CN117502055A

CN117502055A - Temperature measurement control device in greenhouse

Info

Publication number: CN117502055A
Application number: CN202311658580.9A
Authority: CN
Inventors: 单华生
Original assignee: Jiangsu Shenghui Greenhouse Equipment Co ltd
Current assignee: Jiangsu Shenghui Greenhouse Equipment Co ltd
Priority date: 2023-12-06
Filing date: 2023-12-06
Publication date: 2024-02-06
Anticipated expiration: 2043-12-06
Also published as: CN117502055B

Abstract

The invention discloses a greenhouse internal temperature measurement control device, which comprises a greenhouse body device arranged on the ground; be used for planting crops in the canopy body device, be provided with heat abstractor on the canopy body device, heat abstractor is used for dispelling the heat to the big-arch shelter, is provided with the device that opens the top on the canopy body device, opens the top that the device is used for opening the big-arch shelter, is provided with water jet equipment on the canopy body device, and water jet equipment is used for carrying out water spray cooling in the big-arch shelter. The heat dissipation device, the roof opening device and the water spraying device are arranged in the greenhouse body device and can cooperate with each other to perform ventilation and air exchange in the greenhouse, and the actions such as water spraying, air blowing and the like are performed to cool the interior of the greenhouse, so that the temperature reduction measures are more, and the efficiency is high; the roof opening device and the heat dissipation device jointly act, after the top of the greenhouse is opened, the fan frame is automatically moved to the opening of the top of the greenhouse, and the hot air pumping and ventilation actions are carried out on the greenhouse through the fan, so that the automation degree is high.

Description

Temperature measurement control device in greenhouse

Technical Field

The invention relates to the technical field of agricultural greenhouses, in particular to a greenhouse internal temperature measurement control device.

Background

The common agricultural greenhouse is a arched greenhouse structure which is formed by using light steel pipes or tubes and other materials as frameworks, upright posts, arch bars and the like and covering plastic films. The agricultural greenhouse can protect crops when the crops are shone by sunlight, but the temperature in the common greenhouse can affect the yield of the crops when the temperature in the common greenhouse is too high or too low, and the like, and the temperature in the greenhouse needs to be measured and controlled. The chinese patent application publication No. CN106569523a discloses a greenhouse temperature control system, in which the temperature sensor is used to monitor the temperature in the greenhouse, but there is no temperature control measure and corresponding device.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the temperature measurement control device in the greenhouse comprises a greenhouse body device which is placed on the ground; the greenhouse body device include at the bottom of the greenhouse frame, fixed mounting has transparent curb plate and outer frame at the bottom of the greenhouse frame, the greenhouse frame at the bottom of place subaerial, the greenhouse body device on be provided with heat abstractor, heat abstractor include the tip piece, tip piece fixed mounting is on outer frame, heat abstractor be used for dispelling the heat of greenhouse, the greenhouse body device on be provided with the device that opens the top, the device that opens the top including the roof-rack, roof-rack fixed mounting is on outer frame, the device that opens the top of greenhouse be used for opening, the greenhouse body device on be provided with water jet equipment, water jet equipment include the side water tank, side water tank fixed mounting is on transparent curb plate, water jet equipment be used for carrying out water spray cooling to the greenhouse in.

Crops are planted in the greenhouse body device, when the temperature in the greenhouse is too low, the greenhouse body device is used for heating the greenhouse, when the temperature in the greenhouse is too high, the roof opening device is opened, and meanwhile, the heat dissipation device blows out hot air in the greenhouse, and the water spraying device is used for spraying water and cooling the greenhouse.

Further, the shed body device include transparent canopy of fixed mounting on the shed frame end, transparent canopy and transparent curb plate fixed mounting, transparent canopy and outer frame fixed mounting have inner frame on the shed frame end fixed mounting, transparent canopy and inner frame fixed mounting have the gap board on the shed frame end fixed mounting, gap board below fixed mounting has the heating pipe.

Crop is planted on the gap plate, the greenhouse is formed into a closed environment through the transparent side plates, the transparent greenhouse and the roof opening device, and when the temperature in the greenhouse is too low, the environment in the greenhouse is heated through the heating pipe.

