CN207262903U - Multilayer particle feed dryer - Google Patents
Multilayer particle feed dryer Download PDFInfo
- Publication number
- CN207262903U CN207262903U CN201721270781.1U CN201721270781U CN207262903U CN 207262903 U CN207262903 U CN 207262903U CN 201721270781 U CN201721270781 U CN 201721270781U CN 207262903 U CN207262903 U CN 207262903U
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- Prior art keywords
- conveyer belt
- belt mechanism
- layer
- drive system
- housing
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- Structure Of Belt Conveyors (AREA)
Abstract
A kind of multilayer particle feed dryer, it includes housing, inlet port and outlet port, if being equipped with dried layer conveyer belt mechanism in housing, the sidepiece of conveyer belt mechanism is equipped with drive system, several circulating driers are equipped with along the case top of conveyer belt mechanism length direction;If the dried layer conveyer belt mechanism includes first layer conveyer belt mechanism, second layer conveyer belt mechanism, third layer conveyer belt mechanism and the 4th layer of conveyer belt mechanism set gradually from the top down, drive system includes the first drive system and the second drive system for being located at conveyer belt mechanism both sides respectively.The utility model by setting multilayer conveyer belt mechanism in housing, it can be achieved that material dynamic is dried, realize while transport, while dry, while lifting, while dehumidifier cooling effect, reduce the difficulty that drying controls, improve the uniformity and efficiency of drying;By improved drive system and conveyer belt mechanism, a decelerating motor drives the movement of two conveyer belts at the same time, also reduces energy consumption, makes its structure compacter.
Description
Technical field
It the utility model is related to drying technology, more particularly to a kind of multilayer particle feed dryer.
Background technology
Dryer is under the draft effect of wind turbine, after outside fresh cold air is directly by air inlet and heater heat exchange
Become dry hot-air, body is discharged after then carrying out heat exchange with the material in drying baker, and the material in drying baker
Moisture is progressively evaporated and dried under dry hot air acting.
Drying is one of most important process of expanded pellet diet processing, just very high from the feed granules moisture of bulking machine extrusion,
Reach more than 22%, it is necessary to which supporting drying equipment first drives away more than 10% moisture again after cooling treatment, just can guarantee that it is reached
To qualified products quality.
Current conventional feed dryer, uses the drying under inactive state, by controlling drying temperature and pumping mostly
The factors such as wet efficiency cause material to be in preferable drying efficiency section;But which not only controls difficulty big, it is necessary to essence
Close sensor and control module, it is also necessary to charging and discharging structure are set, and static material can not overturn movement, if
Material thickness is slightly thick, is just difficult to ensure that the uniformity of drying, and drying efficiency and dries quantity are difficult to be protected.
Utility model content
The purpose of this utility model is to provide a kind of multilayer particle feed dryer, it has compact-sized, drying efficiency
The advantages of high and energy-saving and emission-reduction.
The utility model is achieved like this, a kind of multilayer particle feed dryer, it includes housing and respectively position
Inlet port and outlet port in case top and bottom, it is characterised in that if being equipped with dried layer conveyer belt mechanism, conveyer belt in housing
The sidepiece of mechanism is equipped with the drive system for being used to drive conveyer belt mechanism to transport material, along the shell of conveyer belt mechanism length direction
Several circulating driers are equipped with the top of body.
If the dried layer conveyer belt mechanism includes first layer conveyer belt mechanism, the second layer conveying set gradually from the top down
Band mechanism, third layer conveyer belt mechanism and the 4th layer of conveyer belt mechanism, drive system include being located at conveyer belt mechanism both sides respectively
The first drive system and the second drive system;First drive system respectively with first layer conveyer belt mechanism and third layer conveyer belt
Mechanism driving connects;Second drive system is sequentially connected with second layer conveyer belt mechanism and the 4th layer of conveyer belt mechanism respectively.
Preferably:Several described circulating driers include at least two sets of cycling hot wind turbines and two close to feed inlet
Circulation dehumidifier of the set away from feed inlet.
