CN208684875U - A kind of tempering tower direct steam softening plant - Google Patents
A kind of tempering tower direct steam softening plant Download PDFInfo
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- CN208684875U CN208684875U CN201821394013.1U CN201821394013U CN208684875U CN 208684875 U CN208684875 U CN 208684875U CN 201821394013 U CN201821394013 U CN 201821394013U CN 208684875 U CN208684875 U CN 208684875U
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Abstract
A kind of tempering tower direct steam softening plant, belong to grease processing technology field, it is aqueous uneven in order to solve soybean materials, half steaming is even in digesting apparatus, it is characterized in that including entering the bed of material, temporary layer, first Hot-blast Heating layer, first indirect vapour heating layer, second Hot-blast Heating layer, first air inlet tube layer, second indirect vapour heating layer, third Hot-blast Heating layer, second air inlet tube layer, the indirect vapour heating layer of third, 4th Hot-blast Heating layer, third enters the wind tube layer, the lower bed of material and the out bed of material, candlestick shape is provided at the top of tempering tower enters the bed of material, the bottom end for entering the bed of material is connect with the top of temporary layer, the bottom of temporary layer is connect with the top of the first Hot-blast Heating layer, first indirect vapour heating layer is installed below the first Hot-blast Heating layer, the second Hot-blast Heating layer is provided with below first indirect vapour heating layer, it solves The non-uniform situation of the water of soybean materials ensure that soybean material is rapidly reached qualified material state.
Description
Technical field
The utility model relates to grease processing technology field, specially a kind of tempering tower direct steam softening plant.
Background technique
Soybean is one of most important grain in the world, and nutritive value is better than rice and potato, with soybean processing industry
Development, the use quality of soybean constantly improves, form the soy food product of wide variety, but the particle of soybean is larger,
Viscosity is small, and humidity is larger, and the equipment of the boiling of existing soybean processing softening, plays beans distribution in equipment after charging
Unevenly, and the original moisture of soybean can not be evaporated, it is even that this directly results in soybean half steaming in digesting apparatus,
The soybean materials for being are aqueous uneven, and then affect the bating effect of soybean, and even more serious affecting processes
Carry out the quality of product.
Utility model content
The utility model designs to overcome drawbacks described above, provides a kind of tempering tower direct steam softening plant.
A kind of tempering tower direct steam softening plant of the utility model exists for the technical solution taken of the above problem of solution
In, including enter the bed of material, temporary layer, the first Hot-blast Heating layer, the first indirect vapour heating layer, the second Hot-blast Heating layer, the first air inlet
Tube layer, the second indirect vapour heating layer, third Hot-blast Heating layer, the second air inlet tube layer, the indirect vapour heating layer of third, the 4th hot wind add
Thermosphere, third enter the wind tube layer, the lower bed of material and the bed of material, the main part of the tempering tower are cylinder out, sets at the top of tempering tower
Be equipped with candlestick shape enters the bed of material, and the center for entering the top of the bed of material offers feeding inlet, and is machined with below feeding inlet
One peep hole, the bottom end for entering the bed of material are connect with the top of temporary layer, and the top of the bottom and the first Hot-blast Heating layer of keeping in layer connects
It connects, the first indirect vapour heating layer is installed below the first Hot-blast Heating layer, is provided with below the first indirect vapour heating layer
Two Hot-blast Heating layers, the bottom end of the second Hot-blast Heating layer are connect with the top of the first air inlet tube layer, the lower section of the first air inlet tube layer
It is provided with the second indirect vapour heating layer, third Hot-blast Heating layer is installed below the second indirect vapour heating layer, third hot wind adds
The arranged beneath of thermosphere has the second air inlet tube layer, and the bottom end of the second air inlet tube layer is connected with the top of the indirect vapour heating layer of third,
The 4th Hot-blast Heating layer is provided with below the indirect vapour heating layer of third, the lower section of the 4th Hot-blast Heating layer is equipped with third blast pipe
Layer, third enter the wind and are equipped with the lower bed of material below tube layer, and the arranged beneath of the lower bed of material has the bed of material out.
The first Hot-blast Heating layer, the second Hot-blast Heating layer, third Hot-blast Heating layer and the 4th Hot-blast Heating layer it is interior
Portion's structure is all identical, left and right two parts of inside difference of Hot-blast Heating layer, the middle position of left and right two parts bottom plate
It is provided with temperature measurement table.
Tube sheet end socket is installed inside the first indirect vapour heating layer, is equidistantly machined with multiple through-holes on tube sheet, first
Indirect vapour heating layer is from top to bottom provided with 4 heating tubes with holes.
