CN215864505U - Solar-assisted bean vermicelli airing device - Google Patents

Abstract

The utility model relates to a solar auxiliary bean vermicelli airing device, which relates to the field of bean vermicelli production equipment and comprises a conveying track, a chain, a hanging frame, a driving device, a feeding area, a thawing area, a draining area, a drying area and a blanking area; the conveying track is connected end to form a ring, the conveying track penetrates through a feeding area, a unfreezing area, a draining area, a drying area and a discharging area which are sequentially arranged and distributed, the chain is connected into the conveying track in a transmission mode and driven by the driving device to rotate in a circulating reciprocating mode, the hanging rack is connected with the chain, and the hanging racks are arranged at intervals along the chain. The solar auxiliary bean vermicelli airing device provided by the utility model can be used for separating the dependence of airing bean vermicelli on weather, and is high in efficiency and good in effect.

Description

Solar-assisted bean vermicelli airing device

Technical Field

The utility model relates to the field of vermicelli production equipment, in particular to a solar-assisted vermicelli airing device.

Background

The existing vermicelli airing process relies on the heat generated by the sun to air vermicelli. When the sunshine is insufficient in cloudy days or the temperature is insufficient in winter, the vermicelli cannot meet the airing requirement. If the vermicelli is not dried in the sun in time, the vermicelli can be rotten and mildewed, which not only affects the yield, but also causes the waste of resources and materials and brings loss to enterprises. In addition, in the prior art, workers hang the vermicelli on the airing rod, batch operation cannot be carried out, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to overcome the defects in the prior art, the utility model provides a solar auxiliary vermicelli airing device.

The technical scheme is as follows: in order to achieve the purpose, the solar auxiliary vermicelli airing device comprises a conveying track, a chain, a hanging frame, a driving device, a feeding area, a unfreezing area, a draining area, a drying area and a blanking area; the conveying track is connected end to form a ring, the conveying track penetrates through a feeding area, a unfreezing area, a draining area, a drying area and a discharging area which are sequentially arranged and distributed, the chain is connected into the conveying track in a transmission mode and driven by the driving device to rotate in a circulating reciprocating mode, the hanging rack is connected with the chain, and the hanging racks are arranged at intervals along the chain.

Furthermore, a water sump, a water pump and a spray pipe are arranged in the unfreezing area; the spray pipe is communicated with the water bin through a water pump, and a water spray hole for forming water mist is formed in the spray pipe.

Further, the draining area is provided with an electrically driven fan.

Further, the drying area is divided into a first drying area, a second drying area and a third drying area which are adjacent; and drying temperature differences exist among the first drying area, the second drying area and the third drying area.

Furthermore, the bottoms of the first drying area, the second drying area and the third drying area are provided with a dehumidifying device and a first sensor for controlling the starting or stopping of the dehumidifying device.

Furthermore, the side walls of the first drying area, the second drying area and the third drying area are respectively provided with a radiator and a second sensor for detecting the temperature in the area.

Further, still be provided with the heat-retaining district, the heat-retaining district communicates with each other with stoving first district, stoving second district and stoving three district respectively through blast pipe and air exhauster.

Furthermore, the heat storage area completes the heat storage function through a solar heat storage system.

Further, an air pipe is arranged above the conveying track, and hot steam generated by a boiler is circularly conveyed in the air pipe.

The solar auxiliary bean vermicelli airing device provided by the utility model at least has the following technical effects:

(1) the device breaks away from the dependence of the aired vermicelli on the weather, weakens the influence of weather conditions on airing effect, and realizes all-weather airing including cloudy days; from unfreezing to drying, the whole complete industrial chain is realized, and the production efficiency is improved.

(2) The solar heat storage system of the device can store and fully utilize redundant solar energy in sunny days, reduces the production cost and meets the national requirements of energy conservation and emission reduction.

Drawings

FIG. 1 is a schematic diagram of the principles of the present invention;

fig. 2 is a schematic structural view of the hanger according to the present invention.

In the figure, 1, a transfer track; 2. a chain; 3. a hanger; 4. a fan; 5. a feeding area; 6. a thawing zone; 7. a draining area; 8. a drying zone; 9. a blanking area; 10. a water sump; 11. a water pump; 12. a shower pipe; 13. a water spray hole; 14. drying the first area; 15. drying the second area; 16. drying in three areas; 17. a dehumidifying device; 18. heating radiators; 19. a heat storage area; 20. an air supply pipe; 21. an exhaust fan; 22. an air tube; 23. a boiler.

Detailed Description

The principles and features of the present invention are described below in conjunction with the accompanying fig. 1-2, which are provided by way of example only to illustrate the present invention and not to limit the scope of the present invention.

A solar auxiliary vermicelli airing device comprises a conveying rail 1, a chain 2, a hanging frame 3, a driving device, a feeding area 5, a unfreezing area 6, a draining area 7, a drying area 8 and a discharging area 9.

The feeding area 5, the unfreezing area 6, the draining area 7, the drying area 8 and the blanking area 9 are sequentially communicated in an array manner. The tail end of the conveying track 1 is connected to form a closed shape, and the conveying track 1 sequentially penetrates through the feeding area 5, the unfreezing area 6, the draining area 7, the drying area 8 and the blanking area 9. The chain 2 is connected in the conveying track 1 in a conveying way and is driven by a driving device to rotate in a reciprocating and circulating way. The driving device at least comprises a motor, a transmission chain, a speed reducer and a chain wheel; the output end of the motor is connected with the input end of the speed reducer, and the output end of the speed reducer drives the chain wheel to rotate through the transmission chain, so that the chain 2 is driven to rotate circularly. The hanging rack 3 is fixedly connected to the chain 2 and evenly arranged on the chain 2 at intervals, and the hanging rack 3 is used for fixing vermicelli to be aired. The hanging rack 3 is driven by the chain 2 to sequentially pass through a feeding area 5, a unfreezing area 6, a draining area 7, a drying area 8 and a discharging area 9, and airing of vermicelli is completed.

