CN208540714U - A kind of modulating system of energy-saving soybean tempering tower - Google Patents

Abstract

The utility model relates to the modulating systems of energy-saving soybean tempering tower, it includes multiple texturizing layers between the feed zone and discharging section of soybean tempering tower, structure in each texturizing layer is all the same, and including layer ontology, component can be adjusted to the steam that the soybean of process is dried and dehydrated, the hot wind that soybean is dried can be adjusted component, Temperature Humidity Sensor, and the information that Temperature Humidity Sensor is fed back can be received and adjust the processor that steam and hot wind in this layer of ontology feed parameter value, wherein hot wind adjusts the top that component is located at steam adjusting component, and the heat that can absorb steam adjusting component dries soybean.On the one hand the utility model can save the usage amount of steam, and using Hot-blast Heating channel and air exhaust passage realization drying is formed between jet chimney, complete energy conservation；On the other hand, temperature, humidity and the pressure inside each texturizing layer can be controlled, it is made to can also be used to the pretreatment of other oil plants, enhances practicability.

Description

A kind of modulating system of energy-saving soybean tempering tower

Technical field

The utility model is in food processing equipment field, and in particular to a kind of modulation system of energy-saving soybean tempering tower System.

Background technique

Soybean peeling technology was applied commonplace in recent years, and the technique is to produce the dregs of beans of high protein content and improve big Soya-bean oil quality is target, and the available fibrous soybean peel of richness is the important channel of raising grease factory economy benefit, Soybean tempering tower is the key equipment in soybean peeling technology, and soybean enters soybean tempering tower after clearing up and handled, can Soybean is carried out to heat quenched softening, can also reduce soybean moisture content within a short period of time, soybean is made to meet decortication, roll needed for embryo Suitable temperature, humidity and physical characteristic is the assembly of the function of softening kettle and dryer.Present medium-and-large-sized grease factory Newly-built soybean is that the production line of raw material is substantially all using soybean peeling technology, therefore soybean tempering tower is at medium-and-large-sized soybean " standard configuration " of grease factory.

The working principle of soybean tempering tower is to utilize steam indirect heating and the direct drying and dewatering of hot wind.Indirect steam adds Heat had both improved big bean temperature, and had softened soybean adequately, and played the role of drying and dehydrating to soybean, and hot wind is with convection current Form directly contacts soybean, removes soybean humidity, takes away steam, also play the role of heat temperature raising to soybean.

Soybean tempering tower is modular construction, with a series of by modularized design, manufacture, according to different yield using not Same module number, product are assembled at the scene with modular transportation.Soybean tempering tower primary structure is made of multilayer, including charging Section 1 ', heating layer 2 ', hot wind layer 3 ', discharging section 4 ' and control system, wherein heating layer 2 ', hot wind layer 3 ' be intervally arranged (referring to Fig. 1)；Heating layer 2 ' uses elliptical tube Heterogeneous Permutation, by low-pressure steam heating (participating in Fig. 2)；Hot wind layer 3 ' is divulged information using horn shape Box (participates in Fig. 3)；Discharging section is made of several groups of rotary valves.

Control system is automation control, controls feed zone material position with discharging section, and with charging conveying equipment chain, with The temperature of discharging section soybean come control vapor film into quantity of steam, the heat of hot wind layer is controlled with the moisture content of discharging section soybean Air temperature or hot blast rate.

The major advantage of soybean tempering tower: being conducive to Hot Dehulling Technique of Soybean, and exfoliant effect is good, goes before leaching not needing to add again It heat and removes water, saves embryo piece drying equipment, the softening kettle that compares can save power consumption.