Further, the lower bed of material includes drive sprocket, rotation axis, bearing block, bearing supporting frame and blocks rotation, under
The baffle being connected shoulder to shoulder inside the bed of material by 6 forms, and blanking rotary valve, rotary valve are provided on the center of each baffle
It is mounted on the center inside the lower bed of material, the both ends of blanking rotary valve are connect with the left and right sides of lower bed of material shell, the lower bed of material
Right end is drive sprocket, and the rotation axis of drive sprocket and blanking rotary valve is the installation relation of spline, rotation axis and the lower bed of material
Both ends are equipped with bearing block and bearing supporting frame is fixedly mounted, and rotation axis and blocks rotation are using the installation relation welded.
Further, the bed of material out is that back taper, the out top of the bed of material and the bottom of the lower bed of material establish fixed installation shape
Formula, the middle position of the left side inclined plate of the bed of material is machined with the second peep hole out.
The utility model has the following beneficial effects: the utility model is provided with Hot-blast Heating layer, hot wind passes through air duct for soybean
The moisture of raw material is taken away, to reduce the moisture of soybean material, low-pressure saturated steam is passed through using the principle of heat transfer, to soybean
Raw material is heated, and after soybean material heat absorption heating, is evaporated the moisture inside soybean material and is reached soybean material surface, make big
Moisture distribution is uniform in bean material, has preferable plasticity, and heating tube with holes is to interlock up and down with indirect steam elliptical tube
Arrangement, heating tube with holes are provided with the hole of diameter 2.5mm, it is therefore an objective to direct by being passed through low pressure when raw material moisture is low, temperature is low
Steam makes soybean material be rapidly reached qualified material state.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is the pan feeding schematic diagram of a layer structure of the utility model;
Fig. 3 is the Hot-blast Heating schematic diagram of a layer structure of the utility model;
Fig. 4 is the tube sheet end enclosure structure schematic diagram of the first indirect vapour heating layer of the utility model;
Fig. 5 is the structural schematic diagram of the second indirect vapour heating layer of the utility model;
Fig. 6 is second indirect its heating layer A-A cross-sectional view of the utility model;
Fig. 7 is second indirect its heating layer B-B cross-sectional view of utility model;
Fig. 8 is the blanking schematic diagram of a layer structure of the utility model;
Fig. 9 is the structural schematic diagram of bed of material baffle under the utility model;
Figure 10 is the structural schematic diagram that the utility model goes out the bed of material.
In figure: 1- enters the bed of material, the first peep hole of 2-, and 3- keeps in layer, 4- the first Hot-blast Heating layer, the heating of the indirect vapour of 5- first
Layer, 6- the second Hot-blast Heating layer, 7- first enter the wind tube layer, the indirect vapour heating layer of 8- second, 9- third Hot-blast Heating layer, 10- the
Two air inlet tube layer, the indirect vapour heating layer of 11- third, the 4th Hot-blast Heating layer of 12-, 13- third enter the wind tube layer, the bed of material under 14-,
15- goes out the bed of material, and 16- temperature measures table, 17- tube sheet end socket, and 18- temperature measures table, 19- heating tube with holes, and 20- second is observed
Hole, 21- feeding inlet, 22- drive sprocket, 23- rotation axis, 24- bearing block, 25- bearing supporting frame, 26- blocks rotation, 27- gear
Plate, 28- blanking rotary valve, 29- through-hole.
