paper compounding machine | |
CN211823510U (en) | Intelligent energy-saving heat-preservation drying room | |
CN209619161U (en) | Integrated form sludge drying machine | |
CN208192105U (en) | A kind of ascending manner energy saving flue-cured tobacco-room | |
CN208901755U (en) | A kind of Manufacture of medicinal slices of TCM hot air circulation drying room | |
CN101700518A (en) | Environment-friendly drying method and environment-friendly drying oven cover | |
CN204902458U (en) | Disappearance mould baking house of cycle operation |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180828 Termination date: 20191229 |