And main problem existing for above-mentioned soybean tempering tower:

(1), steam consumption is big.Existing soybean tempering tower adjusts soybean using indirect steam heating in heating layer Matter, softening blast hot-air in hot wind layer and dry to soybean, and hot-air is heated by air heater, air heater by Steam indirect heating.Automatic control system with the temperature of discharging section soybean come control vapor film into quantity of steam, and with discharging The moisture content of section soybean controls the hot blast temperature of hot wind layer, i.e., control air heater into quantity of steam, be equivalent to steam Heating layer only considers that steam heats, and hot-air seasoning layer only considers that humidity removes.Come from the working principle of soybean tempering tower above-mentioned It sees, heating layer elliptical tube indirect heating improves big bean temperature, also plays the role of drying and dehydrating to soybean, and hot wind is with convection current Soybean is directly contacted, soybean humidity is removed, takes away aqueous vapor, also play the role of heat temperature raising to soybean.Therefore automation control The steam demand calculation amount of default is bigger than actual demand amount, and quantity of steam often inputs excessive when causing to produce, and causes to steam The certain waste of vapour, keeps steam consumption big.

(2), high equipment cost, material is more, and volume is big.Soybean tempering tower primary structure is made of multilayer, including feed zone, The structures such as heating layer, hot wind layer, discharging section, wherein heating layer and hot wind layer form one quenched section, heat to soybean quenched soft Change, then drying removal humidity is carried out to soybean, is composed in a soybean tempering tower by multiple such quenched sections, it is duplicate The operation for carrying out quenched softening-drying, keeps device height higher, and ratio of height to diameter is larger, wants to reach required quenched drying Ask required quenched section also compare it is more.Excessive height puts forward higher requirements plant building, to corresponding matched equipment such as into The height of material elevator also has higher requirement, and which increase the investments of plant and equipment.

(3), it is only applied to soybean peeling technology, may not apply to other raw materials and other oil plant pretreating process, is applied Range is small.Soybean tempering tower is dedicated in soybean peeling technology, is softened to soybean and is dried, and the skin and benevolence of soybean are enable It is enough to separate, in favor of subsequent decortication, the grains such as corn, wheat, rice cannot be dried, because of the temperature pair of heating layer It is too high for grain, handled grain surface layer rapid draing can be made, and interior humidity lowers not yet, makes excessive surface Dry, fragmentation, and it is internal wet, grain is damaged, is unfavorable for storing, and if only drying baking zone merely, Drying capacity is again insufficient, and internal volume waste is serious, and effect is bad.To the softening drying and processing of other oil plants, there is also very big Defect then only need to soften such as to vegetable seed pretreating process, do not need to dry, such as need to dry vegetable seed, then drying capacity Deficiency, effect are bad.The case where other oil plant pretreating process or stoving process, is similar with vegetable seed.

Summary of the invention

Technical problem to be solved in the utility model be overcome the deficiencies of the prior art and provide it is a kind of improved energy-saving The modulating system of soybean tempering tower, one side can save the usage amount of steam, and using forming hot wind between jet chimney It heats channel and air exhaust passage realizes drying, complete energy conservation；On the other hand, temperature inside each texturizing layer, wet can be controlled Degree and pressure, so that its pretreatment that can also be used to other oil plants, enhances practicability.

In order to solve the above technical problems, the utility model adopts the following technical scheme:

A kind of modulating system of energy-saving soybean tempering tower comprising positioned at soybean tempering tower feed zone and discharging section it Between multiple superpositions texturizing layer, wherein feed zone and discharging section are located at the top and bottom of soybean tempering tower, in particular, Structure in each texturizing layer is all the same, and include layer ontology, positioned at layer it is intrinsic can soybean to process into The hot wind that soybean is dried can be adjusted component in layer ontology, be used to supervise by the steam adjusting component of row drying and dehydrating In control layer ontology the Temperature Humidity Sensor of temperature and humidity and can receive that the information that Temperature Humidity Sensor fed back adjusts should Steam and hot wind feed the processor of parameter value in layer ontology, and wherein hot wind adjusts the top that component is located at steam adjusting component, And the heat that can absorb steam adjusting component dries soybean.

Preferably, it includes being horizontally set in the intrinsic more quenched pipe of layer, being connected to quenched pipe and can that steam, which adjusts component, So that steam flowing for steam unit.