First drive system is identical with the second driving system structure, including decelerating motor and is connected to deceleration electricity
Duplicate sprocket on machine output shaft, duplicate sprocket are sequentially connected by drive chain and conveyer belt mechanism.
The first layer conveyer belt mechanism, second layer conveyer belt mechanism, third layer conveyer belt mechanism and the 4th layer of conveyer belt
Mechanism structure is identical, including conveyer belt and is connected to the drive sprocket at conveyer belt both ends, the drive sprocket and drive chain
It is sequentially connected.
Several striker plates are equipped with the housing, one end of the striker plate is rotatably connected on case inside wall, another
End is extended obliquely downward to the end of conveyer belt.
Preferably:The front of the housing and side are equipped with several opposite opened maintenance doors.
The beneficial effects of the utility model are:The utility model describes a kind of compact-sized, and control is simple and drying effect
The high drying equipment of rate, on the one hand by setting multilayer conveyer belt mechanism in housing, it can be achieved that material dynamic drying, realizes side
Transport, while drying, while lifting, side dehumidifier cooling effect, reduce the difficulty of drying control, improve the uniformity and effect of drying
Rate;On the other hand, by improved drive system and conveyer belt mechanism, dynamic structure is simplified, a decelerating motor drives at the same time
The movement of dynamic two conveyer belts, also reduces energy consumption, makes its structure compacter.
Brief description of the drawings
Fig. 1 is the structure diagram of the utility model one embodiment.
Fig. 2 is the structural side view of embodiment illustrated in fig. 1.
Fig. 3 is the schematic enlarged-scale view at A in Fig. 1.
In figure, 1, housing 2, the first drive system 3, the second drive system 4, cycling hot wind turbine 5, circulation dehumidifier
6th, first layer conveyer belt mechanism 7, second layer conveyer belt mechanism 8, third layer conveyer belt mechanism 9, the 4th layer of conveyer belt mechanism
10th, striker plate 11, maintenance door 12, feed inlet 13, discharge port.
Embodiment
Specific embodiment of the present utility model is described further below in conjunction with the accompanying drawings.
As depicted in figs. 1 and 2, the utility model is realized in this way, the multilayer particle feed dryer include housing 1 with
And respectively positioned at the feed inlet 12 and discharge port 13 of the top and bottom of housing 1, it is structurally characterized in that, if being equipped with dried layer in housing 1
Conveyer belt mechanism, the sidepiece of conveyer belt mechanism is equipped with the drive system for being used to drive conveyer belt mechanism to transport material, along conveying
The top of housing 1 with mechanism length direction is equipped with several circulating driers;The utility model in housing 1 due to setting multilayer
Conveyer belt mechanism, the material for so coming from feed inlet 12 is transported to discharge port 13 through multilayer conveyer belt mechanism, and circulates drying
Constantly the material on multilayer conveyer belt mechanism is dried under the action of machine;One side multilayer conveyer belt mechanism causes material shape
Into multilayer drying effect, drying efficiency is improved, on the other hand realizes drying progress synchronous with transport, and dry close to circulation
The progressive drying of multilayer conveyer belt mechanism of dry machine, with the operation of multilayer conveyer belt mechanism, the material of drying is by 13 row of discharge port
Go out, by controlling the material conveying speed of multilayer conveyer belt mechanism and the work efficiency of circulating drier to realize drying efficiency
Flexible modulation;The utility model is compact-sized, and drying is easy to control reliable, can be needed that drying speed be adjusted flexibly according to material
Rate, flexible and convenient operation.