Further, the heat dissipating device comprises a fan guide rail fixedly arranged on the end block, a limiting block is fixedly arranged on the fan guide rail, a fan frame is slidably arranged on the fan guide rail, a fan is arranged on the fan frame, a guide rail spring is arranged between the fan frame and the end block, a pulley frame is fixedly arranged on the outer frame, a pulley is rotatably arranged on the pulley frame, a pull rope is fixedly arranged on the fan frame, and the pull rope is wound on the outer side of the pulley.

The initial state of the guide rail spring is a compression state, when the top opening device opens the top, the fan frame is driven to slide on the fan guide rail through the rebound of the pull rope and the guide rail spring, the fan frame reaches the opening of the greenhouse, hot air in the greenhouse is pumped out through the rotation of the fan, and ventilation and heat dissipation are performed.

Further, the top opening device comprises a side frame fixedly arranged on the outer frame, a sliding frame is slidably arranged on the side frame, the sliding frame is slidably arranged on the top frame, a sliding column is fixedly arranged on the transparent side plate, the sliding frame is slidably arranged on the sliding column, a side spring is arranged between the sliding frame and the transparent side plate, a lifting mechanism is arranged on the sliding frame, and a pulling mechanism is arranged below the top frame.

Further, elevating system include slidable mounting in the sliding frame's lift post, lift post below fixed mounting has the bottom plate, lift post top fixed mounting has the shed roof, is provided with lifting spring between sliding frame and the bottom plate, fixed mounting has the temperature measurement terminal on the sliding frame, the other end fixed mounting of shed roof and stay cord.

Further, the pulling mechanism comprises an electric cylinder frame fixedly arranged below the top frame, an electric cylinder is fixedly arranged on the electric cylinder frame, a push-pull head is fixedly arranged at the top of the electric cylinder, and a pulling frame is fixedly arranged below the top frame.

Further, inclined planes are arranged on the push-pull head and the dragging frame, and grooves are formed in the bottom plate.

When the temperature measurement terminal detects that the temperature in the greenhouse is too high, the electric cylinder stretches to drive the push-pull head to advance, when the push-pull head is contacted with the bottom plate, the bottom plate can be driven to rise, the lifting spring is compressed, thereby driving the lifting column and the greenhouse roof to rise, when the push-pull head passes through the bottom plate, the bottom plate can fall onto the push-pull head, the lifting spring still has a part of compression amount, the bottom surface of the greenhouse roof is higher than the surface of the transparent greenhouse, then the electric cylinder contracts to drive the push-pull head to pull the bottom plate to move back, thereby driving the sliding frame and the greenhouse roof to slide along the sliding column, the side spring is compressed, the greenhouse roof is separated from the top of the greenhouse, at the moment, the top of the greenhouse leaks out, along with the sliding frame and the greenhouse roof to move, thereby the stay cord is loosened, and at the moment, the guide rail spring rebounds to drive the fan frame to slide on the fan guide rail, and the fan frame to reach the opening of the greenhouse for ventilation and hot air extraction.

When the push-pull head pulls the bottom plate to the outside, when the electric cylinder continues to shrink, the bottom plate contacts with the pulling frame, the bottom plate can be pushed upwards under the action of the pulling frame to continuously compress the lifting spring, so that the bottom plate passes over the push-pull head, the bottom plate and the sliding frame drive the bottom plate and the shed roof to reset under the rebound of the side spring, the shed roof plugs the top of the greenhouse again, the shed roof returns to the initial position, meanwhile, the heat dissipation device is pulled to the two sides of the greenhouse through the pull rope, and the guide rail spring is recompressed.

Further, the water spraying device comprises a water pump fixedly arranged in the side water tank, a side pipe frame is fixedly arranged on the water pump, a water spraying pipe is fixedly arranged on the side pipe frame and the transparent side plate, and a plurality of spray heads are arranged on the water spraying pipe.

Be provided with water in the side water tank, take out the spray pipe through the water pump in with water, spray water cooling to the crops in the big-arch shelter through the shower nozzle, also can water for crops.

