CN111124005A

CN111124005A - Agricultural workshop control device

Info

Publication number: CN111124005A
Application number: CN201911276768.0A
Authority: CN
Inventors: 袁闻达
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-12
Filing date: 2019-12-12
Publication date: 2020-05-08

Abstract

The embodiment of the invention discloses an agricultural workshop control device which comprises an air conditioner, a blowing module and an air draft module, wherein the air conditioner is arranged above an agricultural workshop, the blowing module comprises a main blowing pipe and a branch blowing pipe, the main blowing pipe is connected with a blowing port of the air conditioner and positioned above the agricultural workshop, one part of the branch blowing pipe is connected with the main blowing pipe, and the other part of the branch blowing pipe is positioned in the agricultural workshop and is provided with an air outlet communicated with the inside of the agricultural workshop; the air exhaust module comprises an air exhaust main pipe and an air exhaust branch pipe, the air exhaust main pipe is connected with an air exhaust opening of the air exhaust module of the air conditioner and is located above the agricultural workshop, one part of the air exhaust branch pipe is connected with the air exhaust main pipe, and the other part of the air exhaust branch pipe is communicated with the side wall of the agricultural workshop. The agricultural workshop temperature control device has the technical effects of ensuring the temperature balance of all positions in the agricultural workshop and keeping the positions at the set temperature.

Description

Agricultural workshop control device

Technical Field

The embodiment of the invention relates to the technical field of agricultural production workshops, in particular to an agricultural workshop control device.

Background

With the improvement of science and technology, the living standard of people is improved, and the industrialized agriculture project becomes a new direction of future agriculture. The purpose of factory production is production standardization, but is crucial to agricultural production. In order to reasonably utilize the space of a factory and save the cost, the agricultural operation platform in the factory mostly adopts a three-dimensional shelf type, the factory building is higher, the comprehensive cost of the factory is lower, the land utilization rate is higher, but the temperature difference is larger, the production speed is not uniform due to large temperature difference, and the production is also unfavorable due to overhigh temperature. At present, a central air conditioner is mostly adopted for controlling the temperature of a workshop, air is sucked from the side wall and the top of a wall, and cold air is discharged from the roof. It is difficult to ensure uniform temperature of each layer for the layer structure, and the layer structure itself generates resistance to air flow. The temperature difference between the upper part and the lower part can reach 5-8 ℃ under the condition that the tower with the length of 6 meters is illuminated, and the method is extremely unfavorable for standardized production. Therefore, how to ensure that the temperatures of the shelves at different heights are the same is a problem to be solved.

Disclosure of Invention

Therefore, the embodiment of the invention provides an agricultural workshop control device, which aims to solve the problem of large temperature difference between the upper part and the lower part caused by a shelf structure of an agricultural workshop in the prior art.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions:

an agricultural workshop control device comprises an air conditioner, a blowing module and an air draft module, wherein the air conditioner is arranged above an agricultural workshop, the blowing module comprises a blowing main pipe and a blowing branch pipe, the blowing main pipe is connected with a blowing port of the air conditioner and is positioned above the agricultural workshop, one part of the blowing branch pipe is connected with the blowing main pipe, and the other part of the blowing branch pipe is positioned in the agricultural workshop and is provided with an air outlet communicated with the inside of the agricultural workshop; the air exhaust module comprises an air exhaust main pipe and an air exhaust branch pipe, the air exhaust main pipe is connected with an air exhaust opening of the air exhaust module of the air conditioner and is located above the agricultural workshop, one part of the air exhaust branch pipe is connected with the air exhaust main pipe, and the other part of the air exhaust branch pipe is communicated with the side wall of the agricultural workshop.

Furthermore, the blowing branch pipes comprise a plurality of first blowing branch pipes, a plurality of second blowing branch pipes and a plurality of third blowing branch pipes, the first blowing branch pipes are uniformly distributed along the length direction of the blowing main pipe, the upper ends of the first blowing branch pipes are communicated with the blowing main pipe, and the lower ends of the first blowing branch pipes extend downwards to the bottom of the agricultural workshop; the two sides of each first blowing branch pipe are respectively provided with a second blowing branch pipe, a plurality of second blowing branch pipes positioned on the same side of the first blowing branch pipes are uniformly distributed along the length direction of the second blowing branch pipes, each second blowing branch pipe is horizontally arranged, one end of each second blowing branch pipe is communicated with the side wall of the first blowing branch pipe, and the other end of each second blowing branch pipe extends to the side of the agricultural workshop; every second branch of blowing all sets up two third branch of blowing on the lateral wall of keeping away from the one end of first branch of blowing, and two third branch of blowing symmetric distributions are in the both sides of second branch of blowing, and the one end that the second branch of blowing was kept away from to the third branch of blowing has seted up the air outlet.

