CN212158055U

CN212158055U - Multi-temperature-zone drying machine

Info

Publication number: CN212158055U
Application number: CN202020975664.0U
Authority: CN
Inventors: 何光赞; 林仁斌; 高胜; 黄亮; 张云祥; 隆正东; 胡光荣
Original assignee: Sichuan Jieneng Drying Equipment Co ltd
Current assignee: Chengdu Jieneng drying equipment Co.,Ltd.
Priority date: 2020-06-01
Filing date: 2020-06-01
Publication date: 2020-12-15
Anticipated expiration: 2030-06-01

Abstract

The utility model belongs to the technical field of agricultural machinery, specifically disclose a multi-temperature-zone drying-machine, including withering district and drying zone, set up the conveying mesh belt that communicates in withering district and the drying zone, the end that is located conveying mesh belt is the discharge gate, the drying zone sets gradually low temperature region, middle and high temperature region, high temperature region along the prickly ash direction of transfer, and the drying zone is interior to be separated into the multilayer from top to bottom by the baffle, upper strata constitute the wind storehouse between conveying mesh belt downside and the baffle, set up several temperature regulation air supply mechanism along prickly ash direction of transfer on the wind storehouse; the lower side of the drying area is communicated with a plurality of heat source fans, and hot air generated by the heat source fans circulates from the lower side to the upper side of the drying area through a temperature adjusting air supply mechanism. The purpose is to realize the temperature regulation of different temperature areas, so that the oil gland of the pepper cannot be cracked due to too large temperature difference between the experienced temperature areas in the process of conveying the pepper on the conveying mesh belt.

Description

Multi-temperature-zone drying machine

Technical Field

The utility model relates to the technical field of agricultural machinery, concretely relates to multi-temperature-zone drying-machine.

Background

In a large-scale pepper planting area, pepper mature periods are concentrated, a common pepper picking mode is to pick particles, operators are easy to hurt hands due to small particles of pepper and pepper branches with thorns, picking speed is low, labor demand is large, and labor force reduction and aging in rural areas are serious, so that recruitment is difficult, and cost is high; meanwhile, the zanthoxylum bungeanum oil gland is easy to break, the fragrance of the zanthoxylum bungeanum oil gland is easy to lose after the zanthoxylum bungeanum oil gland is broken, the quality grade of the zanthoxylum bungeanum is lower, the new mode is that zanthoxylum bungeanum branches are picked together and cut into small sections, and the branches are dried together during drying, so that the zanthoxylum bungeanum oil gland is not easy to break, and the labor demand and the.

In the drying process of the pepper, changes of overhigh temperature or suddenly high and suddenly low temperature can affect the pepper to a certain extent, and sudden rise of the temperature can cause the color of the pepper to be easily browned and affect the quality of the pepper, so that in the drying process of the pepper, the temperature needs to be slowly increased, and the temperature difference between the temperature area and the temperature area is not easy to be too large.

Disclosure of Invention

In order to solve the problem, the utility model provides a multi-temperature-zone drying machine.

In order to achieve the above object, the utility model adopts the following technical scheme: the drying system comprises an withering area and a drying area, wherein a conveying mesh belt is arranged in the withering area and the drying area and communicated with each other, the drying area is sequentially provided with a low-temperature area, a medium-low temperature area, a medium-high temperature area and a high-temperature area along the material conveying direction, the tail end of the high-temperature area is a discharge port, the drying area is divided into a plurality of layers from top to bottom by partition plates, the conveying mesh belt is respectively arranged above the partition plates and at the bottom of the drying area, air bins are respectively formed between the lower side of the conveying mesh belt and the partition plates and between the lower side of the conveying mesh belt and the bottom of the drying area, and a plurality; the bottom air bin of the drying area is communicated with a plurality of heat source fans, and the temperature adjusting air supply mechanism introduces hot air on the lower side of the drying area into the upper layer of air bin.