Compared with the prior art, the invention has the beneficial effects that: (1) The heat dissipation device, the roof opening device and the water spraying device are arranged in the greenhouse body device and can cooperate with each other to perform ventilation and air exchange in the greenhouse, and the actions such as water spraying, blowing and the like are performed to cool the interior of the greenhouse, so that the greenhouse body device has the advantages of multiple cooling measures, high efficiency and high automation degree; (2) The roof opening device and the heat dissipation device are combined to act, after the top of the greenhouse is opened, the fan frame is automatically moved to the opening of the top of the greenhouse, and the hot air pumping and ventilation actions are carried out on the greenhouse through the fan, so that the degree of automation is high; (3) According to the invention, the heating pipe is buried under the slit plate and the soil at the top of the greenhouse device, and when the temperature in the greenhouse is too low, the soil is directly heated through the heating pipe, so that the efficiency is high.

Drawings

Fig. 1 is a schematic view of the whole structure of the present invention (first view angle).

Fig. 2 is a schematic diagram of the overall structure of the present invention (second view angle).

Fig. 3 is a schematic structural view of a shed device according to the present invention.

Fig. 4 is a schematic diagram of a shed device according to the second embodiment of the present invention.

Fig. 5 is a schematic diagram of a heat dissipating device according to the present invention.

Fig. 6 is a schematic diagram of a heat dissipating device according to the second embodiment of the present invention.

Fig. 7 is a schematic view of a partial structure of the present invention at a in fig. 6.

Fig. 8 is a schematic structural view of an open-top device according to the present invention.

Fig. 9 is a schematic diagram of a roof opening device according to the second embodiment of the present invention.

Fig. 10 is a schematic diagram of an open top device according to the third embodiment of the present invention.

FIG. 11 is a schematic view of a water spraying device according to the present invention.

Reference numerals: 101-a shed frame bottom; 102-transparent side plates; 103-a transparent shed; 104-an outer frame; 105-inner frame; 106-slit plates; 107-heating the pipe; 201-a fan guide rail; 202-limiting blocks; 203-a fan rack; 204-fans; 205—a rail spring; 206-end block; 207-pulley yoke; 208-pulley; 209-pulling rope; 301-side frames; 302-a sliding frame; 303-shed roof; 304-roof rack; 305-sliding column; 306-side springs; 307-electric cylinder rack; 308-electric cylinder; 309-push-pull head; 310-drawing up the rack; 311-lifting column; 312-lifting springs; 313-a bottom plate; 314-a temperature measurement terminal; 401-side water tank; 402-a water pump; 403-side tube rack; 404-a water spray pipe; 405-spray head.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1 to 11, an internal temperature measurement control device for a greenhouse comprises a greenhouse body device placed on the ground; the greenhouse body device comprises a greenhouse frame bottom 101, a transparent side plate 102 and an outer frame 104 are fixedly installed on the greenhouse frame bottom 101, the greenhouse frame bottom 101 is placed on the ground, crops are planted in the greenhouse body device, a heat dissipation device is arranged on the greenhouse body device and comprises an end block 206, the end block 206 is fixedly installed on the outer frame 104 and used for dissipating heat of a greenhouse, an opening device is arranged on the greenhouse body device and comprises a top frame 304, the top frame 304 is fixedly installed on the outer frame 104 and used for opening the top of the greenhouse, a water spraying device is arranged on the greenhouse body device and comprises a side water tank 401, the side water tank 401 is fixedly installed on the transparent side plate 102 and used for spraying water and cooling in the greenhouse.

As shown in fig. 3 and 4, the shed body device comprises a transparent shed 103 fixedly mounted on a shed frame bottom 101, wherein the transparent shed 103 and a transparent side plate 102 are fixedly mounted, the transparent shed 103 and an outer frame 104 are fixedly mounted, an inner frame 105 is fixedly mounted on the shed frame bottom 101, the transparent shed 103 and the inner frame 105 are fixedly mounted, a gap plate 106 is fixedly mounted on the shed frame bottom 101, and a heating pipe 107 is fixedly mounted below the gap plate 106.

