CN205528538U - Starch dewatering device in starch production line - Google Patents
Starch dewatering device in starch production line Download PDFInfo
- Publication number
- CN205528538U CN205528538U CN201620315213.8U CN201620315213U CN205528538U CN 205528538 U CN205528538 U CN 205528538U CN 201620315213 U CN201620315213 U CN 201620315213U CN 205528538 U CN205528538 U CN 205528538U
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- China
- Prior art keywords
- cabinet
- conveyer belt
- electrothermal tube
- starch
- whitewashing
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- 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.)
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Abstract
The utility model discloses a starch dewatering device in starch production line, the load simulator comprises a case, whitewashing mechanism, the conveyer belt, cycloid motor, the conveyer belt is formed the slope by belt and a plurality of gyro wheel and is upwards set up at quick -witted incasement, the fixed a plurality of brush wheel that is provided with on the conveyer belt, the brush wheel meshes with the belt mutually, whitewashing mechanism connects respectively through the pipeline for the high -pressure pump inhales thick liquid tap and whitewashing tap, machine case upper portion is equipped with electrothermal tube and turbine forced draught blower, the electrothermal tube is close to whitewashing mechanism and sets up, the turbine forced draught blower sets up on electrothermal tube right side and parallel with the electrothermal tube, and be equipped with the tubaeform air -out direction frame towards the electrothermal tube on the turbine forced draught blower, still be provided with the heat preservation with the electrothermal tube in the middle of the machine case, the turbine forced draught blower is separated with whitewashing mechanism and conveyer belt. The utility model discloses a device energy consumption is low, the dehydration is efficient.
Description
Technical field
This utility model relates to starch-making equipment technical field, is specifically related to the starch dehydrating device in a kind of Starch Production line.
Background technology
Producing starch product process needs use dehydration, drying plant, so that the treated starch fluid (or starch milk) obtained is dehydrated, pack after then drying.
Currently used starch dehydrating device is generally centrifuge dehydration gas, its principle is identical with the dewatering Principle in washing machine, starch fluid or starch milk are injected in the cylinder of dehydration, at the surface configuration hole of cylinder, and have filter cloth at the Surface coating of cylinder.When after cylinder high speed rotating, the moisture content being positioned in the starch fluid of cylinder or starch milk " is got rid of " under centrifugal action, and so wet starch through dehydration is just left on drums inside.This centrifugal drying device has the disadvantage in that 1, needs motor to drive cylinder high speed rotating, the so requirement to motor higher, adds manufacturing cost and the maintenance cost of product.2, the wet starch after dehydration is positioned at drums inside, it is difficult to take out, and is easily formed residual even if taking out.
Utility model content
The purpose of this utility model is to overcome shortcoming present in prior art, it is provided that the starch dehydrating device in a kind of Starch Production line that a kind of energy consumption is low, dewatering efficiency is high.
To achieve these goals, the technical solution adopted in the utility model is as follows: include cabinet, whitewashing mechanism, conveyer belt, cycloidal generator, cabinet is provided with two-layer inwall, it is equipped with heat-insulation layer between two-layer inwall, support it is provided with below cabinet, conveyer belt tilts upward and is arranged on bottom and high one end in cabinet and slightly extends outside cabinet, conveyer belt is made up of belt and several rollers, roller is fixedly installed on cabinet by bearing, roller is uniformly distributed and is socketed on described belt inner surface, several brush wheels it are further fixedly arranged on conveyer belt, brush wheel is meshed with belt, and it is positioned at the end of conveyer belt.
Whitewashing mechanism is that high-pressure pump passes through pipeline and connects midge tap and whitewashing tap respectively, and midge tap is arranged in raw material tank, and whitewashing tap is arranged in cabinet and towards the lower end of conveyer belt.
Cabinet top is provided with electrothermal tube and turbine pressure fan, electrothermal tube is arranged near whitewashing mechanism, turbine blower setting is on the right side of electrothermal tube and parallel with electrothermal tube, and the tubaeform air-out being provided with electrothermal tube in turbine pressure fan guides frame, it is additionally provided with heat-insulation layer in the middle of cabinet and electrothermal tube, turbine pressure fan are separated with whitewashing mechanism and conveyer belt.
Heat-insulation layer below electrothermal tube is provided with an exhaust vent, and the bottom-right heat-insulation layer of turbine pressure fan is provided with one and goes out dampness hole, goes out dampness hole and connects and have through cabinet two-layer inwall and stretch out and go out wet air duct outside cabinet, goes out wet air duct top and be socketed with umbrella shape lid.
Cycloidal generator is placed in below cabinet, cycloidal generator is provided with drive sprocket, one of them roller in conveyer belt is provided with passive chain wheel I and passive chain wheel II, it is equipped with on remaining roller by movable sprocket III, drive sprocket is linked with passive chain wheel I by chain I, and passive chain wheel II passes through chain II with all of by movable sprocket III synchronization links.
Further, being arranged on the heat-insulation layer in the middle of cabinet and be additionally provided with a return air hole, return air hole is near conveyer belt end.