Further, two adjacent third blowing branch pipes are arranged in a staggered manner.

Furthermore, the air draft main pipe comprises a first air draft main pipe, a second air draft main pipe and a third air draft main pipe, and the air draft branch pipes comprise a first air draft branch pipe and a second air draft branch pipe; one end of the first air draft main pipe is connected with an air draft opening of an adjacent central air conditioner, the other end of the first air draft main pipe horizontally extends towards one side of the agricultural workshop and extends out of the agricultural workshop, one end of the second air draft main pipe is communicated with the middle of the first air draft main pipe, and the third air draft main pipe is communicated with one end, far away from the central air conditioner, of the first air draft main pipe; the first air draft branch pipes are multiple and are uniformly distributed along the length direction of the second air draft main pipe, the first air draft branch pipes are vertically arranged, the upper ends of the first air draft branch pipes are communicated with the second air draft main pipe, and the lower ends of the first air draft branch pipes are communicated with the top of the agricultural workshop; the second air draft branch pipes are multiple in number and are evenly distributed along the length direction of the third air draft main pipe, the second air draft branch pipes are located on the side of the agricultural workshop, the upper ends of the second air draft branch pipes are communicated with the third air draft main pipe, and the lower ends of the second air draft branch pipes are communicated with the side wall of the agricultural workshop.

Furthermore, the air conditioners are two groups, the two ends of the blowing main pipe are respectively connected with the blowing openings of the two air conditioners, and the first air draft main pipe, the second air draft main pipe, the third air draft main pipe, the first air draft branch pipe and the second air draft branch pipe are respectively provided with two parts which are the same and are arranged in a centrosymmetric mode along the middle position of the blowing main pipe.

Further, the first branch blowing pipe is arranged vertically.

Furthermore, a vertically arranged planting frame and a plurality of planting layer plates horizontally and fixedly arranged on the side walls of the planting frame are arranged in the agricultural plant, and the plurality of planting layer plates positioned on the same planting frame are uniformly distributed along the vertical direction; the first air blowing branch pipes are provided with reducing holes for shortening the ventilation area once every 2-4 layers of planting laminates from top to bottom.

Further, the bottom of the first branch blowing pipe is not in contact with the ground of the agricultural workshop, and the bottom of the first branch blowing pipe is provided with an air outlet.

Further, the air conditioner is a central air conditioner.

The air conditioner further comprises a cooling control system, wherein the cooling control system comprises a temperature control valve and a control chip, the temperature control valve is electrically connected with the control chip, the control chip is electrically connected with the air conditioner, the temperature control valves are arranged in the exhaust main pipes in a plurality, the temperature control valves detect the temperature of each exhaust main pipe, and if the temperature reaches a set temperature, the control chip does not work; if the temperature is lower than the set temperature, the temperature control valve sends a control signal into the control chip, and the control chip controls the central air conditioner to increase the power and improve the temperature of the output air; if the temperature is higher than the set temperature, the temperature control valve sends a control signal into the control chip, and the control chip controls the central air conditioner to reduce the power and reduce the temperature of the output wind.

The embodiment of the invention has the following advantages:

after central air conditioning starts, its suction opening bleeds, the air of agricultural workshop lower part is taken out through second convulsions branch pipe, through third convulsions house steward, first convulsions house steward enters into central air conditioning in, the air on agricultural workshop upper portion is taken out through first convulsions branch pipe, through second convulsions house steward, first convulsions house steward enters into central air conditioning in, the air of middle air conditioning with the suction reaches the temperature of settlement with inspiratory wind after carrying out the heat exchange, then send into the total of blowing with wind in, the house steward of blowing is through first branch pipe of blowing, the second branch pipe of blowing, the third branch pipe of blowing, and blow in the agricultural workshop through the air outlet. In the wind part of blowing from the air outlet sent into the second convulsions branch pipe, form the circulated air in the middle part in workshop, the part is sent into the upper portion formation circulated air in the interior workshop of first convulsions branch pipe, and then the temperature on the not co-altitude planting frame in the agricultural workshop can keep unified, and the even growth condition of agricultural output of each position can keep unanimous, has realized standardized production effectively. The wind in the first branch pipe that blows is most insufflated into the second branch pipe that blows, also has partial wind to discharge from the afterwind mouth, because the air-out position in afterwind mouth is lower than the air outlet, is located the bottom in agricultural workshop, and the wind of blowing from the afterwind mouth is sent into the second branch pipe that blows after planting the bottom of frame in, forms the circulated air in the space outside planting the frame, ensures that the temperature in each position in the workshop is unified, no dead angle. Because the first air draft main pipe, the second air draft main pipe, the third air draft main pipe and the first air draft branch pipe of the two parts are arranged in a central symmetry manner, the central symmetry of the circulating air on the two sides in the agricultural workshop is also realized, and the uniformity of the air is ensured.

Because the first branch blowing pipe is vertically arranged, the wind speed is smaller and the wind pressure is smaller downwards, in order to ensure that the wind pressure difference blown out from the wind outlets at different heights is not large, the first branch blowing pipe is subjected to primary diameter change every time the first branch blowing pipe downwards passes through 2-4 layers of planting plates, the ventilation area inside the first branch blowing pipe after diameter change is reduced, the wind speed is increased, and the wind pressure is increased, so that the corresponding wind pressure balance is obtained with the upper part of the first branch blowing pipe.

The temperature of the wind in the agricultural factory can be automatically adjusted through the cooling control system, so that the temperature is always in a set range to ensure the normal growth of crops.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so that those skilled in the art can understand and read the present invention, and do not limit the conditions for implementing the present invention, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the functions and purposes of the present invention, should still fall within the scope of the present invention.

Fig. 1 is a schematic view of an overall structure of an agricultural workshop control device provided by an embodiment of the invention;

FIG. 2 is a schematic cross-sectional view of an agricultural workshop control apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic view of an internal structure of an agricultural workshop of the agricultural workshop control device according to the embodiment of the present invention;

FIG. 4 is a diagram illustrating a positional relationship between a blowing module and a planting layer plate of the agricultural workshop control device according to the embodiment of the invention;

FIG. 5 is a connection relationship diagram of a first branch blower pipe, a second branch blower pipe and a third branch blower pipe of the agricultural workshop control device provided by the embodiment of the invention;

fig. 6 is a schematic flow chart of a cooling control system of an agricultural workshop control device according to an embodiment of the present invention.

In the figure: 1. a central air conditioner; 2. a blowing module; 21. a blowing header pipe; 22. a first blowing branch pipe; 221. a residual air port; 23. a second blowing branch pipe; 24. a third blowing branch pipe; 241. an air outlet; 3. an air draft module; 31. a first main draft pipe; 32. a second main exhaust pipe; 33. a third main exhaust pipe; 34. a first exhaust branch pipe; 35. a second air draft branch pipe; 4. a cooling control system; 41. a temperature control valve; 42. a control chip; 5. an agricultural workshop; 51. planting frames; 52. and planting the layer plate.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model provides an agricultural workshop controlling means, as shown in fig. 1 and fig. 2, including central air conditioning 1, blow module 2, convulsions module 3 and cooling control system 4, central air conditioning 1 is total two and installs in the top both sides of agricultural workshop 5, the planting frame 51 and the level that are equipped with vertical setting in the agricultural workshop 5 set firmly a plurality of planting plywood 52 on planting frame 51 lateral wall, a plurality of planting plywood 52 that are located on same planting frame 51 evenly arrange along vertical direction, planting frame 51 and planting plywood 52 all have two rows and through the intermediate position symmetric distribution of agricultural workshop 5. The planting layer plates 52 are arranged in a plurality and are arranged evenly from top to bottom.

