CN217403076U - Multilayer mesh belt type agricultural product drying device - Google Patents

Abstract

The utility model provides a multilayer guipure formula agricultural product drying device belongs to drying device technical field. The drying equipment aims to solve the problems that the quality of agricultural products in the same batch is uneven and the energy consumption is high due to uneven air supply of the existing drying equipment. The drying chamber is internally provided with a plurality of conveying mesh belts with staggered end parts, a flow guide and air equalizing component is arranged below the conveying mesh belts, the flow guide and air equalizing component is sequentially connected with an air supply channel and an air energy heat pump, at least one fan is arranged in the air supply channel, the air energy heat pump is connected with an air outlet of the drying chamber, the drying chamber is provided with a feed port, and the conveying mesh belts are positioned below the feed port. The agricultural products are evenly divided by utilizing the multilayer mesh belt, so that the agricultural products are prevented from being accumulated, and the agricultural products are uniformly ventilated; the dehydration and color fixing of the agricultural products are achieved through low-temperature quick dehumidification, the original color of the agricultural products is reserved, and the phenomena of cracking and defect of the agricultural products are reduced; the energy consumption of the air energy heat pump is reduced, and the energy-saving and environment-friendly heat pump has the advantages of energy conservation and environmental protection.

Description

Multilayer mesh belt type agricultural product drying device

Technical Field

The utility model relates to a drying device technical field particularly, relates to a multilayer guipure formula agricultural product drying device.

Background

The processing of agricultural products is a production activity of making main and side products of agriculture into various foods or other products by using physical, chemical and biological methods, is an important link of agricultural products from the production field to the consumption field, mainly comprises grain processing, feed processing, oil pressing, brewing, sugar making, tea making, flue-cured tobacco, fiber processing and processing of fruits, vegetables, livestock products, aquatic products and the like, and in the processing process of agricultural products, in order to meet different use requirements, some agricultural products need to be dried by using a moisture drying device.

Generally, the drying device for agricultural products adopts a low-temperature drying method, and the low-temperature drying method comprises various methods such as adsorption drying, vacuum drying, cooling drying, heating drying and vacuum spray drying.

The existing agricultural product drying device has the advantages that the air outlet is single in position, the conveying belt is long, the drying effect of the part facing the air outlet is good, and the other parts are uneven in temperature on the same conveying belt due to uneven air supply, so that the quality of agricultural products in the same batch is uneven. And current drying equipment need heat the normal atmospheric temperature air to the warm braw of the required temperature of stoving constantly when supplying air, and the warm braw can be followed the air outlet and discharged the wind after accomplishing the stoving to agricultural product, and this process of repetition, and the power consumption is higher.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is:

the drying equipment aims to solve the problems that the quality of agricultural products in the same batch is uneven and the energy consumption is high due to uneven air supply of the existing drying equipment.

The utility model discloses a solve the technical scheme that above-mentioned technical problem adopted:

the utility model provides a multilayer mesh belt type agricultural product drying device, which comprises a drying chamber, an air energy heat pump, a flow guiding and air equalizing component and a multilayer mesh belt, wherein the drying chamber is provided with a feed inlet, a discharge outlet, at least one air inlet and at least one air outlet, the air inlet is positioned below the discharge outlet, the air outlet is positioned above the feed inlet, the upper part of the drying chamber is provided with the multilayer mesh belt, the multilayer mesh belt comprises a plurality of conveying mesh belts which are arranged in parallel, the conveying mesh belts are connected with the inner wall of the drying chamber through a rotating shaft, the rotating shaft is provided with a rotating motor, the end parts of two adjacent conveying mesh belts are arranged in a staggered way, the conveying directions of the two adjacent conveying mesh belts are opposite, the conveying mesh belts are used for conveying agricultural products to the end parts and then fall into the lower layer of conveying mesh belt to continue conveying, the conveying mesh belt close to the top of the drying chamber is positioned below the feed inlet, the air-conditioning drying device is characterized in that a discharge port extends out of the conveying mesh belt close to the bottom of the drying chamber, a flow-guiding and air-equalizing part is arranged below the multiple layers of mesh belts, an air inlet is connected with the flow-guiding and air-equalizing part, an air outlet is connected with an air-energy heat pump, the air-energy heat pump is communicated with an air supply channel, at least one fan is arranged in the air supply channel, and the air supply channel is communicated with the air inlet.