Preferably, the air bins corresponding to the low-temperature areas and the medium-low temperature areas are divided into a plurality of temperature areas by a plurality of partition plates along the pepper conveying direction, and a temperature adjusting air supply mechanism is arranged in each temperature area.

Preferably, the drying area is divided into two layers by a partition plate, and a low-temperature area and a medium-low temperature area on the upper layer correspond to a high-temperature area and a medium-high temperature area on the lower layer respectively; the plurality of partition plates are uniformly arranged along the conveying direction of the Chinese prickly ash.

Preferably, the temperature adjusting air supply mechanism comprises an adjusting box arranged on the outer wall of the multi-temperature-zone dryer, a first through hole is formed in the upper end of the adjusting box, and a second through hole and a third through hole are formed in the lower end of the adjusting box; the first through hole is communicated with the upper-layer wind bin, the second through hole is communicated with the middle-high temperature area or the high temperature area, and the third through hole is communicated with the outside; the lower end in the adjusting box is provided with an adjusting separation blade, and the air intake of the second through hole and the third through hole is adjusted through the adjusting separation blade; and an air blower is arranged in the air bin and corresponds to the first through hole of the adjusting box.

Preferably, the length of adjusting the separation blade is greater than the great one in second through-hole and the third through-hole cross-section, the downside and the adjusting box of adjusting the separation blade rotate to be connected, the one end fixed connection knob of adjusting the separation blade, the knob stretch out the outside of adjusting the box, with arc spout sliding fit.

Preferably, a pair of air blowers which blow air oppositely is arranged in each temperature area, the air blowing direction of the air blowers is perpendicular to the conveying direction of the Chinese prickly ash, and the air blowers in each temperature area are arranged in a staggered mode.

Preferably, the heat source fan comprises a first heat source fan and a second heat source fan, a first air outlet of the first heat source fan is communicated with an air bin corresponding to the high-temperature zone, an air inlet of the first heat source fan is communicated with an air outlet of the first temperature adjusting air mixing box, an air return pipe is communicated with the upper side of the high-temperature zone, and the other end of the air return pipe is communicated with the first temperature adjusting air mixing box; and a second air outlet of the second heat source fan is communicated with the air bin corresponding to the middle-high temperature region, and an air inlet of the second heat source fan is communicated with an air outlet of the second temperature adjusting air mixing box.

Preferably, the included angle between the conveying mesh belt and the ground in the withering area is 12-15 degrees, and symmetrical and staggered withering fans are arranged on the lower side of the withering area.

Preferably, the upper side of the drying area is provided with a moisture exhaust port and an observation port.

The utility model discloses an useful part lies in: 1. the temperature regulation of different temperature areas is realized by arranging a plurality of temperature regulation air supply mechanisms in the low-temperature area and the medium-low temperature area of the pepper dryer, so that the oil glands of the peppers cannot be cracked due to too large temperature difference between the experienced temperature areas in the process of conveying the peppers on the conveying mesh belt; 2. the temperature adjusting air supply mechanism mixes hot air and natural air, and the adjustment of drying temperature can be realized by adjusting the air intake of the natural air inlet, so that the requirement of drying in multiple temperature areas is met, and the drying effect is ensured.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the air supply principle of the low temperature region and the high temperature region;

FIG. 3 is a schematic cross-sectional view of the air supply in the middle and low temperature regions and the middle and high temperature regions;

FIG. 4 is a schematic structural view of a temperature-regulating air supply mechanism;

fig. 5 is a perspective view of the temperature-adjusting air-blowing mechanism.

In the figure: 1-withered area; 2-a low-temperature zone; 3-medium and low temperature zone; 4-medium and high temperature zone; 5-high temperature zone; 6-a conveyor belt; 7-a partition plate; 8-a blower; 9-withering and adjusting the fan; 10-a first temperature regulating air mixing box; 11-return air pipe; 12-a wind bin; 13-a second temperature-regulating air-mixing box; 14-a first air outlet; 15-a separator; 16-a discharge hole; 17-a first heat source fan; 18-a second heat source fan; 19-a second air outlet; 20-adjusting the box; 21-a first via; 22-a second via; 23-a third via; 24-adjusting the baffle plate; 25-a knob; 26-arc chute.

