CN115191275A - Intelligent temperature control greenhouse for cultivation of Shanghai green seedlings and implementation method thereof - Google Patents

Abstract

The invention discloses an intelligent temperature control greenhouse for cultivating Shanghai green seedlings and an implementation method thereof.

Description

Intelligent temperature control greenhouse for cultivating Shanghai green seedlings and implementation method thereof

Technical Field

The invention relates to the technical field of seedling cultivation, in particular to an intelligent temperature control greenhouse for cultivation of Shanghai green seedlings and an implementation method thereof.

Background

The Shanghai green is called Shanghai cabbage, is also called as green vegetable or small green vegetable in Jiangzhe area, is a small cabbage, has more leaves and more stems, is white in vegetable stems like a calabash, has higher temperature control requirements in the cultivation process of seedlings of the Shanghai green, is usually configured in a greenhouse, and strictly controls various indexes of the greenhouse, such as sunshine duration, temperature, humidity, soil fertility and the like, so as to facilitate the growth of the seedlings of the Shanghai green.

The patent No. CN202111010126.3 provides an intelligent temperature control greenhouse for orchard planting, through setting up greenhouse luminousness adjusting device, start by PLC control module control driving motor, drive light-transmitting film and lower light-transmitting film respectively again and pack up or strut in order to cover the shed roof, when the shed roof need not go up light-transmitting film and lower light-transmitting film, sunshine directly sees through glass, the luminousness is hundred per cent, through setting up temperature control device, when temperature sensor detects the interior high temperature of greenhouse, PLC control module control air inlet fan and air outlet fan start, reach ventilation cooling's effect in one go out, when temperature sensor detects the interior temperature of greenhouse at the end, by the heating of PLC control module control heating rod, the heating rod is with heat transfer to the fin, open the air intake again and start air inlet fan, blow the heat on the fin to in the greenhouse fast, realize rapid heating up.

The above patents, however, have the following problems: .

1. The position of a temperature sensor in the greenhouse is relatively fixed, the temperature of each part in the greenhouse is different, the relatively fixed sensor cannot accurately acquire the overall temperature data in the greenhouse, and the heat dissipation is directly carried out, so that the growth of the Shanghai green seedlings is easily influenced;

2. the heat dissipation part in the greenhouse is communicated with the outside, and when the temperature in the greenhouse is regulated and controlled, the temperature in the greenhouse is hardly reached to a preset temperature position due to the communication with the outside, so that the growth of the green seedlings in the Shanghai is influenced.

Disclosure of Invention

The invention aims to provide an intelligent temperature control greenhouse for cultivating Shanghai green seedlings and an implementation method thereof.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a blue or green seedling of shanghai cultivates and uses intelligent control by temperature change big-arch shelter, includes clothes hanger pole, cross-connection spare, temperature control assembly, tee junction spare, barrier film buckle, buckle bolt, radiator unit and unable adjustment base, and ascending on the vertical direction install cross-connection spare on the clothes hanger pole, the front end installation temperature control assembly of cross-connection spare, ascending on the vertical direction the clothes hanger pole is with the clothes hanger pole crossing point department installation tee junction spare on the horizontal direction, ascending on the horizontal direction be equipped with the barrier film buckle on the clothes hanger pole, install the buckle bolt on the barrier film buckle, radiator unit is installed to cross-connection spare's rear side, ascending on the vertical direction the clothes hanger pole bottom installation unable adjustment base.

Preferably, the temperature control assembly comprises a temperature rise assembly, a detection slide rod, a connecting bolt, a temperature detection assembly and a wire guide hole, the left side and the right side of the temperature rise assembly are respectively provided with the detection slide rod through the connecting bolt, the temperature detection assembly is arranged on the detection slide rod, and the wire guide hole is formed in the detection slide rod.

Preferably, the temperature control assembly further comprises an external lead, an elastic spiral lead, a limiting plate and a threaded connection pipe, the external lead is installed in the lead hole, the inner side end of the external lead is connected with the elastic spiral lead, the outer side end of the detection slide rod is provided with the limiting plate, and the outer side of the limiting plate is provided with the threaded connection pipe.