The thawing zone 6 is provided with a water sump 10, a water pump 11 and a spray pipe 12. The spray pipe 12 is communicated with the water bin 10 through a water pump 11, and the spray pipe 12 is provided with a water spraying hole 13 for forming water mist. The thawing zone 6 is thawed by water. The unfrozen vermicelli enters a draining area 7, and the draining area 7 is provided with an electrically driven fan 4. The fan 4 blows air to the unfrozen vermicelli so as to drain water on the vermicelli. The drying area 8 is divided into a first drying area 14, a second drying area 15 and a third drying area 16 which are arranged adjacently; and drying temperature differences exist among the first drying area 14, the second drying area 15 and the third drying area 16, so that the vermicelli is dried gradually. The bottoms of the first drying area 14, the second drying area 15 and the third drying area 16 are provided with a dehumidifying device 17 and a first sensor for controlling the starting or stopping of the dehumidifying device 17. When the humidity in the first drying zone 14, the second drying zone 15 and the third drying zone 16 reaches the detection value of the first sensor, the dehumidifying device 17 starts to perform dehumidifying operation on the space. The dehumidifier 17 is an industrial dehumidifier. And the side walls of the first drying area 14, the second drying area 15 and the third drying area 16 are respectively provided with a radiator 18 and a second sensor for detecting the temperature in the area. The radiator 18 is used for providing heat for the first drying area 14, the second drying area 15 and the third drying area 16. In order to fully utilize solar energy, a heat storage zone 19 is arranged near the drying zone 8, and the heat storage zone 19 is respectively communicated with the first drying zone 14, the second drying zone 15 and the third drying zone 16 through an air supply pipe 20 and an exhaust fan 21. The heat storage area 19 completes the heat storage function through a solar heat storage system. The solar heat storage system is an industrial heat storage type commonly used in the market. When the heat provided by the radiator 18 is insufficient, the heat can be discharged to the first drying area 14, the second drying area 15 or the third drying area 16 by the exhaust fan 21.

An air pipe 22 is arranged above the conveying track 1, and hot steam generated by a boiler 23 is circularly conveyed in the air pipe 22. When the temperature is insufficient, an auxiliary heat supply is provided to the drying zone 8 via the gas line 22 so that the temperature reaches a suitable value.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. The utility model provides an supplementary bean vermicelli drying device of solar energy which characterized in that: comprises a conveying track (1), a chain (2), a hanging rack (3), a driving device, a feeding area (5), a unfreezing area (6), a draining area (7), a drying area (8) and a blanking area (9); conveying track (1) end to end forms the annular, conveying track (1) passes material loading district (5), the district of unfreezing (6), driping district (7), drying area (8) and unloading district (9) that arrange the distribution in proper order, chain (2) transmission connect in conveying track (1), and circulation reciprocating rotation under drive arrangement's the drive, stores pylon (3) with chain (2) are connected, and are a plurality of stores pylon (3) are arranged along chain (2) interval.

2. The auxiliary solar vermicelli airing device of claim 1, wherein: a water sump (10), a water pump (11) and a spray pipe (12) are arranged in the unfreezing area (6); the spray pipe (12) is communicated with the water bin (10) through a water pump (11), and the spray pipe (12) is provided with a water spraying hole (13) for forming water mist.

3. The auxiliary solar vermicelli airing device of claim 1, wherein: the draining area (7) is provided with an electrically driven fan (4).

4. The auxiliary solar vermicelli airing device of claim 1, wherein: the drying area (8) is divided into a first drying area (14), a second drying area (15) and a third drying area (16) which are adjacent; and drying temperature differences exist among the first drying area (14), the second drying area (15) and the third drying area (16).

5. The auxiliary solar vermicelli airing device according to claim 4, wherein the auxiliary solar vermicelli airing device comprises: and the bottoms of the first drying area (14), the second drying area (15) and the third drying area (16) are provided with a dehumidifying device (17) and a first sensor for controlling the starting or stopping of the dehumidifying device (17).

6. The solar auxiliary vermicelli airing device according to claim 4 or 5, wherein the device comprises: and the side walls of the first drying area (14), the second drying area (15) and the third drying area (16) are respectively provided with a radiator (18) and a second sensor for detecting the temperature in the area.

7. The auxiliary solar vermicelli airing device according to claim 4, wherein the auxiliary solar vermicelli airing device comprises: the drying device is also provided with a heat storage area (19), and the heat storage area (19) is respectively communicated with the first drying area (14), the second drying area (15) and the third drying area (16) through an air supply pipe (20) and an exhaust fan (21).

8. The auxiliary solar vermicelli airing device of claim 7, wherein: the heat storage area (19) completes the heat storage function through a solar heat storage system.

9. The auxiliary solar vermicelli airing device of claim 1, wherein: an air pipe (22) is arranged above the conveying track (1), and hot steam generated by a boiler (23) is circularly conveyed in the air pipe (22).

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