Further, still include the feeding conveyer belt, the feeding conveyer belt runs through the feed inlet and extends to the conveying mesh belt top that is close to the drying chamber top, two tip tops of feeding conveyer belt all are provided with the scraper blade.

The drying room further comprises side material blocking plates and end material blocking plates, wherein the side material blocking plates are positioned on the inner walls of the drying room on the two sides of the extending direction of the conveying net belt, and the end material blocking plates are positioned on the inner walls of the drying room except the end parts of the conveying net belt close to the bottom conveying net belt of the drying room in the conveying direction.

Furthermore, the side retainer plate and the end retainer plate are plate structures and are arranged obliquely, one end of the side retainer plate, which is close to the conveying net belt, is flush with the conveying net belt, and one end of the end retainer plate, which is close to the conveying net belt, is located below the conveying net belt.

Further, the conveying mesh belt is a double-layer chain rod type metal mesh belt.

Further, the equal wind part of water conservancy diversion includes that the equal wind part shell of water conservancy diversion, flow distribution plate, main air pipe, branch air pipe and flow divider, the upper cover of the equal wind part shell of water conservancy diversion is the flow distribution plate, evenly distributed has a plurality of through-hole on the flow distribution plate, the lateral wall of the equal wind part shell of water conservancy diversion is provided with at least one vent, main air pipe one end and vent intercommunication, the equal wind part shell inner wall connection of water conservancy diversion of the main air pipe other end and vent opposite side, main air pipe communicates with a plurality of branch air pipe respectively, and every branch air pipe all communicates with the flow divider, the inside air pipe that is provided with a plurality of air pipe flow divider that is provided with of flow divider flushes the setting and evenly distributed in the flow distribution plate below with the flow divider end of every branch air pipe intercommunication.

Further, the equal wind part of water conservancy diversion still includes inferior air pipe, main air pipe and inferior air pipe intercommunication set up, inferior air pipe is netted distribution and is located the coplanar, inferior air pipe and a plurality of branch air pipe intercommunication set up.

Further, still include a plurality of conveying mesh belt mount, the conveying mesh belt mount is laid in proper order along conveying mesh belt's extending direction, the conveying mesh belt mount is U type conveying mesh belt mount, the both sides of U type conveying mesh belt mount are connected with the drying chamber inner wall of conveying mesh belt both sides respectively, and the intermediate lever of U type conveying mesh belt mount is located conveying mesh belt's below for play the supporting role to conveying mesh belt.

Further, a fan motor is arranged in the air supply channel and connected with the fan.

Furthermore, the number of the air inlet, the air outlet, the air energy heat pump and the air supply channel is the same.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model relates to a multilayer mesh belt formula agricultural product drying device, drying chamber, air energy heat pump, air supply channel connect gradually and form the circulation, be provided with the conveying mesh belt that a plurality of tip set up mutually in the drying chamber, the below of conveying mesh belt is provided with water conservancy diversion wind-equalizing part, water conservancy diversion wind-equalizing part is connected with air supply channel and air energy heat pump in proper order, be provided with at least one fan in the air supply channel, the air energy heat pump is connected with the air outlet of drying chamber, the drying chamber is provided with the feed inlet, the conveying mesh belt that is close to the drying chamber top is located the feed inlet below;

the agricultural products are uniformly divided by the multilayer mesh belt, so that the agricultural products can be prevented from being accumulated, the agricultural products can be uniformly ventilated, and the drying quality of the agricultural products is improved;

the agricultural products are dried at low temperature by using an air energy heat pump, and the dehydration and color fixing of the agricultural products are realized through low-temperature rapid dehumidification, so that the original color of the agricultural products is reserved, and the phenomena of cracking and defect of the agricultural products are reduced;

the air energy heat pump and the drying chamber form a circulation, the temperature of warm air sent into the drying chamber by the air energy heat pump is reduced by 2-5 ℃ after the agricultural products are dried, the temperature returned to the air energy heat pump is higher than the temperature of outside air, the temperature difference needing to be increased is small, the energy consumption of the air energy heat pump is further reduced, and the energy-saving and environment-friendly air energy heat pump has the advantages of energy conservation and environmental protection.