Detailed Description

The utility model belongs to the technical field of agricultural machine, concretely relates to multi-temperature-zone drying-machine, though the utility model discloses an in the embodiment of drying be prickly ash, nevertheless can be used to other agricultural products of stoving. As shown in fig. 1, the drying device comprises an withering area 1 and a drying area, wherein the withering area 1 and the upper layer in the drying area are provided with a communicated conveying mesh belt 6, the upper layer and the lower layer are preferably arranged in the drying area, and the branch pepper is conveyed from the conveying mesh belt 6 of the withering area 1 to the drying area for drying; the connection part of the upper mesh belt and the lower mesh belt is turned over and discharged, the upper mesh belt and the lower mesh belt continuously run and dry along with the lower mesh belt, the tail end of the lower conveying mesh belt is provided with a discharge port 16, and the dried Chinese prickly ash directly drops out from the discharge port 16 and is transported to a post-processing area through a conveyor to perform subsequent fruit branch separation and screening operation.

The drying area is sequentially provided with a low-temperature area 2, a medium-low temperature area 3, a medium-high temperature area 4 and a high-temperature area 5 along the pepper conveying direction, the drying area is internally divided into two layers of relatively independent controllable temperature areas (corresponding to two layers of conveying mesh belts) by a partition plate 15, the drying area is arranged in an upper layer and a lower layer in the embodiment, multiple layers can be arranged according to requirements, the upper layer conveying mesh belt 6 is arranged above the partition plate, an upper layer air bin is formed between the lower side of the upper layer conveying mesh belt 6 and the partition plate 15, and a plurality of temperature adjusting air supply mechanisms are arranged on the upper layer air bin; the conveying mesh belt of lower floor sets up in the drying zone below, constitutes lower floor's wind storehouse between lower floor's conveying mesh belt downside and the drying zone bottom (be located ground one side), lower floor's wind storehouse is along prickly ash direction of transfer intercommunication several heat source fan, and the heat source that matches with the heat source fan is unlimited (hot-blast furnace, steam heat exchanger, electric heater etc. all can), hot-blast circulation to the upside by the downside in drying zone that the hot source fan drive temperature regulation air mixing case produced. It can be understood that the pepper is dried by sequentially passing through the low-temperature region 2, the medium-low temperature region 3, the medium-high temperature region 4 and the high-temperature region 5, an upper layer conveying mesh belt 6 conveyed from the withering region 1 firstly enters the uppermost layer of the drying region and then is sequentially conveyed to the lower layer, a heat source fan blows hot air into a hot air chamber of the drying region from the lowermost layer, the hot air passes through the lowermost layer conveying mesh belt to dry the material, and part of the hot air in the lower layer is pumped to the upper layer conveying mesh belt 6 by an adjusting box 20 and a corresponding blower to dry the material; after the hot air at the lowest layer passes through the temperature adjusting air supply mechanism, different temperatures required by all temperature areas are adjusted manually or electrically, the temperature of the upper layer after adjustment is lower than that of the lower layer, the temperature areas where the peppers are dried from low to high are ensured, and the temperature difference of drying the peppers is met.

The low-temperature area 2 and the middle-low temperature area 3 are divided into a plurality of temperature areas by a plurality of division plates 7 along the pepper conveying direction in the corresponding wind storehouse 12, and a temperature adjusting air supply mechanism is arranged in each temperature area. Each temperature zone is separated by a partition plate, and a temperature adjusting air supply mechanism is arranged in each temperature zone, so that the adjusted temperature in each small temperature zone can be accurately controlled.

The drying area is divided into two layers by a partition plate 15, and a low-temperature area 2 and a medium-low temperature area 3 on the upper layer vertically correspond to a high-temperature area 5 and a medium-high temperature area 4 on the lower layer respectively; the plurality of partition plates 7 are uniformly arranged along the conveying direction of the peppers. The upper layer and the lower layer are separated into two layers, so that part or all of the hot air in the lower layer can enter the drying area in the upper layer, the hot air can be recycled, and the occupied area of the whole dryer is also reduced in space due to the three-dimensional arrangement.