Specific embodiment
Specific embodiment one, below with reference to attached drawing 1-10, the utility model is described in detail:
A kind of tempering tower direct steam softening plant of the utility model, including enter the bed of material 1, temporary layer 3, the first hot wind and add
Thermosphere 4, the first indirect vapour heating layer 5, the second Hot-blast Heating layer 6, first enter the wind tube layer 7, the second indirect vapour heating layer 8, third
Hot-blast Heating layer 9, second enters the wind tube layer 10, the indirect vapour heating layer 11 of third, the 4th Hot-blast Heating layer 12, third and enters the wind tube layer
13, the lower bed of material 14 and the out bed of material 15, the main part of tempering tower are cylinder, are provided with entering for candlestick shape at the top of tempering tower
The bed of material 1, the center for entering the top of the bed of material 1 offer feeding inlet 21, and the lower section of feeding inlet 21 is machined with the first peep hole 2,
The bottom end for entering the bed of material 1 is connect with the top of temporary layer 3, and the bottom of temporary layer 3 is connect with the top of the first Hot-blast Heating layer 4, the
The lower section of one Hot-blast Heating layer 4 is equipped with the first indirect vapour heating layer 5, and the lower section of the first indirect vapour heating layer 5 is provided with second
Hot-blast Heating layer 6, the bottom end of the second Hot-blast Heating layer 6 are connect with the top of the first air inlet tube layer 7, under the first air inlet tube layer 7
Side is provided with the second indirect vapour heating layer 8, and the lower section of the second indirect vapour heating layer 8 is equipped with third Hot-blast Heating layer 9, third heat
The arranged beneath of wind heating layer 9 has the second air inlet tube layer 10, the bottom end of the second air inlet tube layer 10 and the indirect vapour heating layer 11 of third
Top be connected, the lower section of the indirect vapour heating layer 11 of third is provided with the 4th Hot-blast Heating layer 12, the 4th Hot-blast Heating layer 12
Lower section is equipped with third and enters the wind tube layer 13, and the lower section of third air inlet tube layer 13 is equipped with the lower bed of material 14, the arranged beneath of the lower bed of material 14
There are the bed of material 15 out, be then there are many staggered hot wind horn shape box in Hot-blast Heating layer, hot wind penetrates the bed of material by air duct, will
The moisture on soybean material surface is taken away, to reduce the moisture of soybean material, indirect steam elliptical tube is to be staggered, and utilizes heat
Conduction principle is passed through low-pressure saturated steam, heats to soybean material, after soybean material heat absorption heating, makes in soybean material
The moisture evaporation in portion reaches soybean material surface, keeps moisture distribution in soybean material uniform, has preferable plasticity, heating with holes
Pipe 19 is to be staggered up and down with indirect steam elliptical tube, and heating tube 19 with holes is provided with the hole of diameter 2.5mm, it is therefore an objective to
When raw material moisture is low, temperature is low, by being passed through low pressure direct steam, soybean material is made to be rapidly reached qualified material state.
Specific embodiment two, below with reference to attached drawing 1-10, the utility model is described in detail:
First Hot-blast Heating layer 4, the second Hot-blast Heating layer 6, third Hot-blast Heating layer 9 and the 4th Hot-blast Heating layer 12 it is interior
Portion's structure is all identical, left and right two parts of inside difference of Hot-blast Heating layer, the middle position of left and right two parts bottom plate
It is provided with temperature measurement table 16, can be added according to raw material moisture, the different situations of temperature, reasonable opening perforated heating tube 19
Heat humidification when especially raw material moisture is low, temperature is low, makes soybean material be rapidly reached qualified material state.
Specific embodiment three, below with reference to attached drawing 1-10, the utility model is described in detail:
Tube sheet end socket 17 is installed inside first indirect vapour heating layer 5, is equidistantly machined with multiple through-holes 29 on tube sheet, first
Indirect vapour heating layer 8 is from top to bottom provided with 4 heating tubes 19 with holes, can make in soybean material that moisture distribution is uniform, has
Good moulding, toughness, reach requirement that is broken, rolling embryo industry.
Specific embodiment four, below with reference to attached drawing 1-10, the utility model is described in detail:
The lower bed of material 14 includes drive sprocket 22, rotation axis 23, bearing block 24, bearing supporting frame 25 and blocks rotation 26, under
The baffle 27 being connected shoulder to shoulder inside the bed of material 14 by 6 forms, and is provided with blanking rotary valve on the center of each baffle 27
28, blanking rotary valve 28 is mounted on the center inside the lower bed of material 14, the both ends of blanking rotary valve 28 and lower 14 shell of the bed of material
The left and right sides connection, lower 14 right end of the bed of material be drive sprocket 22, the rotation axis 23 of drive sprocket 22 and blanking rotary valve 28
For the installation relation of spline, rotation axis 23 and lower 14 both ends of the bed of material are equipped with bearing block 24 and the fixed installation of bearing supporting frame 25, turn
Using the installation relation welded, the baffle being connected shoulder to shoulder using 6 gets off to tempering tower upper end for moving axis 23 and blocks rotation 26
Soybean carries out Fractional Collections, and the overstocked area of a material is formed to blanking rotary valve 28, and blanking rotary valve 28 is facilitated to be in one
Soybean is unloaded and is discharged by rotation by higher fill factor, blanking rotary valve 28.
Specific embodiment five, below with reference to attached drawing 1-10, the utility model is described in detail:
The bed of material 15 is that back taper, the out top of the bed of material 15 and the bottom of the lower bed of material 14 establish fixed installation form out, is discharged
The middle position of the left side inclined plate of layer 15 is machined with the second peep hole 20, more convenient can be discharged, guarantee will not block
The phenomenon that, the second peep hole 20 of setting can observe out the situation in the bed of material at any time, cannot be quick when avoiding breaking down
Observe the position broken down.
Above embodiments are exemplary description of this patent, do not limit its protection scope, those skilled in the art
Member can also be changed its part, as long as it does not exceed the essence of this patent, within the protection scope of the present patent.