Drawings

Fig. 1 is a perspective view of a multi-layer mesh belt type agricultural product drying device in an embodiment of the present invention;

fig. 2 is a top view of a multi-layer mesh belt type agricultural product drying device in an embodiment of the present invention;

fig. 3 is a front cross-sectional view of a multi-layer mesh belt type agricultural product drying device in an embodiment of the present invention;

fig. 4 is a side cross-sectional view of a multi-layer mesh belt type agricultural product drying device in an embodiment of the present invention;

fig. 5 is a perspective view of the air guiding and equalizing member according to the embodiment of the present invention;

fig. 6 is a side sectional view of the wind guiding and equalizing member according to the embodiment of the present invention;

FIG. 7 is an enlarged view of portion A of FIG. 5;

FIG. 8 is a distribution diagram of the flow distributing nozzle of the flow guiding and air equalizing part in the embodiment of the present invention;

the arrows in the figure indicate the direction of the wind.

Description of reference numerals:

1-air energy heat pump, 2-air guide pipe, 3-drying chamber, 4-rotating motor, 6-feeding hole, 7-feeding conveyor belt baffle, 8-rotating motor bracket, 9-feeding conveyor belt bracket, 10-feeding conveyor belt, 11-scraper, 12-air supply channel, 14-conveyor belt fixing frame, 15-conveyor belt, 16-discharging conveyor belt, 17-fan, 18-diversion air-equalizing part shell, 20-discharging hole, 21-air vent, 22-secondary air pipe, 23-diverter nozzle, 24-diverter plate, 25-side baffle plate, 26-end baffle plate, 27-through hole, 28-main air pipe, 29-branch air pipe, 30-air inlet and 31-air outlet.

Detailed Description

In the description of the present invention, it should be noted that terms such as "upper", "lower", "front", "rear", "left", "right", etc. in the embodiments indicate terms of orientation, and are only used for simplifying the description of positional relationships based on the drawings of the specification, and do not represent that the elements, devices, etc. indicated must be operated according to the specific orientation and defined operation and method, configuration in the specification, and such terms of orientation do not constitute limitations of the present invention.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

The first specific embodiment is as follows: referring to fig. 1 to 8, the present invention provides a multi-layer mesh belt type agricultural product drying device, which comprises a drying chamber 3, an air energy heat pump 1, a diversion air equalizing component and a multi-layer mesh belt, wherein the drying chamber 3 is provided with a feed port 6, a discharge port 20, at least one air inlet 30 and at least one air outlet 31, the air inlet 30 is located below the discharge port 20, the air outlet 31 is located above the feed port 6, the upper portion of the drying chamber 3 is provided with the multi-layer mesh belt, the multi-layer mesh belt comprises a plurality of conveying mesh belts 15 arranged in parallel, the conveying mesh belts 15 are connected with the inner wall of the drying chamber 3 through a rotating shaft, the rotating shaft is provided with a rotating motor 4, the end portions of two adjacent conveying mesh belts 15 are arranged in a staggered manner, and the conveying directions of two adjacent conveying mesh belts 15 are opposite, so that the upper conveying mesh belt 15 conveys agricultural products to the end portions and then falls into the adjacent lower conveying mesh belt 15 for continuous conveying, the conveying net belt 15 close to the top of the drying chamber 3 is located below the feed inlet 6, the conveying net belt 15 close to the bottom of the drying chamber 3 is a discharging conveying net belt 16, the discharging conveying net belt 16 extends out of the discharge outlet 20, a flow guide air equalizing component is arranged below the multiple layers of net belts, the air inlet 30 is connected with the flow guide air equalizing component, the air outlet 31 is connected with the air energy heat pump 1 through an air guide pipe 2, the air energy heat pump 1 is communicated with the air supply channel 12, at least one fan 17 is arranged in the air supply channel 12, and the air supply channel 12 is communicated with the air inlet 30.

The air energy heat pump 1 transmits wind to the diversion wind equalizing part through the fan 17 in the air supply channel 12, the wind is divided equally through the diversion wind equalizing part and flows to the multilayer net belt, agricultural products on the net belt are dried through gaps of the multilayer net belt, and the wind passing through the multilayer net belt is conveyed through the air guide pipe 2 to form circulation through the air energy heat pump 1.