Crop is planted on the slit plate 106, the greenhouse is formed into a closed environment through the transparent side plate 102, the transparent greenhouse 103 and the roof opening device, and when the temperature in the greenhouse is too low, the environment in the greenhouse is heated through the heating pipe 107.

As shown in fig. 5 to 7, the heat dissipating device includes a fan rail 201 fixedly installed on an end block 206, a stopper 202 is fixedly installed on the fan rail 201, a fan frame 203 is slidably installed on the fan rail 201, a fan 204 is provided on the fan frame 203, a rail spring 205 is provided between the fan frame 203 and the end block 206, a pulley frame 207 is fixedly installed on the outer frame 104, a pulley 208 is rotatably installed on the pulley frame 207, a pull rope 209 is fixedly installed on the fan frame 203, and the pull rope 209 is wound on the outer side of the pulley 208.

The initial state of the guide rail spring 205 is a compressed state, when the roof opening device opens the top, the fan frame 203 is driven to slide on the fan guide rail 201 through the rebound of the pull rope 209 and the guide rail spring 205, so that the fan frame 203 reaches the opening of the greenhouse, and hot air in the greenhouse is pumped out through the rotation of the fan 204, and ventilation and heat dissipation are performed.

As shown in fig. 8-10, the roof opening device comprises a side frame 301 fixedly mounted on an outer frame 104, a sliding frame 302 is slidably mounted on the side frame 301, the sliding frame 302 is slidably mounted with a top frame 304, a sliding column 305 is fixedly mounted on a transparent side plate 102, the sliding frame 302 is slidably mounted with the sliding column 305, a side spring 306 is arranged between the sliding frame 302 and the transparent side plate 102, a lifting mechanism is arranged on the sliding frame 302, and a pulling mechanism is arranged below the top frame 304.

As shown in fig. 8-10, the lifting mechanism comprises a lifting column 311 slidably mounted in a sliding frame 302, a bottom plate 313 is fixedly mounted below the lifting column 311, a canopy top 303 is fixedly mounted at the top of the lifting column 311, a lifting spring 312 is arranged between the sliding frame 302 and the bottom plate 313, a temperature measuring terminal 314 is fixedly mounted on the sliding frame 302, and the canopy top 303 is fixedly mounted with the other end of the pull rope 209.

As shown in fig. 10, the pulling mechanism includes an electric cylinder frame 307 fixedly installed below the top frame 304, an electric cylinder 308 is fixedly installed on the electric cylinder frame 307, a push-pull head 309 is fixedly installed on the top of the electric cylinder 308, and a pulling frame 310 is fixedly installed below the top frame 304.

As shown in FIG. 10, the push-pull head 309 and the drag frame 310 are provided with inclined surfaces and the bottom plate 313 is provided with a groove.

When the temperature measurement terminal 314 detects that the temperature in the greenhouse is too high, the electric cylinder 308 stretches to drive the push-pull head 309 to advance, when the push-pull head 309 is contacted with the bottom plate 313, the bottom plate 313 is driven to rise, the lifting spring 312 is pressed to drive the lifting column 311 and the shed roof 303 to rise, when the push-pull head 309 passes through the bottom plate 313, the bottom plate 313 falls onto the push-pull head 309, the lifting spring 312 still has a part of compression amount, the bottom surface of the shed roof 303 is higher than the surface of the transparent shed 103, then the electric cylinder 308 contracts to drive the push-pull head 309 to pull the bottom plate 313 to move back, thereby driving the sliding frame 302 and the shed roof 303 to slide along the sliding column 305, the side spring 306 is compressed, the shed roof 303 is separated from the top of the greenhouse, at this time, the top of the greenhouse leaks out, the sliding frame 302 and the shed roof 303 moves, so that the pull rope 209 is loosened, at this time, the guide spring 205 rebounds to drive the fan frame 203 to slide on the fan frame 201, and the fan frame 203 reaches the shed opening to perform ventilation and hot air pumping.