In the specific implementation, if the dried layer conveyer belt mechanism includes the first layer conveying belt machine set gradually from the top down
Structure 6, second layer conveyer belt mechanism 7, third layer conveyer belt mechanism 8 and the 4th layer of conveyer belt mechanism 9, drive system include position respectively
The first drive system 2 and the second drive system 3 in conveyer belt mechanism both sides;First drive system 2 is conveyed with first layer respectively
Band mechanism 6 and third layer conveyer belt mechanism 8 are sequentially connected;Second drive system 3 respectively with second layer conveyer belt mechanism 7 and the 4th
Layer conveyer belt mechanism 9 is sequentially connected;Several described circulating driers include at least two sets of circulating airs close to feed inlet 12
Machine 4 and two sets of circulation dehumidifiers 5 away from feed inlet 12;The utility model drives four layers of conveyer belt using two sets of drive systems
Mechanism, simplifies power-equipment, reduces the energy consumption of drying;In the specific implementation, first layer conveyer belt mechanism 6, the second layer are defeated
The end dislocation arrangement of tape-feed 7, third layer conveyer belt mechanism 8 and the 4th layer of conveyer belt mechanism 9, can so make to come from into
The material of material mouth 12 continuously falls into the second layer conveyer belt mechanism 7 of lower section through 6 end of first layer conveyer belt mechanism, then by the second layer
7 end of conveyer belt mechanism falls into third layer conveyer belt mechanism 8, until dropping into discharge port 13 from the 4th layer of conveyer belt mechanism 9;With
Transport of the material in conveyer belt mechanism, cycling hot wind turbine 4 is constantly sent toward from the material on feed inlet 12 and conveyer belt mechanism
Enter hot wind, and the hot and humid gas of material discharge are taken away by circulation dehumidifier 5, complete to dry in transportational process so as to fulfill material
It is dry.Since the material on first layer conveyer belt mechanism 6 can receive the hot wind from 4 temperature higher of cycling hot wind turbine, so with
Second layer conveyer belt mechanism 7, third layer conveyer belt mechanism 8 and the 4th layer of conveyer belt mechanism 9 that material sequentially enters lower section, its
Drying temperature gradually reduces, thereby realize while transport, while dry, while lifting, while the effect that cools down, substantially increase drying
Efficiency, reduces energy consumption.
The key structure of the utility model is drive system and the structure of conveyer belt mechanism, it is for drying unit knot
Structure control, which has, to be directly affected, and in the specific implementation, 2 and second drive system 3 of the first drive system uses identical structure,
As shown in figure 3, they include decelerating motor 201 and the duplicate sprocket 202 being connected on 201 output shaft of decelerating motor, it is double
Join sprocket wheel 202 to be sequentially connected by drive chain 203 and conveyer belt mechanism;And the first layer conveyer belt mechanism 6, the second layer are defeated
Tape-feed 7, third layer conveyer belt mechanism 8 and the 4th layer of conveyer belt mechanism 9 also use identical structure, they include conveyer belt
601 and the drive sprocket 602 at 601 both ends of conveyer belt is connected to, which is sequentially connected with drive chain 203;
Under the drive of decelerating motor 201, duplicate sprocket 202 passes through the transmission of 203 driving conveying belt mechanism end of a drive chain respectively
Sprocket wheel 602 rotates, so as to drive conveyer belt 601 to move;By controlling decelerating motor 201 to control the thing of conveyer belt 601
Expect travelling speed, decelerating motor 201 uses frequency control, realizes a decelerating motor 201 while drives the fortune of two conveyer belts 601
It is dynamic.
Certain above-mentioned drive system and conveyer belt mechanism structure are not limited thereto, in the specific implementation, the conveying
Drive sprocket 602 with mechanism one end is additionally provided with the position adjusting mechanism for adjusting conveyer belt 601, which consolidates
Be scheduled on the inner wall of housing 1, the screw on the adjusting mechanism of turned position, adjustment adjacent layer conveyer belt mechanism end dislocation away from
From so as to meet the conveying drying needs of different material;And drive system can then use longitudinal arrangement, a decelerating motor is utilized
201 move through the belt driving conveying belt 601 that links, and can reduce baker width, make its structure compacter.
For the ease of repairing and the reliability of material conveying, the utility model have also carried out the detailed structure of baker excellent
Change design, wherein the front of the housing 1 and side are equipped with several opposite opened maintenance doors 11;It is equipped with the housing 1 some
A striker plate 10, one end of the striker plate 10 are rotatably connected on 1 madial wall of housing, and the other end is extended obliquely downward to conveyer belt
601 end;Material smoothly enters next layer of conveying under being guided when being fallen along 601 end of conveyer belt by striker plate 10
Band, avoids material from falling into the gap location of conveyer belt 601 and housing 1, has preferable protective action to drive system.