As shown in fig. 1, 3, 4 and 5, the blowing module 2 includes a blowing header 21, a first blowing branch pipe 22, a second blowing branch pipe 23 and a third blowing branch pipe 24, the blowing header 21 is horizontally disposed above the agricultural workshop 5, and both ends of the blowing header 21 are respectively connected to the blowing ports of the two central air conditioners 1, and the blowing header 21 is located above the middle of the agricultural workshop 5.

The first branch blowing pipes 22 are multiple in number and are evenly and vertically arranged along the length direction of the main blowing pipe 21, the upper ends of the first branch blowing pipes 22 are communicated with the main blowing pipe 21, the lower ends of the first branch blowing pipes extend into the bottom of the agricultural workshop 5 downwards, and the lower ends of the first branch blowing pipes 22 are not in contact with the ground of the agricultural workshop 5. The bottom of the first branch blower pipe 22 is open and forms a surplus air opening 221. The two sides of each first branch blowing pipe 22 are provided with second branch blowing pipes 23, the second branch blowing pipes 23 located on the same side of the first branch blowing pipes 22 are evenly distributed along the length direction of the second branch blowing pipes 23, each second branch blowing pipe 23 is horizontally arranged, one end of each second branch blowing pipe 23 is communicated with the side wall of the first branch blowing pipe 22, and the other end of each second branch blowing pipe extends to the side of the agricultural workshop 5.

Every second branch pipe of blowing 23 all sets up two third branch pipes of blowing 24 on the lateral wall of keeping away from the one end of first branch pipe of blowing 22, two third branch pipes of blowing 24 symmetric distribution are in the both sides of second branch pipe of blowing 23, every third branch pipe of blowing 24 equal horizontal arrangement and with second branch pipe 23 mutually perpendicular, the one end that second branch pipe of blowing 23 was kept away from to third branch pipe of blowing 24 has been seted up air outlet 241, and two adjacent third branch pipes of blowing 24 crisscross the setting, two adjacent air outlets 241 can not influence each other like this. The central air conditioner 1 can ensure that a large amount of wind reaches the set standard wind speed at the wind outlet 241, and the first branch blowing pipe 22 adopts a vertical pipeline to reduce the wind path, so that the wind at a certain temperature after being adjusted can accurately reach a preset position.

The extraction module 3 comprises a first extraction main 31, a second extraction main 32, a third extraction main 33, a first extraction branch 34 and a second extraction branch 35. The first main draft fan 31, the second main draft fan 32, the third main draft fan 33, the first branch draft fan 34 and the second branch draft fan 35 are all provided with the same two parts and are arranged in central symmetry along the middle position of the main draft fan 21.

First convulsions house steward 31 one end links to each other with the suction opening of adjacent central air conditioning 1, and the other end stretches out and stretches out the outside of agricultural workshop 5 towards one side level of agricultural workshop 5, first convulsions house steward 31 and the house steward 21 mutually perpendicular of blowing, the equal level of second convulsions house steward 32 and third convulsions house steward 33 sets up and is parallel to each other with the house steward 21 of blowing, the one end of second convulsions house steward 32 communicates each other with the middle part of first convulsions house steward 31, the one end that central air conditioning 1 was kept away from to third convulsions house steward 33 and first convulsions house steward 31 communicates. The first exhaust branch pipes 34 are multiple in number and are evenly distributed along the length direction of the second exhaust main pipe 32, the first exhaust branch pipes 34 are vertically arranged, the upper ends of the first exhaust branch pipes are communicated with the bottom of the second exhaust main pipe 32, and the lower ends of the first exhaust branch pipes are communicated with the top of the agricultural workshop 5. The second air draft branch pipes 35 are multiple in number and are evenly distributed along the length direction of the third air draft main pipe 33, the second air draft branch pipes 35 are L-shaped and are located on the side of the agricultural workshop 5, the upper ends of the second air draft branch pipes 35 are communicated with the side wall of the lower portion of the third air draft main pipe 33, the lower ends of the second air draft branch pipes are communicated with the side wall of the agricultural workshop 5, and the connecting positions of the second air draft branch pipes 35 and the agricultural workshop 5 are located on the side wall of the agricultural workshop 5 and are located at positions, close to the lower portion.