The agricultural products are uniformly divided by the multilayer mesh belt, so that the agricultural products can be prevented from being accumulated, the agricultural products can be uniformly ventilated, and the drying quality of the agricultural products is improved;

the air energy heat pump 1 is used for low-temperature drying, dehydration and color fixing are achieved through low-temperature rapid dehumidification, the original color of the material is reserved, and the phenomena of material breakage and defect are reduced;

the air energy heat pump 1 and the drying chamber 3 form a circulation, the temperature of warm air sent into the drying chamber 3 by the air energy heat pump 1 is reduced by 2-5 ℃ after drying agricultural products, the temperature returned to the air energy heat pump 3 is higher than that of the outside air, the temperature difference required to be increased is smaller, and therefore the energy consumption of the air energy heat pump is reduced, and the energy-saving and environment-friendly air energy heat pump has the advantages of energy conservation and environmental protection.

Preferably, a fan motor is arranged in the air supply channel 12, and the fan motor is connected with the fan 17.

Preferably, the rotating motor 4 is disposed on an outer wall of the drying chamber 3, and further includes a rotating motor support 8, and the plurality of rotating motors 4 are placed on the rotating motor support 8.

The second specific embodiment: as shown in fig. 1 to 8, the drying device further comprises a feeding conveyor belt 10, wherein the feeding conveyor belt 10 penetrates through the feeding port 6 and extends to the position above a conveyor belt 15 close to the top of the drying chamber 3, feeding conveyor belt baffles 7 are arranged on two sides of the feeding conveyor belt 10, the feeding conveyor belt 10 is respectively connected with the feeding conveyor belt baffles 7 on the two sides through rotating shafts at two ends, a feeding conveyor belt rotating motor is arranged on the rotating shaft, scrapers 11 are arranged above two ends of the feeding conveyor belt 10, scraper chutes are arranged on the feeding conveyor belt baffles 7, two ends of each scraper 11 are connected with the scraper chutes, and are used for adjusting the distance between each scraper 11 and the feeding conveyor belt 10, and further adjusting the quantity of agricultural products laid on the conveyor belt 15. Other combinations and connections of this embodiment are the same as those of the first embodiment.

The third concrete implementation scheme is as follows: as shown in fig. 1 to 8, the drying device further comprises a side retainer plate 25 and an end retainer plate 26, wherein the side retainer plate 25 is located on the inner walls of the drying chambers 3 on the two sides of the extending direction of the conveying mesh belt 15, the end retainer plate 26 is located on the inner walls of the drying chambers 3 at the end part of the conveying mesh belt 15 except the discharging conveying mesh belt 16 in the conveying direction, the side retainer plate 25 and the end retainer plate 26 are both plate structures and are all obliquely arranged, one end of the side retainer plate 25 close to the conveying mesh belt 15 is flush with the conveying mesh belt 15, one end of the end retainer plate 26 close to the conveying mesh belt 15 is located below the conveying mesh belt 15, the side retainer plate 25 is used for preventing agricultural products from slipping off the conveying mesh belt 15 in the conveying process, and the end retainer plate 26 is used for enabling the agricultural products to fall into the adjacent lower conveying mesh belt 15 from the upper conveying mesh belt 15. Other combinations and connections of this embodiment are the same as those of the second embodiment.

Preferably, the conveyor belt 15 is a double-layer chain-link metal belt.

The fourth specific embodiment: referring to fig. 1 to 8, the air-guiding and air-equalizing member includes an outer casing 18, a splitter plate 24, a main ventilation duct 28, a branch ventilation duct 29 and a splitter nozzle 23, the upper cover of the diversion and air-equalizing part shell 18 is a splitter plate 24, a plurality of through holes 27 are uniformly distributed on the splitter plate 24, at least one vent 21 is arranged on the side wall of the diversion and air-equalizing part shell 18, one end of the main ventilating duct 28 is communicated with the vent 21, the other end of the main ventilating duct 28 is connected with the inner wall of the diversion and air-equalizing part shell 18 on the opposite side of the vent 21, the main ventilation duct 28 is respectively communicated with a plurality of branch ventilation ducts 29, each branch ventilation duct 29 is communicated with the diverter 23, a plurality of diverter ventilation ducts are arranged in the diverter 23, the ends of the diverter nozzles 23 communicating with each of the branch ventilation ducts 29 are arranged flush and evenly distributed below the diverter plate 24. Other combinations and connections of this embodiment are the same as those of the third embodiment.