A specific implementation according to the present utility model and preferred aspect, more quenched pipes are along layer body height direction shape At multiple rows of, wherein often teasing and ridicule the setting of matter pipe uniform intervals, and per sequence setting between adjacent two rows.By the dislocation point of quenched pipe Cloth, so that soybean can leak through from gap location, to achieve the effect that be heated to dehydration.

Preferably, the section of quenched pipe is in waist-shaped hole shape, and the length direction of waist-shaped hole is consistent with layer body height direction.

Further, quenched pipe includes two parallel and upper and lower spaced steam channel pipes, wherein two steamings up and down Form hot-air channel between vapour tube channel, and hot-air channel is equipped with ventilation mouth, after gas enters, the steaming in steam channel pipe Vapour heat and shed from ventilation mouth drying soybean to hot-air channel interior air-flow.Pass through the gas of discharge in hot-air seasoning It is external that body takes moisture out of layer sheet, and then improves drying effect.

Specifically, the air inlet of hot-air channel is open ended, is closed with the opposed end of air inlet, ventilation mouth have it is multiple, And the two sides of hot-air channel are evenly distributed on along hot-air channel length direction.So that air-flow uniformly scatters, convenient for drying.

Another specific implementation according to the present utility model and preferred aspect, it includes being located on quenched pipe that hot wind, which adjusts component, Side and multiple angle-like ventilation boxes arranged side by side, the wind-supply unit being connected with hot-air channel and to infeed hot-air channel The heating unit that gas is heated, the air-flow that wherein hot-air channel sheds outflow from inside angle-like ventilation box are intrinsic by layer It is external that moisture takes layer sheet out of, and the air-flow can also diagonal venting box heated.On the one hand by heating unit to addition Gas first preheats, and then carries out forming hot wind under indirect heating in vapor stream, by the drying of soybean, while can reduce steam Dosage；On the other hand it is heated by the way that air-flow diagonal venting box is discharged, and then transfers heat to soybean, so that soybean is soft Change, heating, drying, to achieve the purpose that quenched.

Preferably, angle-like ventilation box includes the first forming part that apex angle is acute angle being formed positioned at top, from the first forming part The second forming part that two sides extend downwards vertically, wherein forming the air draft of bottom-open between the first forming part and the second forming part Channel, two adjacent angle-like ventilation boxes and the material that formation is passed through for soybean between the two neighboring quenched pipe of every row are logical Road.

Specifically, angle-like ventilation box and the bit distribution that is staggered between the quenched pipe at top, the wherein bottom of air exhaust passage Gap between the two neighboring quenched pipe of the face row；The quenched pipe of material channel face.

In addition, processor is also connected with cloud platform system, and then control the steam and hot wind entered in every layer of texturizing layer Flow.Therefore, it realizes intelligentized control method, increases electrical components appropriate, and apparatus control system and processor connection is mutual Networking, accesses the oil equipment cloud platform system of our company.The automation control of existing equipment is closed-loop feedback manner, i.e., to go out The temperature and humidity of soybean is expected to control the hot blast rate when steam input quantity and drying when heating, and when discharging, big bean temperature is low , then the steam input quantity of heating layer just improves, and the humidity for the soybean that discharges is high, then the hot blast temperature of baking zone just improves, and makes At some wastes of steam consumption, the fluctuation of discharging soybean temperature and humidity state parameter is also formed.And in the application, access oil After rouge equipment cloud platform, one " brain " just is increased to equipment, Cloud Server is based on big data, in soybean tempering tower The temperature and humidity situation of soybean be detected and analyzed, the quantity of steam and hot blast temperature or heat of quenched pipe is determined by calculation Air quantity, Cloud Server can obtain one " optimum value ", and soybean can be made to obtain quenched softening and dry humidity, make soybean tune Matter effect is best, also makes the usage amount of steam minimum.Simultaneously for the raw materials such as the inconvenient corn heated using higher temperature, cloud clothes Business device can be reduced or switched off the steam of indirect heating, increase hot blast rate, reduce hot blast temperature.In short, Cloud Server can not suspend Collect manufacturing parameter and form big data, and operation can constantly be issued according to the parameter of real-time detection and be instructed, realizes intelligent control System.Our company establishes oil equipment cloud platform, and the production line of client is accessed, based on big data, intervention production comprehensively The production management of line, actual equipment end is very simple, increases equipment cost substantially not.Therefore, technical scheme In novel quenched pipe design, can make intelligentized control method is more convenient reliable to implement.