Further, brush wheel is three.
Preferably, in three brush wheels, one near cabinet is wire brush wheel, and two other is terylene brush wheel.
The beneficial effects of the utility model are: the heat energy that electrothermal tube produces is under the effect of turbine pressure fan, directly the wet starch on conveyer belt is carried out thermal dehydration by exhaust vent, efficiency is high, starch loss is low, and cabinet inwall is equipped with heat-insulation layer, during thermal dehydration, heat losses is few, and the heat recovery in cabinet can be recycled by return air hole, improve heat utilization rate, by wire brush wheel and terylene brush wheel, dry starch block is come off from conveyer belt.
Accompanying drawing explanation
For the technical scheme being illustrated more clearly that in this utility model, accompanying drawing used in describing embodiment below does simple introduction, apparently, drawings discussed below is only an embodiment of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.
Fig. 1 is the front view of this utility model embodiment.
Description of reference numerals: 1-cabinet, 2-whitewashes mechanism, 3-conveyer belt, 4-cycloidal generator, 5-support, 6-belt, 7-roller, 8-brush wheel, 9-high-pressure pump, 10-midge tap, 11-whitewashes tap, 12-electrothermal tube, 13-turbine pressure fan, 14-air-out guides frame, 15-exhaust vent, 16-goes out dampness hole, 17-goes out wet air duct, 18-umbrella shape lid, 19-drive sprocket, the passive chain wheel I of 20-, the passive chain wheel II of 21-, 22-is by movable sprocket III, 23-chain I, 24-chain II, 25-return air hole.
Detailed description of the invention
In order to be further appreciated by this utility model, below in conjunction with embodiment, this utility model preferred implementation is described, it is understood that these descriptions are intended merely to further illustrate feature and advantage of the present utility model rather than the restriction to this utility model claim.
Shown in Figure 1, a kind of starch dehydrating device in the Starch Production line of this utility model embodiment, including cabinet 1, whitewashing mechanism 2, conveyer belt 3, cycloidal generator 4, cabinet 1 is provided with two-layer inwall, it is equipped with heat-insulation layer between two-layer inwall, support 5 it is provided with below cabinet 1, conveyer belt 3 tilts upward and is arranged on bottom and high one end in cabinet 1 and slightly extends outside cabinet 1, conveyer belt 3 is made up of belt 6 and several rollers 7, roller 7 is all fixedly installed on cabinet 1 by bearing, roller 7 is uniformly distributed and is socketed on described belt 6 inner surface, several brush wheels 8 it are further fixedly arranged on conveyer belt 3, brush wheel 8 is meshed with belt 6, and it is positioned at the end of conveyer belt 3.
Whitewashing mechanism 2 connects midge tap 10 and whitewashing tap 11 for high-pressure pump 9 respectively by pipeline, and midge tap 10 is arranged in raw material tank, in whitewashing tap 11 is arranged on cabinet 1 and towards the lower end of conveyer belt 3.
Cabinet 1 top is provided with electrothermal tube 12 and turbine pressure fan 13, electrothermal tube 12 is arranged near whitewashing mechanism 2, turbine pressure fan 13 is arranged on the right side of electrothermal tube 12 and parallel with electrothermal tube 12, and the tubaeform air-out being provided with electrothermal tube 12 in turbine pressure fan 13 guides frame 14, electrothermal tube 12, turbine pressure fan 13 are separated by the middle heat-insulation layer that is additionally provided with of cabinet 1 with whitewashing mechanism 2 and conveyer belt 3.
Heat-insulation layer below electrothermal tube 12 is provided with an exhaust vent 15, the bottom-right heat-insulation layer of turbine pressure fan 13 is provided with one and goes out dampness hole 16, go out dampness hole 16 to connect and have through cabinet 1 two-layer inwall and stretch out and go out wet air duct 17 outside cabinet 1, go out wet air duct 17 top and be socketed with umbrella shape lid 18.
Cycloidal generator 4 is placed in below cabinet 1, cycloidal generator 4 is provided with drive sprocket 19, one of them roller in conveyer belt 3 is provided with passive chain wheel I 20 and passive chain wheel II 21, it is equipped with on remaining roller by movable sprocket III 22, drive sprocket 19 is linked with passive chain wheel I 20 by chain I 23, and passive chain wheel II 21 passes through chain II 24 with all of by movable sprocket III 22 synchronization links.
Being arranged on the heat-insulation layer in the middle of cabinet 1 and be additionally provided with a return air hole 25, return air hole 25 is near conveyer belt 3 end.Brush wheel 8 is three.In three brush wheels 8, one near cabinet is wire brush wheel, and two other is terylene brush wheel.