Claims (7)
1. a kind of multilayer particle feed dryer, it includes housing (1) and the respectively charging at the top and bottom of housing (1)
Mouth (12) and discharge port (13), it is characterised in that housing (1) is if interior be equipped with dried layer conveyer belt mechanism, the sidepiece of conveyer belt mechanism
Equipped with the drive system for driving conveyer belt mechanism transport material, along at the top of the housing (1) of conveyer belt mechanism length direction
Equipped with several circulating driers.
2. multilayer particle feed dryer as claimed in claim 1, it is characterised in that if the dried layer conveyer belt mechanism includes
First layer conveyer belt mechanism (6), second layer conveyer belt mechanism (7), the third layer conveyer belt mechanism (8) set gradually from the top down
With the 4th layer of conveyer belt mechanism (9), drive system is included respectively positioned at the first drive system (2) of conveyer belt mechanism both sides and the
Two drive systems (3);
First drive system (2) is sequentially connected with first layer conveyer belt mechanism (6) and third layer conveyer belt mechanism (8) respectively;
Second drive system (3) is sequentially connected with second layer conveyer belt mechanism (7) and the 4th layer of conveyer belt mechanism (9) respectively.
3. multilayer particle feed dryer as claimed in claim 2, it is characterised in that several described circulating driers are at least
Including the cycling hot wind turbine (4) and two sets of circulation dehumidifiers (5) away from feed inlet (12) two sets close to feed inlet (12).
4. multilayer particle feed dryer as claimed in claim 3, it is characterised in that first drive system (2) and
Two drive systems (3) structure is identical, including decelerating motor (201) and is connected to double on decelerating motor (201) output shaft
Join sprocket wheel (202), duplicate sprocket (202) is sequentially connected by drive chain (203) and conveyer belt mechanism.
5. multilayer particle feed dryer as claimed in claim 4, it is characterised in that the first layer conveyer belt mechanism (6),
Second layer conveyer belt mechanism (7), third layer conveyer belt mechanism (8) are identical with the 4th layer of conveyer belt mechanism (9) structure, including defeated
Send band (601) and the drive sprocket (602) for being connected to conveyer belt (601) both ends, the drive sprocket (602) and drive chain
(203) it is sequentially connected.
6. multilayer particle feed dryer as claimed in claim 5, it is characterised in that be equipped with several in the housing (1)
Striker plate (10), one end of the striker plate (10) are rotatably connected on housing (1) madial wall, and the other end is extended obliquely downward to defeated
Send the end of band (601).
7. the multilayer particle feed dryer as described in any one in claim 1-6, it is characterised in that the housing (1)
Front and side be equipped with several opposite opened maintenance doors (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721270781.1U CN207262903U (en) | 2017-09-29 | 2017-09-29 | Multilayer particle feed dryer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721270781.1U CN207262903U (en) | 2017-09-29 | 2017-09-29 | Multilayer particle feed dryer |
Publications (1)
Publication Number | Publication Date |
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CN207262903U true CN207262903U (en) | 2018-04-20 |
Family
ID=61919458
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721270781.1U Expired - Fee Related CN207262903U (en) | 2017-09-29 | 2017-09-29 | Multilayer particle feed dryer |
Country Status (1)
Country | Link |
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CN (1) | CN207262903U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110645788A (en) * | 2019-10-22 | 2020-01-03 | 江苏群昌智能科技有限公司 | Six layers of air-dry mechanisms of efficient |
-
2017
- 2017-09-29 CN CN201721270781.1U patent/CN207262903U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110645788A (en) * | 2019-10-22 | 2020-01-03 | 江苏群昌智能科技有限公司 | Six layers of air-dry mechanisms of efficient |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180420 Termination date: 20190929 |
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CF01 | Termination of patent right due to non-payment of annual fee |