Meanwhile in the application, there are three channels for each quenched pipe, and an intermediate channel is hot-air channel, are passed through hot wind, Hot wind is just produced by boasting from the ventilation mouth of two sides, is blown into raw material, and two channels of upper and lower ends are steam channels, leads to steam, Raw material is heated.Therefore it is covered with the texturizing layer of quenched pipe, heating and hot-air seasoning can be carried out to raw material simultaneously, are also convenient for Cloud Server is controlled and is adjusted to operation at any time according to the temperature and moisture of raw material, but also enables to heating and hot wind Drying is combined into one, and reduces device height.

Finally, in the application, texturizing layer from top to bottom, some of them texturizing layer only needs to be passed through steam, does not need to lead to Enter hot wind；Or certain texturizing layers are only needed into hot wind, and not be passed through steam；Or certain texturizing layer steam and hot wind require It is passed through, these are handled by intelligence control system.It is quenched in this example again by being arranged by most upper one layer of angle-like ventilation box It manages the space alternate with angle-like ventilation box and is full of raw material (soybean), for quenched pipe intermediate channel for being passed through hot wind, upper and lower ends are logical Road is for being passed through steam, and after hot wind is passed through, the multiple ventilation mouths being distributed from the length direction of quenched pipe are produced by boasting, with raw material It is in contact, takes away moisture, and transfer heat to raw material, be then discharged from angle-like ventilation box, the channel of upper and lower ends is passed through steaming Vapour makes raw material heating softening, and the moisture that volatilizees, makes raw material softening heating drying, reach quenched mesh for heating to raw material 's.

Due to the implementation of above technical scheme, the utility model has the advantages that compared with prior art

On the one hand the utility model can save the usage amount of steam, and logical using Hot-blast Heating is formed between jet chimney Road and air exhaust passage realize drying, complete energy conservation；On the other hand, temperature, humidity and the pressure inside each texturizing layer can be controlled Power makes it can also be used to the pretreatment of other oil plants, enhances practicability.

Detailed description of the invention

The utility model is described in more detail with specific embodiment with reference to the accompanying drawing.

Fig. 1 is the structural schematic diagram of soybean tempering tower in the prior art；

Fig. 2 is the longitudinal cross-section enlarged diagram of heating layer in Fig. 1；

Fig. 3 is the longitudinal cross-section enlarged diagram of hot wind layer in Fig. 1；

Fig. 4 is the structural schematic diagram of the soybean tempering tower of the utility model；

Fig. 5 is the schematic front view of texturizing layer in Fig. 1 (arrow represents airflow direction)；

Fig. 6 be in Fig. 5 A-A to schematic cross-sectional view (arrow represents airflow direction)；

Fig. 7 is the schematic front view of quenched pipe in Fig. 4；

Fig. 8 is the schematic side view of Fig. 7 (arrow represents airflow direction).

Wherein: 1,1 ', feed zone；2,4 ', discharging section；3, texturizing layer；30, layer ontology；31, steam adjusts component；310, Quenched pipe；A, steam channel pipe；B, hot-air channel；B1, ventilation mouth；32, hot wind adjusts component；320, angle-like ventilation box；3201, First forming part；3202, the second forming part；33, Temperature Humidity Sensor；C, air exhaust passage；D, material channel；2 ', heating layer； 3 ', hot wind layer.