As shown in fig. 4, the structure of the temperature-adjusting air supply mechanism is schematically illustrated, the temperature-adjusting air supply mechanism includes an adjusting box 20 disposed on the outer wall of the multi-temperature-zone dryer, the upper end of the adjusting box 20 is provided with a first through hole 21, and the lower end of the adjusting box 20 is provided with a second through hole 22 and a third through hole 23; the first through hole 21 is communicated with the upper layer wind cabin 12, the second through hole 22 is communicated with the middle-high temperature region 4 or the high temperature region 5, and the third through hole 23 is communicated with the outside; an adjusting baffle piece 24 is arranged at the lower end in the adjusting box 20, and the air inlet volume of the second through hole 22 and the third through hole 23 is adjusted through the adjusting baffle piece 24; a blower 8 is arranged in the wind box 12, and the blower 8 corresponds to the first through hole 21 of the adjusting box 20. When the temperature of the warm area needs to be adjusted, the amount of blocking the second through hole 22 or the third through hole 23 by the adjusting baffle plate 24 is only required to be adjusted, and then the air intake quantity at the second through hole 22 and the third through hole 23 is adjusted, so that the hot air entering from the second through hole 22 is mixed with the natural air entering from the third through hole 23 and then is sent to the upper-layer air bin 12 for drying; that is, when the temperature required by the upper layer is higher, the air intake of the natural air at the third through hole 23 can be adjusted to be smaller, the air intake of the hot air at the second through hole 22 can be adjusted to be larger, when the temperature required by the upper layer is lower, the air intake of the natural air at the third through hole 23 can be adjusted to be larger, and the air intake of the hot air at the second through hole 22 can be adjusted to be smaller, so that the required temperatures of different temperature zones can be met.

The length of the adjusting baffle piece 24 is greater than one of the second through hole 22 and the third through hole 23 with a larger cross section, the lower side of the adjusting baffle piece 24 is rotatably connected with the adjusting box 20, one end of the adjusting baffle piece 24 is fixedly connected with a knob 25, and the knob 25 extends out of the adjusting box 20 and is in sliding fit with the arc-shaped sliding groove 26. It can be understood that when the air intake rate at the second through hole 22 and the third through hole 23 needs to be adjusted, the adjusting blocking piece 24 can be adjusted to block the second through hole 22 and the third through hole 23 only by sliding the knob 25 left and right along the arc-shaped sliding chute 26, so as to adjust the air intake rate at the second through hole 22 and the third through hole 23. The knob 25 can be adjusted by sleeving an adjusting handle on the knob 25, so that adjustment is facilitated, the knob is fixed by a fixing nut after adjustment is completed, and the conventional mode can be selected for the adjustment and fixing methods, which is not described in detail herein.

A plurality of pairs of opposite cross air blowing blowers 8 are arranged in the low-temperature area and the middle-low temperature area, the air blowing blowers 8 are arranged at the positions, close to the side wall of the dryer, of the two ends of each temperature area, the air blowing direction of the air blowing blowers 8 is perpendicular to the conveying direction of the Chinese prickly ash, and each pair of air blowing blowers 8 in each temperature area are arranged in a staggered mode.