When wet starch is dehydrated by the starch dehydrating device utilizing this utility model embodiment, wet starch is entered in whitewashing mechanism 2 from midge tap 10 and is ejected on the belt 6 of conveyer belt 3 by whitewashing tap 11 by high-pressure pump 9, electrothermal tube 12 produces heat energy, the wind that turbine pressure fan 13 produces is under air-out guides the effect of frame 14, move in direction towards electrothermal tube 12, wind drives heat energy, by exhaust vent 15, the wet starch on conveyer belt 3 is carried out thermal dehydration, the dampness produced is discharged through going out wet air duct 17 by going out dampness hole 16 from umbrella shape lid 18 outside cabinet 1, the effect of umbrella shape lid 18 is that the temperature making dampness reduces the loss simultaneously reducing heat energy, residual heat energy after heating wet starch returns at turbine pressure fan 13 by return air hole 25, carry out again with.
Block being bonded on belt 6 of wet starch after dehydration, is come off dried starch up hill and dale by wire brush wheel and terylene brush wheel from conveyer belt 3.
It should be pointed out that, and be described above embodiment of the present utility model.But; skilled artisans appreciated that of art technology; this utility model is not restricted to the described embodiments; described in above-described embodiment, principle of the present utility model is simply described; on the premise of without departing from this utility model scope, this utility model also has multiple changes and improvements, in the range of these changes and improvements both fall within claimed this utility model.
Claims (4)
1. the starch dehydrating device in a Starch Production line, including cabinet, whitewashing mechanism, conveyer belt, cycloidal generator, it is characterized in that: described cabinet is provided with two-layer inwall, it is equipped with heat-insulation layer between two-layer inwall, it is provided with support below this cabinet, described conveyer belt tilts upward and is arranged on bottom and high one end in cabinet and slightly extends outside cabinet, this conveyer belt is made up of belt and several rollers, described roller is all fixedly installed on cabinet by bearing, this roller is uniformly distributed and is socketed on described belt inner surface, several brush wheels it are further fixedly arranged on described conveyer belt, this brush wheel is meshed with belt, and it is positioned at the end of conveyer belt;
Described whitewashing mechanism is that high-pressure pump passes through pipeline and connects midge tap and whitewashing tap respectively, and described midge tap is arranged in raw material tank, and described whitewashing tap is arranged in cabinet and towards the lower end of conveyer belt;
Described cabinet top is provided with electrothermal tube and turbine pressure fan, described electrothermal tube is arranged near whitewashing mechanism, described turbine blower setting is on the right side of electrothermal tube and parallel with electrothermal tube, and the tubaeform air-out being provided with electrothermal tube in turbine pressure fan guides frame, it is additionally provided with heat-insulation layer in the middle of described cabinet and electrothermal tube, turbine pressure fan are separated with whitewashing mechanism and conveyer belt;
Heat-insulation layer below described electrothermal tube is provided with an exhaust vent, the described bottom-right heat-insulation layer of turbine pressure fan is provided with one and goes out dampness hole, this goes out dampness hole and connects and have through cabinet two-layer inwall and stretch out and go out wet air duct outside cabinet, described in go out wet air duct top and be socketed with umbrella shape lid;
Described cycloidal generator is placed in below cabinet, this cycloidal generator is provided with drive sprocket, one of them roller in described conveyer belt is provided with passive chain wheel I and passive chain wheel II, it is equipped with on remaining roller by movable sprocket III, described drive sprocket is linked with passive chain wheel I by chain I, and described passive chain wheel II passes through chain II with all of by movable sprocket III synchronization links.
Starch dehydrating device in a kind of Starch Production line the most according to claim 1, it is characterised in that being arranged on described in: on the heat-insulation layer in the middle of cabinet and be additionally provided with a return air hole, this return air hole is near conveyer belt end.
Starch dehydrating device in a kind of Starch Production line the most according to claim 1, it is characterised in that: described brush wheel is three.
Starch dehydrating device in a kind of Starch Production line the most according to claim 3, it is characterised in that: in described three brush wheels, one near cabinet is wire brush wheel, and two other is terylene brush wheel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620315213.8U CN205528538U (en) | 2016-04-15 | 2016-04-15 | Starch dewatering device in starch production line |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620315213.8U CN205528538U (en) | 2016-04-15 | 2016-04-15 | Starch dewatering device in starch production line |
Publications (1)
Publication Number | Publication Date |
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CN205528538U true CN205528538U (en) | 2016-08-31 |
Family
ID=56792132
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620315213.8U Expired - Fee Related CN205528538U (en) | 2016-04-15 | 2016-04-15 | Starch dewatering device in starch production line |
Country Status (1)
Country | Link |
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CN (1) | CN205528538U (en) |
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2016
- 2016-04-15 CN CN201620315213.8U patent/CN205528538U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right | ||
TR01 | Transfer of patent right |
Effective date of registration: 20180808 Address after: 530100 the Guangxi Zhuang Autonomous Region Nanning ASEAN Economic Development Zone Baoyuan North Road 08 Patentee after: Nanning taailin Starch Co., Ltd. Address before: 324000 Room 202, A block 1, 6 triumph South Road, Kecheng District, Quzhou, Zhejiang. Patentee before: QUZHOU FUCHUANG INDUSTRIAL DESIGN CO., LTD. |
|
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: 20160831 Termination date: 20190415 |