Specific embodiment

Referring to fig. 4 to Fig. 8, according to the modulating system of the energy-saving soybean tempering tower of the present embodiment comprising be located at soybean The texturizing layer 3 of multiple superpositions between the feed zone 1 and discharging section 2 of tempering tower, wherein feed zone 1 and discharging section 2 are located at The top and bottom of soybean tempering tower, in particular, be located at each texturizing layer 3 in structure it is all the same, and include layer ontology 30, Can adjust component 31 to the steam that the soybean of process is dried and dehydrated, being located at energy in layer ontology 30 in layer ontology 30 Enough Temperature Humidity Sensors that the hot wind that soybean is dried is adjusted component 32, is used for temperature and humidity in supervisory layers ontology 30 33 and the processing that the information that Temperature Humidity Sensor 33 is fed back adjusts steam and hot air flow in this layer of ontology 30 can be received Device (not shown), wherein hot wind adjusts the top that component 32 is located at steam adjusting component 31, and can absorb steam adjusting The heat of component 31 dries soybean.That is, soybean first pass through hot wind adjust component 32 air-dry preheating, then again by Steam adjusts component 31 and heats to it, consequently facilitating dehydration.

Specifically, it includes more quenched pipes 310 being horizontally set in layer ontology 30 and quenched pipe 310 that steam, which adjusts component 31, Be connected to and enable to steam flow for steam unit (not shown).

More quenched pipes 310 form multiple rows of along 30 short transverse of layer ontology, set wherein often teasing and ridicule 310 uniform intervals of matter pipe It sets, and per sequence setting between adjacent two rows.By being dislocatedly distributed for quenched pipe 310, so that soybean can be from gap location It leaks through, to achieve the effect that be heated to dehydration.

In this example, the section of quenched pipe 310 is in waist-shaped hole shape, and the length direction of waist-shaped hole and 30 short transverse of layer ontology Unanimously.

Further, quenched pipe 310 includes two parallel and upper and lower spaced steam channel pipe a, wherein upper and lower two Form hot-air channel b between root steam channel pipe a, and hot-air channel b is equipped with ventilation mouth b1, after gas enters, steam is logical Steam in deferent a heat and shed from ventilation mouth b1 drying soybean to hot-air channel b interior air-flow.Hot-air seasoning In by be discharged gas moisture is taken out of outside layer ontology 30, and then improve drying effect.

Specifically, the air inlet of hot-air channel b is open ended, opposed end closure with air inlet, ventilation mouth b1 has more It is a, and it is evenly distributed on along hot-air channel b length direction the two sides of hot-air channel b.So that air-flow uniformly scatters, convenient for drying It is dry.

It includes positioned at quenched 310 top of pipe and multiple angle-like ventilation boxes 320 arranged side by side and heat that hot wind, which adjusts component 32, Wind-supply unit that wind channel b is connected and the heating unit that the gas for feeding hot-air channel b is heated, wherein hot wind The air-flow that channel b sheds is flowed out from inside angle-like ventilation box 320 takes the moisture in layer ontology 30 outside layer ontology 30 out of, and the gas Stream can also diagonal venting box 320 heated.On the one hand it is carried out being thermally formed hot wind by vapor stream, convenient for the baking of soybean It is dry；On the other hand it is heated by the way that air-flow diagonal venting box is discharged, and then transfers heat to soybean, so that soybean is soft Change, heating, drying, to achieve the purpose that quenched.

Angle-like ventilation box 320 includes the first forming part 3201 that apex angle is acute angle being formed positioned at top, from the first forming part The second forming part 3202 that 3201 two sides extend downwards vertically, wherein shape between the first forming part 3201 and the second forming part 3202 At the air exhaust passage c of bottom-open, two adjacent angle-like ventilation boxes 320 and between the two neighboring quenched pipe 310 of every row Form the material channel d passed through for soybean.

In this example, angle-like ventilation box 320 and the bit distribution that is staggered between the quenched pipe 310 at top, wherein air exhaust passage c The bottom face row two neighboring quenched pipe 310 between gap；The quenched pipe 310 of material channel d face.