When the push-pull head 309 pulls the bottom plate 313 outwards, when the electric cylinder 308 continues to shrink, after the bottom plate 313 contacts with the pulling frame 310, the bottom plate 313 is pushed upwards under the action of the pulling frame 310 to continuously compress the lifting spring 312, so that the bottom plate 313 passes over the push-pull head 309, the bottom plate 313 and the sliding frame 302 drive the bottom plate 313 and the shed roof 303 to reset under the resilience of the side springs 306, the shed roof 303 plugs the shed roof again and returns to the initial position, meanwhile, the heat dissipating device is pulled back to two sides of the greenhouse through the pull ropes 209, and the guide rail springs 205 are recompressed.

As shown in fig. 11, the water spraying device comprises a water pump 402 fixedly installed in a side water tank 401, a side pipe frame 403 is fixedly installed on the water pump 402, the side pipe frame 403 is fixedly installed with the transparent side plate 102, a water spraying pipe 404 is fixedly installed on the side pipe frame 403, and a plurality of spray heads 405 are arranged on the water spraying pipe 404.

The side water tank 401 is provided with water, the water is pumped into the water spray pipe 404 through the water pump 402, and the water is sprayed to the crops in the greenhouse through the spray nozzle 405 for cooling, and the crops can be watered.

The invention discloses a working principle of a greenhouse internal temperature measurement control device, which comprises the following steps: crop is planted on the slit plate 106, the greenhouse is formed into a closed environment through the transparent side plate 102, the transparent greenhouse 103 and the roof opening device, and when the temperature measuring terminal 314 detects that the temperature in the greenhouse is too low, the environment in the greenhouse is heated through the heating pipe 107. When the temperature measurement terminal 314 detects that the temperature in the greenhouse is too high, the electric cylinder 308 stretches to drive the push-pull head 309 to advance, when the push-pull head 309 is contacted with the bottom plate 313, the bottom plate 313 is driven to rise, the lifting spring 312 is pressed to drive the lifting column 311 and the greenhouse roof 303 to rise, when the push-pull head 309 passes through the bottom plate 313, the bottom plate 313 falls onto the push-pull head 309, the lifting spring 312 still has a part of compression amount, the bottom surface of the greenhouse roof 303 is higher than the surface of the transparent greenhouse 103, then the electric cylinder 308 contracts to drive the push-pull head 309 to pull the bottom plate 313 to move back, so as to drive the sliding frame 302 and the greenhouse roof 303 to slide along the sliding column 305, the side spring 306 is compressed, the greenhouse roof 303 is separated from the top of the greenhouse, at this moment, the top of the greenhouse is in a compressed state, along with the sliding frame 302 and the greenhouse roof 303, the lifting rope 209 is relaxed, at this moment, the guide spring 205 rebounds to drive the fan frame 203 to slide on the fan guide rail 201, the fan frame 203 reaches the greenhouse opening, and hot air in the greenhouse is pumped out by the rotation of the fan 204, and the heat dissipation is carried out. Be provided with water in the side water tank 401, detect the temperature too high in the big-arch shelter when temperature measurement terminal 314, take out water into spray pipe 404 through water pump 402, spray water cooling to the crops in the big-arch shelter through shower nozzle 405, also can water for the crops. When the push-pull head 309 pulls the bottom plate 313 outwards, when the electric cylinder 308 continues to shrink, after the bottom plate 313 contacts with the pulling frame 310, the bottom plate 313 is pushed upwards under the action of the pulling frame 310 to continuously compress the lifting spring 312, so that the bottom plate 313 passes over the push-pull head 309, the bottom plate 313 and the sliding frame 302 drive the bottom plate 313 and the shed roof 303 to reset under the resilience of the side springs 306, the shed roof 303 plugs the shed roof again and returns to the initial position, meanwhile, the heat dissipating device is pulled back to two sides of the greenhouse through the pull ropes 209, and the guide rail springs 205 are recompressed.