Wind flows to the main ventilating duct 28 through the vent 21, enters the branch ventilating duct 29 through the first equipartition of the main ventilating duct 28, is led to the flow dividing nozzle 23 through the branch ventilating duct 29 to be equipartition for the second time, and flows to the multilayer mesh belt through the third equipartition of the flow dividing nozzle 23 through the flow dividing plate 24, so that the third equipartition of wind is realized, the drying of agricultural products on the conveying mesh belt 15 at the position opposite to the vent 21 caused by the overlong conveying mesh belt 15 is avoided, the drying of the agricultural products on the conveying mesh belt 15 except the vent 21 is realized through the air supply, the occurrence of uneven wind is reduced, the drying degree of the agricultural products in the same batch is improved, and the product quality is further improved.

The fifth concrete implementation scheme is as follows: combine fig. 1 to fig. 8 to show, the equal wind part of water conservancy diversion still includes inferior air pipe 22, main air pipe 28 and inferior air pipe 22 intercommunication set up, inferior air pipe 22 is netted distribution and is located the coplanar, inferior air pipe 22 and the setting of 29 intercommunications of a plurality of branch air pipe for carry out equal wind once more. Other combinations and connections of this embodiment are the same as those of the fourth embodiment.

The sixth specific embodiment: as shown in fig. 1 to 8, the drying device further includes a plurality of conveying mesh belt fixing frames 14, the conveying mesh belt fixing frames 14 are arranged along the extending direction of the conveying mesh belt 15 and are respectively located below the upper and lower mesh belts of each conveying mesh belt 15, the conveying mesh belt fixing frames 14 are angle steels, the angle steels are arranged below the edges of the two sides of the conveying mesh belt 15, the angle steels are connected with the inner wall of the drying chamber 3, and the length of the angle steels is shorter than the length of the conveying mesh belt 15; or the conveying mesh belt fixing frame 14 is a U-shaped conveying mesh belt fixing frame, two sides of the U-shaped conveying mesh belt fixing frame are respectively connected with the inner walls of the drying chambers 3 on two sides of the conveying mesh belt 15, and a middle rod of the U-shaped conveying mesh belt fixing frame is located below the conveying mesh belt 15 and used for supporting the conveying mesh belt 15 and avoiding the middle position of the conveying mesh belt 15 from sinking due to gravity. Other combinations and connections of this embodiment are the same as those of the fifth embodiment.

The seventh specific embodiment: as shown in fig. 1 to 8, the number of the air inlets 30, the number of the air outlets 31, the number of the air energy heat pumps 1, the number of the air supply channels 12, and the number of the air vents 21 are the same. Other combinations and connections of this embodiment are the same as those of the sixth embodiment.

Although the present disclosure has been described above, the scope of the present disclosure is not limited thereto. The utility model discloses a field technical personnel can carry out various changes and amending under the prerequisite of the spirit and scope that do not deviate from the utility model discloses, and these changes all will fall into with the amendment the utility model discloses a protection scope.

Claims (10)

1. The utility model provides a multilayer guipure formula agricultural product drying device which characterized in that: comprises a drying chamber (3), an air energy heat pump (1), a flow guide and air equalizing component and a plurality of layers of mesh belts, wherein the drying chamber (3) is provided with a feed inlet (6), a discharge outlet (20), at least one air inlet (30) and at least one air outlet (31), the air inlet (30) is positioned below the discharge outlet (20), the air outlet (31) is positioned above the feed inlet (6), the upper part of the drying chamber (3) is provided with the plurality of layers of mesh belts, the plurality of layers of mesh belts comprise a plurality of conveying mesh belts (15) which are arranged in parallel, the conveying mesh belts (15) are connected with the inner wall of the drying chamber (3) through a rotating shaft, the rotating shaft is provided with a rotating motor (4), the end parts of two adjacent conveying mesh belts (15) are arranged in a staggered mode, the conveying directions of the two adjacent conveying mesh belts (15) are opposite, and the conveying mesh belts (15) are used for conveying agricultural products to the end parts and then fall into the lower conveying mesh belts (15) to continue conveying, conveying mesh belt (15) that is close to drying chamber (3) top is located the below of feed inlet (6), and conveying mesh belt (15) that is close to drying chamber (3) bottom extends the discharge gate, the below of multilayer guipure is provided with the wind component of the diversion, air intake (30) are connected with the wind component of the diversion, air outlet (31) are connected with air energy heat pump (1), air energy heat pump (1) and air supply passageway (12) intercommunication, be provided with at least one fan (17) in air supply passageway (12), air supply passageway (12) and air intake (30) intercommunication.