Temperature Humidity Sensor 33 is located in layer ontology 30.

In addition, processor is also connected with cloud platform system, and then control the steam and hot wind entered in every layer of texturizing layer Infeed parameter value, wherein parameter value major embodiment: as (pressure, temperature and flow, wherein pressure is bigger, its temperature for steam It is higher)；Hot wind (wind pressure, temperature and flow).

Therefore, it realizes intelligentized control method, increases electrical components appropriate, and apparatus control system and processor connection is mutual Networking, accesses the oil equipment cloud platform system of our company.The automation control of existing equipment is closed-loop feedback manner, i.e., to go out The temperature and humidity of soybean is expected to control the hot blast rate when steam input quantity and drying when heating, and when discharging, big bean temperature is low , then the steam input quantity of heating layer just improves, and the humidity for the soybean that discharges is high, then the hot blast temperature of baking zone just improves, and makes At some wastes of steam consumption, the fluctuation of discharging soybean temperature and humidity state parameter is also formed.And in the application, access oil After rouge equipment cloud platform, one " brain " just is increased to equipment, Cloud Server is based on big data, in soybean tempering tower The temperature and humidity situation of soybean be detected and analyzed, the quantity of steam and hot blast temperature or heat of quenched pipe is determined by calculation Air quantity, Cloud Server can obtain one " optimum value ", and soybean can be made to obtain quenched softening and dry humidity, make soybean tune Matter effect is best, also makes the usage amount of steam minimum.Simultaneously for the raw materials such as the inconvenient corn heated using higher temperature, cloud clothes Business device can be reduced or switched off the steam of indirect heating, increase hot blast rate, reduce hot blast temperature.In short, Cloud Server can not suspend Collect manufacturing parameter and form big data, and operation can constantly be issued according to the parameter of real-time detection and be instructed, realizes intelligent control System.Our company establishes oil equipment cloud platform, and the production line of client is accessed, based on big data, intervention production comprehensively The production management of line, actual equipment end is very simple, increases equipment cost substantially not.Therefore, technical scheme In novel quenched pipe design, can make intelligentized control method is more convenient reliable to implement.

Meanwhile in the application, there are three channels for each quenched pipe, and an intermediate channel is hot-air channel, are passed through hot wind, Hot wind is just produced by boasting from the ventilation mouth of two sides, is blown into raw material, and two channels of upper and lower ends are steam channels, leads to steam, Raw material is heated.Therefore it is covered with the texturizing layer of quenched pipe, heating and hot-air seasoning can be carried out to raw material simultaneously, are also convenient for Cloud Server is controlled and is adjusted to operation at any time according to the temperature and moisture of raw material, but also enables to heating and hot wind Drying is combined into one, and reduces device height.

Finally, in the application, texturizing layer from top to bottom, some of them texturizing layer only needs to be passed through steam, does not need to lead to Enter hot wind；Or certain texturizing layers are only needed into hot wind, and not be passed through steam；Or certain texturizing layer steam and hot wind require It is passed through, these are all to be handled by intelligence control system, then be arranged by passing through most upper one layer of angle-like ventilation box, quenched in this example It manages the space alternate with angle-like ventilation box and is full of raw material (soybean), for quenched pipe intermediate channel for being passed through hot wind, upper and lower ends are logical Road is for being passed through steam, and after hot wind is passed through, the multiple ventilation mouths being distributed from the length direction of quenched pipe are produced by boasting, with raw material It is in contact, takes away moisture, and transfer heat to raw material, be then discharged from angle-like ventilation box, the channel of upper and lower ends is passed through steaming Vapour makes raw material heating softening, and the moisture that volatilizees, makes raw material softening heating drying, reach quenched mesh for heating to raw material 's.