After central air conditioning 1 starts, its suction opening draws air, the air of 5 lower parts in agricultural workshop is taken out through second convulsions branch pipe 35, through third convulsions house steward 33, first convulsions house steward 31 enters into central air conditioning 1 in, the air on 5 upper portions in agricultural workshop is taken out through first convulsions branch pipe 34, through second convulsions house steward 32, first convulsions house steward 31 enters into central air conditioning 1 in, the air of middle air conditioner with the suction reaches the temperature of settlement with inspiratory wind after carrying out the heat exchange, then send into the house steward 21 in with wind, house steward 21 is through first branch pipe 22 of blowing, second branch pipe 23 of blowing, third branch pipe 24 of blowing, and blow in agricultural workshop 5 through air outlet 241. The part of the air blown from the air outlet 241 is sent into the second air draft branch pipe 35, circulating air is formed in the middle of the workshop, the part of the air is sent into the first air draft branch pipe 34, circulating air is formed in the upper portion of the workshop, the temperatures of the planting frames 51 at different heights in the agricultural workshop 5 can be kept uniform, the growth conditions of agricultural products at all positions can be kept consistent, and standardized production is effectively achieved. Most of the wind in the first branch blowing pipe 22 blows into the second branch blowing pipe 23, and part of the wind is discharged from the residual wind port 221, because the wind outlet position of the residual wind port 221 is lower than the wind outlet 241 and is positioned at the bottom of the agricultural workshop 5, the wind blown from the residual wind port 221 passes through the bottom of the planting frame 51 and then is sent into the second branch blowing pipe 35, circulating wind is formed in the space outside the planting frame 51, and the temperature uniformity and no dead angle at each position in the workshop are ensured. Because the first main draft pipe 31, the second main draft pipe 32, the third main draft pipe 33 and the first branch draft pipes 34 are arranged in a central symmetry manner, the central symmetry of the circulating wind at the two sides in the agricultural workshop 5 is realized, and the uniformity of the wind is ensured.

Because the first branch blowing pipes 22 are vertically arranged, the downward direction is the smaller the wind speed is, the smaller the wind pressure is, in order to ensure that the wind pressure blown out from the wind outlets 241 with different heights is not greatly different, the first branch blowing pipes 22 are subjected to diameter reduction once every time the first branch blowing pipes pass through 2-4 layers of planting plates, the ventilation area inside the first branch blowing pipes 22 after diameter reduction is reduced, the wind speed is increased, the wind pressure is increased, and therefore the corresponding wind pressure balance is obtained with the upper parts of the first branch blowing pipes 22.

As shown in fig. 6, the cooling control system 4 includes temperature control valves 41 and control chips 42, the temperature control valves 41 are electrically connected to the control chips 42, the control chips 42 are electrically connected to the central air conditioner 1, the number of the temperature control valves 41 is four, and the temperature control valves 41 are respectively arranged at the connection positions of the second main exhaust pipe 32, the third main exhaust pipe 33 and the first main exhaust pipe 31, the temperature control valves 41 detect the temperatures of the main exhaust pipes, and if the temperatures reach the set temperature, the control chips 42 do not operate; if the temperature is higher than the set temperature, the thermostatic valve 41 sends a control signal to the control chip 42, the control chip 42 controls the central air conditioner 1 to reduce the power and lower the temperature of the output wind, and if the temperature valve detects that the temperature of the extracted wind is higher than the set temperature by 1 degree, the control chip 42 controls the temperature of the wind output by the central air conditioner 1 to be reduced by 1 degree. The temperature of the wind in the agricultural factory can be automatically adjusted through the cooling control system 4, so that the temperature is always in a set range to ensure the normal growth of crops.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. The agricultural workshop control device is characterized by comprising an air conditioner, a blowing module and an air draft module, wherein the air conditioner is arranged above an agricultural workshop, the blowing module comprises a main blowing pipe and a branch blowing pipe, the main blowing pipe is connected with a blowing port of the air conditioner and is positioned above the agricultural workshop, one part of the branch blowing pipe is connected with the main blowing pipe, and the other part of the branch blowing pipe is positioned in the agricultural workshop and is provided with an air outlet communicated with the inside of the agricultural workshop; the air exhaust module comprises an air exhaust main pipe and an air exhaust branch pipe, the air exhaust main pipe is connected with an air exhaust opening of the air exhaust module of the air conditioner and is located above the agricultural workshop, one part of the air exhaust branch pipe is connected with the air exhaust main pipe, and the other part of the air exhaust branch pipe is communicated with the side wall of the agricultural workshop.