Claims (5)
1. a kind of tempering tower direct steam softening plant, which is characterized in that including entering the bed of material (1), temporary layer (3), the first hot wind
Heating layer (4), the first indirect vapour heating layer (5), the second Hot-blast Heating layer (6), the first air inlet tube layer (7), the second indirect vapour add
Thermosphere (8), third Hot-blast Heating layer (9), the second air inlet tube layer (10), the indirect vapour heating layer (11) of third, the 4th Hot-blast Heating
Layer (12), third enter the wind tube layer (13), the lower bed of material (14) and the bed of material (15), the main part of the tempering tower are cylinder out,
Candlestick shape is provided at the top of tempering tower enters the bed of material (1), and the center for entering the top of the bed of material (1) offers feeding inlet
(21), the first peep hole (2) are machined with below feeding inlet (21), the top of the bottom end and temporary layer (3) that enter the bed of material (1) connects
It connects, the bottom of temporary layer (3) is connect with the top of the first Hot-blast Heating layer (4), is equipped with below the first Hot-blast Heating layer (4)
First indirect vapour heating layer (5) is provided with the second Hot-blast Heating layer (6), the second hot wind below the first indirect vapour heating layer (5)
The bottom end of heating layer (6) is connect with the top of the first air inlet tube layer (7), is provided between second below the first air inlet tube layer (7)
It connects vapour heating layer (8), third Hot-blast Heating layer (9), third Hot-blast Heating layer is installed below the second indirect vapour heating layer (8)
(9) arranged beneath has the second air inlet tube layer (10), the bottom end of the second air inlet tube layer (10) and the indirect vapour heating layer (11) of third
Top be connected, be provided with the 4th Hot-blast Heating layer (12), the 4th Hot-blast Heating layer below the indirect vapour heating layer (11) of third
(12) lower section is equipped with third air inlet tube layer (13), is equipped with the lower bed of material (14) below third air inlet tube layer (13), the lower bed of material
(14) arranged beneath has the bed of material (15) out.
2. a kind of tempering tower direct steam softening plant according to claim 1, which is characterized in that first hot wind adds
Thermosphere (4), the second Hot-blast Heating layer (6), third Hot-blast Heating layer (9) and the 4th Hot-blast Heating layer (12) internal structure be all
Identical, the inside of Hot-blast Heating layer is divided into left and right two parts, and the middle position of left and right two parts bottom plate is provided with temperature
It measures table (16).
3. a kind of tempering tower direct steam softening plant according to claim 1, which is characterized in that the first indirect vapour
It is equipped with tube sheet end socket (17), is equidistantly machined on tube sheet multiple through-holes (29), the first indirect vapour heating layer inside heating layer (5)
(5) 4 heating tubes (19) with holes are from top to bottom provided with.
4. a kind of tempering tower direct steam softening plant according to claim 1, which is characterized in that the lower bed of material (14)
Including drive sprocket (22), rotation axis (23), bearing block (24), bearing supporting frame (25) and blocks rotation (26), the lower bed of material
(14) the internal baffle (27) being connected shoulder to shoulder by 6 forms, and blanking rotation is provided on the center of each baffle (27)
Valve (28), rotary valve are mounted on the internal center of the lower bed of material (14), the both ends of blanking rotary valve (28) and the lower bed of material (14)
The left and right sides of shell connects, and the lower bed of material (14) right end is drive sprocket (22), drive sprocket (22) and blanking rotary valve
(28) rotation axis (23) is the installation relation of spline, and rotation axis (23) and the lower bed of material (14) both ends are equipped with bearing block (24) and axis
Support frame (25) fixed installation is held, rotation axis (23) and blocks rotation (26) are using the installation relation welded.
5. a kind of tempering tower direct steam softening plant according to claim 1, which is characterized in that it is described go out the bed of material (15)
For back taper, fixed installation form is established in the top of the bed of material (15) and the bottom of the lower bed of material (14) out, out the left side of the bed of material (15)
The middle position of inclined plate is machined with the second peep hole (20).
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CN201821394013.1U CN208684875U (en) | 2018-08-28 | 2018-08-28 | A kind of tempering tower direct steam softening plant |
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CN201821394013.1U CN208684875U (en) | 2018-08-28 | 2018-08-28 | A kind of tempering tower direct steam softening plant |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114668163A (en) * | 2022-03-31 | 2022-06-28 | 山东凯斯达机械制造有限公司 | Soybean low-temperature softening pot and using method thereof |
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2018
- 2018-08-28 CN CN201821394013.1U patent/CN208684875U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114668163A (en) * | 2022-03-31 | 2022-06-28 | 山东凯斯达机械制造有限公司 | Soybean low-temperature softening pot and using method thereof |
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