To sum up, the innovative point of the present embodiment is mainly reflected in:

(1), gather the texturizing layer and quenched pipe structure of steam indirect heating and direct hot-wind drying function in one.It is existing Individual indirect steam heating layer and direct hot-air seasoning layer is arranged in soybean tempering tower, is to make soybean obtain relatively good tune Matter effect is convenient for separation of hull and kernel, but also therefore keeps equipment more complicated, and volume is big, and equipment is high, operates more complicated, steam consumption Greatly, waste is serious.And novel texturizing layer and quenched pipe, this purpose equally may be implemented, and be also convenient for control system pair The raw material of any position carries out the adjustment of operating parameter, and this adjustment is that all operation item parameters can adjust.

(2), the texturizing layer of novel tempering tower, completely new working method, heating layer and drying of the texturizing layer existing equipment The function set of layer reduces device height in one, reduces manufacturing cost, and when production can be at any time according to feed states pair Operating parameter is adjusted, and no matter can be adjusted to all parameters in which layer, therefore, the steam and hot wind of each layer Input be at any time all in variation.

(3), intelligentized control method, for raw material processed in tempering tower in moving process, equipment can constantly detect the shape of raw material " brain " of state parameter, equipment can be basic analytical calculation with big data, and best treatment effect can be reached and make defeated by obtaining The quantity of steam entered is least " preferred plan ", constantly issues operational order to equipment.In order to reduce the cost of client's purchase of equipment, Our company has built up oil equipment cloud platform, and result in formation of the form of " thin-client, fat server ", the control systems of equipment end System increases some necessary detections, transfer element, connection internet is connected on the basis of previous automatic control system After the oil equipment cloud platform of our company, it will be able to realize intelligentized control method.And the structure and working method of novel tempering tower, It is to realize the necessary premise of intelligentized control method, control system is enable arbitrarily to adjust operating parameter, executes indirect heating or drying Operation, or even indirect heating and hot-air seasoning are all closed, raw material " standing " a period of time on the basis of upper layer is handled is allowed, is made Raw material internal moisture and temperature transfer, state are gradually consistent.

Therefore, the present embodiment has the advantage that

(1), steam consumption is reduced.Have benefited from intelligentized control method, the machine is capable of the defeated of strict control steam and hot blast rate Enter, a feature of the machine is that each layer of texturizing layer can all be analyzed according to the temperature of raw material and water parameters, and be taken opposite The operating parameter answered, control system can comprehensively consider the coefficient of indirect steam and direct hot wind as a result, adjusting at each layer Matter layer all makes every effort to take the steam of " best " and the input parameter of hot blast rate, while the effect obtained, disappearing for steam Consumption is preferably minimized, and avoids the waste of steam as far as possible.

(2), equipment and materials is reduced, device height is reduced.The characteristics of texturizing layer, has merged indirect heating and hot-air seasoning, i.e., Original indirect heating layer and hot-air seasoning layer are designed to one layer, therefore significantly reduce design height, decreases equipment Manufacture material and cost.

(3), expand the application range of equipment.Intelligent soybean tempering tower in addition to be applied to soybean peeling technology, to soybean into Row softening drying is outer, also can be applied to the pretreating process of other oil plants such as vegetable seed, is softened to oil plant or dried, separately It also can be applied to the drying of the grain materials such as corn, wheat outside.Because can be with reed time controll indirect steam and hot wind, synthesis be examined Consider indirect steam and hot wind is coefficient as a result, when operating to oil material softening, is only passed through indirect steam, it is logical to close hot wind Road can close indirect steam channel, only be passed through hot wind when carrying out drying operation, for different raw materials, different operations It is required that Cloud Server can issue in due course optimal operating parameter on the basis of big data.In addition, soybean peeling technology produces Therefore line also can process other kinds of oil plant, expand the treatment effeciency of production line.

The utility model is described in detail above, its object is to allow the personage for being familiar with this field technology can be much of that It solves the content of the utility model and is implemented, do not limit the protection scope of the present invention, and the utility model The above embodiments are not limited to, equivalent change or modification made by all Spirit Essences according to the present utility model should all cover The protection scope of the utility model.