The heat source fan comprises a first heat source fan 17 and a second heat source fan 18, an air outlet 14 of the first heat source fan 17 is communicated with a lower layer air bin corresponding to the high-temperature area 5, an air inlet of the first heat source fan 17 is communicated with an air outlet of a first temperature adjusting air mixing box 10, and the first temperature adjusting air mixing box 10 is respectively communicated with a heat source, the outside and the upper side of the high-temperature area through a return air pipe 11 (return air is formed from the upper side of a lower layer material through an air pipe); an air outlet 19 of the second heat source fan 18 is communicated with the lower layer air bin corresponding to the middle-high temperature region 4, an air inlet of the second heat source fan 18 is communicated with an air outlet of the second temperature adjusting air mixing box 13, and the second temperature adjusting air mixing box is respectively communicated with a heat source and the outside. As shown in fig. 2, which is a cross-sectional view of the air supply principle of the low temperature region and the high temperature region, after the hot air in the high temperature region 5 is blown in from the lower layer air bin corresponding to the high temperature region 5, part of the air passes upward through the air return pipe 11, enters the first temperature adjusting air mixing box 10, is mixed with the external natural air and the heat source high temperature air in the first temperature adjusting air mixing box 10, and then is circulated to the first heat source fan 17, and the other part of the upward hot air in the high temperature region is mixed with the external natural air under the action of the temperature adjusting box 20 corresponding to the upper layer air bin and the blower 8, and then is sent to the low temperature region, so as to ensure that the temperature in the low temperature region 2 is; as shown in fig. 3, which is a schematic cross-sectional view of the air supply principle of the middle-low temperature region and the middle-high temperature region, the hot air in the lower layer of the middle-high temperature region 4 moves upward, and after passing through the temperature adjusting box 20 and the blower 8 corresponding to the middle-low temperature region 3, the hot air and the external natural air are mixed and sent into the upper layer air bin corresponding to the upper layer middle-low temperature region 3, and after drying, the moisture is discharged from the moisture discharge opening at the upper side of the dryer.

The included angle between the conveying mesh belt 6 in the withering area 1 and the ground is 12-15 degrees, the specific included angle is determined according to the length of the withering area 1, and symmetrical and staggered withering fans 9 are arranged on the lower side of the withering area 1. The included angle between the feeding direction in the withering area 1 and the ground is 12-15 degrees, and the withering length can be increased.

And a moisture exhaust port and an observation port are arranged on the upper side of the drying area. The moisture when hydrofuge mouth is used for discharging the prickly ash stoving, and the staff of being convenient for of viewing aperture climbs to the top of drying-machine and observes, and the viewing aperture also can regard as supplementary hydrofuge mouth to carry out the hydrofuge simultaneously, and when the weather is not good, can take off the apron on the viewing aperture, increases the moisture of hydrofuge mouth in order to guarantee the drying-machine and discharges fast.

The specific working mode is as follows: the branch pepper is loaded into a loading hopper, the air volume of a withering area 1 is adjusted, the air volume is controlled by a valve, a low-temperature area 2, a medium-low temperature area 3 and a medium-high temperature area 4 are adjusted, the temperature of a high-temperature area 5 is controlled, a conveying mesh belt 6 is started to carry out transmission, the pepper enters the low-temperature area 2, the medium-low temperature area 3 and the medium-high temperature area 4 from the withering area 1 under the driving of the conveying mesh belt 6, and the high-temperature area 5 is dried; the temperature of the low-temperature area 2, the medium-low temperature area 3, the medium-high temperature area 4 and the high-temperature area 5 is gradually increased, the temperature of each small area does not have obvious jump-type temperature change, the pepper is turned over on the way, the generated wet air is discharged from a moisture discharge port at the upper side of the dryer, the dried pepper falls out of a discharge port 16 from the tail end of a lower-layer conveying mesh belt 6, and the pepper is conveyed to post-processing equipment by a discharge conveyor to be subjected to fruit branch separation and screening operation.

The above embodiments are preferred embodiments, it should be noted that the above preferred embodiments should not be considered as limitations of the present invention, and the scope of the present invention should be limited by the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and scope of the invention, and such modifications and improvements should be considered within the scope of the invention.