Claims

1. The temperature measurement control device in the greenhouse comprises a greenhouse body device which is placed on the ground; the method is characterized in that: the greenhouse body device include at the bottom of the greenhouse frame (101), fixed mounting has transparent curb plate (102) and outer frame (104) at the bottom of the greenhouse frame (101), the greenhouse frame is at the bottom of (101) place subaerial, the greenhouse body device on be used for planting crops, the greenhouse body device on be provided with heat abstractor, heat abstractor include tip piece (206), tip piece (206) fixed mounting is on outer frame (104), heat abstractor be used for dispelling the heat to the big-arch shelter, the greenhouse body device on be provided with the device that opens the top, the device that opens the top of including roof frame (304), roof frame (304) fixed mounting on outer frame (104) be used for opening the top of big-arch shelter, the greenhouse body device on be provided with water jet equipment, water jet equipment include side water tank (401), side water tank (401) fixed mounting on transparent curb plate (102), water jet equipment be used for carrying out the cooling to the big-arch shelter in.

2. The greenhouse interior temperature measurement control device according to claim 1, wherein: the greenhouse body device comprises a transparent greenhouse (103) fixedly arranged on a greenhouse frame bottom (101), wherein the transparent greenhouse (103) and a transparent side plate (102) are fixedly arranged, the transparent greenhouse (103) and an outer frame (104) are fixedly arranged, an inner frame (105) is fixedly arranged on the greenhouse frame bottom (101), the transparent greenhouse (103) and the inner frame (105) are fixedly arranged, a gap plate (106) is fixedly arranged on the greenhouse frame bottom (101), and a heating pipe (107) is fixedly arranged below the gap plate (106).

3. The greenhouse interior temperature measurement control device according to claim 1, wherein: the heat dissipation device comprises a fan guide rail (201) fixedly installed on an end block (206), a limiting block (202) is fixedly installed on the fan guide rail (201), a fan frame (203) is installed on the fan guide rail (201) in a sliding mode, a fan (204) is arranged on the fan frame (203), a guide rail spring (205) is arranged between the fan frame (203) and the end block (206), a pulley frame (207) is fixedly installed on an outer frame (104), a pulley (208) is rotatably installed on the pulley frame (207), a pull rope (209) is fixedly installed on the fan frame (203), and the pull rope (209) is wound on the outer side of the pulley (208).

4. A greenhouse interior temperature measurement control device according to claim 3, wherein: the roof opening device comprises a side frame (301) fixedly arranged on an outer frame (104), a sliding frame (302) is slidably arranged on the side frame (301), a sliding column (305) is fixedly arranged on a transparent side plate (102), the sliding frame (302) and the sliding column (305) are slidably arranged, a side spring (306) is arranged between the sliding frame (302) and the transparent side plate (102), a lifting mechanism is arranged on the sliding frame (302), and a pulling mechanism is arranged below the top frame (304).

5. The greenhouse interior temperature measurement control device according to claim 4, wherein: the lifting mechanism comprises a lifting column (311) which is slidably arranged in a sliding frame (302), a bottom plate (313) is fixedly arranged below the lifting column (311), a shed roof (303) is fixedly arranged at the top of the lifting column (311), a lifting spring (312) is arranged between the sliding frame (302) and the bottom plate (313), a temperature measuring terminal (314) is fixedly arranged on the sliding frame (302), and the shed roof (303) is fixedly arranged at the other end of a pull rope (209).

6. The greenhouse interior temperature measurement control device according to claim 4, wherein: the pulling mechanism comprises an electric cylinder frame (307) fixedly arranged below a top frame (304), an electric cylinder (308) is fixedly arranged on the electric cylinder frame (307), a push-pull head (309) is fixedly arranged at the top of the electric cylinder (308), and a pulling frame (310) is fixedly arranged below the top frame (304).

7. The greenhouse interior temperature measurement control device according to claim 6, wherein: the push-pull head (309) and the dragging frame (310) are provided with inclined planes, and the bottom plate (313) is provided with a groove.

8. The greenhouse interior temperature measurement control device according to claim 1, wherein: the water spraying device comprises a water pump (402) fixedly arranged in a side water tank (401), a side pipe frame (403) is fixedly arranged on the water pump (402), the side pipe frame (403) is fixedly arranged with a transparent side plate (102), a water spraying pipe (404) is fixedly arranged on the side pipe frame (403), and a plurality of spray heads (405) are arranged on the water spraying pipe (404).