2. The multi-layer mesh belt type agricultural product drying device of claim 1, wherein: the drying device is characterized by further comprising a feeding conveyor belt (10), wherein the feeding conveyor belt (10) penetrates through the feeding hole (6) and extends to the position above a conveying mesh belt (15) close to the top of the drying chamber (3), and scraping plates (11) are arranged above two end portions of the feeding conveyor belt (10).

3. The multi-layer mesh belt type agricultural product drying device of claim 2, wherein: the drying device is characterized by further comprising side material blocking plates (25) and end material blocking plates (26), wherein the side material blocking plates (25) are located on the inner walls of the drying chambers (3) on the two sides of the extension direction of the conveying mesh belt (15), and the end material blocking plates (26) are located on the inner walls of the drying chambers (3) except the end portions, close to the conveying direction of other conveying mesh belts (15) of the bottom of the drying chambers (3).

4. The multi-layer mesh belt type agricultural product drying device of claim 3, wherein: side fender board (25) and end fender board (26) are plate body structure and all incline the setting, side fender board (25) are close to conveying mesh belt (15) one end and flush the setting with conveying mesh belt (15), end fender board (26) are close to conveying mesh belt (15) one end and are located the below of conveying mesh belt (15).

5. The multi-layer mesh belt type agricultural product drying device of claim 4, wherein: the conveying mesh belt (15) is a double-layer chain rod type metal mesh belt.

6. The multi-layer mesh belt type agricultural product drying device of claim 5, wherein: the utility model discloses a wind diversion and wind balancing component, it is including wind diversion and wind balancing component shell (18), flow distribution plate (24), main air pipe (28), branch air pipe (29) and flow distribution nozzle (23), the upper cover of wind diversion and wind balancing component shell (18) is flow distribution plate (24), evenly distributed has a plurality of through-hole (27) on flow distribution plate (24), the lateral wall of wind diversion and wind balancing component shell (18) is provided with at least one vent (21), main air pipe (28) one end and vent (21) intercommunication, the wind diversion and wind balancing component shell (18) inner wall connection of the main air pipe (28) other end and vent (21) opposite side, main air pipe (28) communicate with a plurality of branch air pipe (29) respectively, every branch air pipe (29) all communicates with flow distribution nozzle (23), flow distribution nozzle (23) inside is provided with a plurality of air pipe flow distribution nozzle, the tail ends of the flow distribution nozzles (23) communicated with each branch ventilating duct (29) are arranged in a flush mode and are evenly distributed below the flow distribution plate (24).

7. The multi-layer mesh belt type agricultural product drying device of claim 6, wherein: the equal wind part of water conservancy diversion still includes time air pipe (22), main air pipe (28) and time air pipe (22) intercommunication set up, time air pipe (22) are netted distribution and are located the coplanar, time air pipe (22) and a plurality of branch air pipe (29) intercommunication set up.

8. The multi-layer mesh belt type agricultural product drying device of claim 7, wherein: still include a plurality of conveying mesh belt mount (14), conveying mesh belt mount (14) are laid in proper order along the extending direction of conveying mesh belt (15), conveying mesh belt mount (14) are U type conveying mesh belt mount, the both sides of U type conveying mesh belt mount respectively with drying chamber (3) inner wall connection of conveying mesh belt (15) both sides, and the intermediate lever of U type conveying mesh belt mount is located the below of conveying mesh belt (15) for play the supporting role to conveying mesh belt (15).

9. The multi-layer mesh belt type agricultural product drying device of claim 8, wherein: and a fan motor is arranged in the air supply channel (12), and the fan motor is connected with a fan (17).

10. The multi-layer mesh belt type agricultural product drying device of claim 9, wherein: the number of the air inlets (30), the number of the air outlets (31), the number of the air energy heat pumps (1) and the number of the air supply channels (12) are the same.

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