Claims

1. The utility model provides a multi-temperature-zone drying-machine, includes withering district (1) and drying zone, set up conveying mesh belt (6) of intercommunication in withering district (1) and the drying zone, the drying zone sets gradually low temperature region (2), well low temperature region (3), well high temperature region (4), high temperature region (5) along material direction of transfer, the end of high temperature region (5) is discharge gate (16), its characterized in that: the drying area is vertically divided into a plurality of layers by a partition plate (15), the conveying mesh belt (6) is respectively arranged above the partition plate and at the bottom of the drying area, an air bin (12) is respectively formed between the lower side of the conveying mesh belt (6) and the partition plate (15) and between the lower side of the conveying mesh belt (6) and the bottom of the drying area, and a plurality of temperature adjusting air supply mechanisms are arranged on the upper air bin (12) in the drying area along the material conveying direction; the bottom air bin (12) of the drying area is communicated with a plurality of heat source fans, and the temperature adjusting air supply mechanism introduces hot air on the lower side of the drying area into the upper layer of air bin (12).

2. The multi-temperature zone dryer of claim 1, wherein: the air bin (12) corresponding to the low-temperature area (2) and the medium-low temperature area (3) is divided into a plurality of temperature areas by a plurality of partition plates (7) along the material conveying direction, and a temperature adjusting air supply mechanism is arranged in each temperature area.

3. The multi-temperature zone dryer of claim 2, wherein: the drying area is divided into two layers by a partition board (15) from top to bottom, and the low-temperature area (2) and the medium-low temperature area (3) on the upper layer correspond to the high-temperature area (5) and the medium-high temperature area (4) on the lower layer respectively; the plurality of partition plates (7) are uniformly arranged along the material conveying direction.

4. The multi-temperature zone dryer of claim 3, wherein: the heat source fan comprises a first heat source fan (17) and a second heat source fan (18), a first air outlet (14) of the first heat source fan (17) is communicated with an air bin (12) corresponding to the high-temperature area (5), an air inlet of the first heat source fan (17) is communicated with an air outlet of a first temperature adjusting air mixing box (10), an air return pipe (11) is communicated with the upper side of the high-temperature area, and the other end of the air return pipe (11) is communicated with the first temperature adjusting air mixing box (10); and a second air outlet (19) of the second heat source fan (18) is communicated with the air bin (12) corresponding to the middle-high temperature region (4), and an air inlet of the second heat source fan (18) is communicated with an air outlet of the second temperature adjusting air mixing box (13).

5. The multi-temperature zone dryer of claim 3, wherein: the temperature adjusting air supply mechanism comprises an adjusting box (20) arranged on the outer wall of the multi-temperature-zone dryer, a first through hole (21) is formed in the upper end of the adjusting box (20), and a second through hole (22) and a third through hole (23) are formed in the lower end of the adjusting box (20); the first through hole (21) is communicated with the upper layer wind cabin (12), the second through hole (22) is communicated with the middle-high temperature area (4) or the high-temperature area (5), and the third through hole (23) is communicated with the outside; an adjusting baffle (24) is arranged at the lower end in the adjusting box (20), and the air inlet volume of the second through hole (22) and the third through hole (23) is adjusted through the adjusting baffle (24); an air blower (8) is arranged in the air bin (12), and the air blower (8) corresponds to the first through hole (21) of the adjusting box (20).

6. The multi-temperature zone dryer of claim 5, wherein: the length of adjusting separation blade (24) is greater than the great one of cross-section in second through-hole (22) and third through-hole (23), the downside and the adjusting box (20) of adjusting separation blade (24) are rotated and are connected, the one end fixed connection knob (25) of adjusting separation blade (24), knob (25) stretch out the outside of adjusting box (20), with arc spout (26) sliding fit.

7. The multi-temperature zone dryer of claim 5, wherein: a pair of air blowers (8) blowing air oppositely is arranged in each temperature area, the blowing direction of the air blowers (8) is perpendicular to the material conveying direction, and the air blowers (8) in each temperature area are arranged in a staggered mode.

8. The multi-temperature zone dryer of claim 1, wherein: the included angle between the conveying mesh belt (6) in the withering area (1) and the ground is 12-15 degrees, and symmetrical and staggered withering fans (9) are arranged on the lower side of the withering area (1).

9. The multi-temperature zone dryer of claim 1, wherein: and a moisture exhaust port and an observation port are arranged on the upper side of the drying area.