2. The agricultural workshop control device of claim 1, wherein the branch blower pipes comprise a plurality of first branch blower pipes, a plurality of second branch blower pipes and a plurality of third branch blower pipes, the first branch blower pipes are uniformly distributed along the length direction of the main blower pipe, the upper ends of the first branch blower pipes are communicated with the main blower pipe, and the lower ends of the first branch blower pipes extend downwards to the bottom of the agricultural workshop; the two sides of each first blowing branch pipe are respectively provided with a second blowing branch pipe, a plurality of second blowing branch pipes positioned on the same side of the first blowing branch pipes are uniformly distributed along the length direction of the second blowing branch pipes, each second blowing branch pipe is horizontally arranged, one end of each second blowing branch pipe is communicated with the side wall of the first blowing branch pipe, and the other end of each second blowing branch pipe extends to the side of the agricultural workshop; every second branch of blowing all sets up two third branch of blowing on the lateral wall of keeping away from the one end of first branch of blowing, and two third branch of blowing symmetric distributions are in the both sides of second branch of blowing, and the one end that the second branch of blowing was kept away from to the third branch of blowing has seted up the air outlet.

3. The agricultural plant control apparatus of claim 2, wherein adjacent two of the third blowing legs are staggered.

4. The agricultural plant control device of claim 1, wherein the main draft duct comprises a first main draft duct, a second main draft duct and a third main draft duct, and the branch draft ducts comprise a first branch draft duct and a second branch draft duct; one end of the first air draft main pipe is connected with an air draft opening of an adjacent central air conditioner, the other end of the first air draft main pipe horizontally extends towards one side of the agricultural workshop and extends out of the agricultural workshop, one end of the second air draft main pipe is communicated with the middle of the first air draft main pipe, and the third air draft main pipe is communicated with one end, far away from the central air conditioner, of the first air draft main pipe; the first air draft branch pipes are multiple and are uniformly distributed along the length direction of the second air draft main pipe, the first air draft branch pipes are vertically arranged, the upper ends of the first air draft branch pipes are communicated with the second air draft main pipe, and the lower ends of the first air draft branch pipes are communicated with the top of the agricultural workshop; the second air draft branch pipes are multiple in number and are evenly distributed along the length direction of the third air draft main pipe, the second air draft branch pipes are located on the side of the agricultural workshop, the upper ends of the second air draft branch pipes are communicated with the third air draft main pipe, and the lower ends of the second air draft branch pipes are communicated with the side wall of the agricultural workshop.

5. The agricultural workshop control device of claim 4, wherein the number of the air conditioners is two, two ends of the main blowing pipe are respectively connected with the blowing openings of the two air conditioners, and the first main draft pipe, the second main draft pipe, the third main draft pipe, the first branch draft pipe and the second branch draft pipe are respectively provided with the same two parts and are arranged in central symmetry along the middle position of the main blowing pipe.

6. The agricultural plant control device of claim 2, wherein the first branch blower is vertically disposed.

7. The agricultural workshop control device according to claim 6, wherein a vertically arranged planting frame and a plurality of planting plates horizontally fixed on the side walls of the planting frame are arranged in the agricultural workshop, and the plurality of planting plates on the same planting frame are uniformly arranged along the vertical direction; the first air blowing branch pipes are provided with reducing holes for shortening the ventilation area once every 2-4 layers of planting laminates from top to bottom.

8. The agricultural workshop control device of claim 6, wherein the bottom of the first branch blower is not in contact with the ground of the agricultural workshop and is provided with an air outlet.

9. The agricultural plant control device of claim 1, wherein the air conditioner is a central air conditioner.

10. The agricultural workshop control device according to any one of claims 1-9, further comprising a cooling control system, wherein the cooling control system comprises a plurality of temperature control valves and a plurality of control chips, the temperature control valves are electrically connected with the control chips, the control chips are electrically connected with the air conditioners, the temperature control valves are arranged in the exhaust manifolds in a plurality, the temperature control valves detect the temperature of the exhaust manifolds, if the temperature of the exhaust manifolds is higher than a set temperature, the temperature control valves send control signals to the control chips, and the control chips control the central air conditioners to reduce power and reduce the temperature of the output wind.