Claims (10)

1. a kind of modulating system of energy-saving soybean tempering tower comprising between the feed zone and discharging section of soybean tempering tower Multiple superpositions texturizing layer, wherein the feed zone and discharging section is located at the top and bottom of soybean tempering tower, Be characterized in that: the structure in each texturizing layer is all the same, and includes layer ontology, is located at the intrinsic energy of the layer The enough steam that the soybean of process is dried and dehydrated adjusts component, can dry soybean in the layer ontology Hot wind adjusts component, for monitoring the Temperature Humidity Sensor of temperature and humidity in the layer ontology and can receive the temperature The information that humidity sensor is fed back adjusts the processor that steam and hot wind in this layer of ontology feed parameter value, wherein the heat Wind, which adjusts component and is located at the steam, adjusts the top of component, and can absorb the heat of steam adjusting component to soybean into Row drying.

2. the modulating system of energy-saving soybean tempering tower according to claim 1, it is characterised in that: the steam is adjusted Component includes the confession for being horizontally set in the intrinsic more quenched pipe of the layer, being connected to the quenched pipe and enabling to steam to flow Steam unit.

3. the modulating system of energy-saving soybean tempering tower according to claim 2, it is characterised in that: quenched described in more Pipe formed along layer body height direction it is multiple rows of, wherein the setting of quenched pipe uniform intervals described in every row, and up and down per adjacent Sequence is arranged between two rows.

4. the modulating system of energy-saving soybean tempering tower according to claim 3, it is characterised in that: the quenched pipe Section is in waist-shaped hole shape, and the length direction of waist-shaped hole is consistent with layer body height direction.

5. the modulating system of energy-saving soybean tempering tower according to Claims 2 or 3 or 4, it is characterised in that: the tune Matter pipe includes two parallel and upper and lower spaced steam channel pipes, wherein being formed between two steam channel pipes up and down Hot-air channel, and the hot-air channel be equipped with ventilation mouth, gas enter after, the steam in the steam channel pipe is to institute Hot-air channel interior air-flow is stated heat and shed from the ventilation mouth drying soybean.

6. the modulating system of energy-saving soybean tempering tower according to claim 5, it is characterised in that: the hot-air channel Air inlet it is open ended, be closed with the opposed end of air inlet, the ventilation mouth has multiple and long along the hot-air channel Degree direction is evenly distributed on the two sides of the hot-air channel.

7. the modulating system of energy-saving soybean tempering tower according to claim 5, it is characterised in that: the hot wind is adjusted Component includes positioned at the quenched pipe top and the multiple angle-like ventilation boxes being arranged side by side, the confession being connected with the hot-air channel Wind unit and the heating unit that the gas for feeding hot-air channel is heated, wherein the air-flow that the hot-air channel sheds It is external to take the intrinsic moisture of the layer out of the layer sheet for outflow inside from the angle-like ventilation box, and the air-flow can also be right The angle-like ventilation box is heated.

8. the modulating system of energy-saving soybean tempering tower according to claim 7, it is characterised in that: the horn shape ventilation Box includes forming apex angle positioned at top to extend vertically downwards for the first forming part of acute angle, from the first forming part two sides Second forming part, wherein forming the air exhaust passage of bottom-open, phase between first forming part and second forming part Form between two adjacent angle-like ventilation boxes and between the two neighboring quenched pipe of every row the object passed through for soybean Expect channel.

9. the modulating system of energy-saving soybean tempering tower according to claim 8, it is characterised in that: the horn shape ventilation Box and the bit distribution that is staggered between the quenched pipe at top, wherein the equal face in bottom of each air exhaust passage is most upper Gap between the two neighboring quenched pipe of row；Quenched pipe described in the material channel face.

10. the modulating system of energy-saving soybean tempering tower according to claim 1, it is characterised in that: the processor Also it is connected with cloud platform system, and then controls the flow of the steam and hot wind that enter in every layer of texturizing layer.