Preferably, the heating assembly comprises a heat-conducting shell, connecting grooves and wire interfaces, the connecting grooves are formed in the left side and the right side of the heat-conducting shell respectively, and the wire interfaces are arranged in the connecting grooves.

Preferably, the temperature raising assembly further comprises a battery frame, a built-in battery pack and a heating resistor, the tail end of the lead interface is connected with the battery frame, the built-in battery pack is mounted inside the battery frame, and the heating resistor is mounted on the side face of the battery frame.

Preferably, the temperature-detecting subassembly includes sliding frame, inlay card tooth, circuit interface, circuit integration shell, detection base and sensor probe, sliding frame's inside upper and lower both ends are equipped with the inlay card tooth respectively, sliding frame's left side center department is equipped with the circuit interface, sliding frame's right side is equipped with the circuit integration shell, be equipped with the detection base on the circuit integration shell, install sensor probe on the detection base.

Preferably, radiator unit is including adjusting formula shell, nested screw, side plate, buckle sleeve pipe and adjusting bolt, the nested screw is installed respectively to the positive four corners department of adjusting the formula shell, the left and right sides of adjusting the formula shell is equipped with the side plate respectively, the outside of side plate is equipped with the buckle sleeve pipe, the center department of adjusting the formula shell is equipped with adjusting bolt.

Preferably, the radiator unit still includes regulating spindle, adjusting blade, heat dissipation opening, external bed plate, integrated circuit board cramp, adjusting bolt's bottom is connected the regulating spindle, the side of regulating spindle is equipped with adjusting blade, be equipped with the heat dissipation opening on the regulation formula shell of adjusting bolt side, the back of regulation formula shell is equipped with external bed plate, the side-mounting integrated circuit board cramp of external bed plate.

Preferably, the heat dissipation assembly further comprises a heat dissipation shell, a motor clamp nest, a heat dissipation motor, heat dissipation blades and a shell opening, the heat dissipation shell is arranged on the external base plate, the motor clamp nest is installed on the heat dissipation shell, the heat dissipation motor is installed in the motor clamp nest, the heat dissipation blades are installed on the heat dissipation motor, and the shell opening is formed in the right side of the heat dissipation shell.

Preferably, unable adjustment base includes supporting baseplate, outer tube, support sleeve, outer slide, outer slider, positioning bolt and nail, supporting baseplate's upside is equipped with the outer tube, supporting baseplate's bottom is equipped with support sleeve, support sleeve's front is equipped with outer slide, be equipped with outer slider on the outer slide, the nail is connected to the bottom of outer slider, support sleeve's side-mounting positioning bolt.

The invention provides another technical scheme that: a preparation method of an intelligent temperature control greenhouse for cultivation of Shanghai green seedlings comprises the following steps:

the method comprises the following steps: the temperature control greenhouse is assembled, a special isolating membrane for the greenhouse is installed at the buckle of the isolating membrane, and the temperature inside the greenhouse is raised by using a heating resistor in the heating assembly according to the actual requirement of the Shanghai green seedling;

step two: adjusting the position of each temperature detection assembly on the detection slide bar, and detecting the temperature change in the greenhouse by using a sensor probe;

step three: when the temperature in the greenhouse is too high, the sensor probe transmits a signal to the battery frame and the built-in battery pack through a line, so that the built-in battery pack stops supplying power to the heating resistor;

step four: the adjusting blades are controlled to rotate through the adjusting bolts and the adjusting shafts, the radiating openings are opened, the radiating blades are driven by the radiating motor to rotate, and heat in the greenhouse is discharged, so that the temperature in the greenhouse is reduced, and the temperature control in the greenhouse is realized.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides an intelligent temperature control greenhouse for cultivating Shanghai green seedlings and an implementation method thereof, in the prior art, the positions of temperature sensors in the greenhouse are relatively fixed, the temperatures of all parts in the greenhouse are different, the relatively fixed sensors cannot accurately acquire the overall temperature data in the greenhouse and directly radiate the heat, and the growth of the Shanghai green seedlings is easily influenced;

2. the invention provides an intelligent temperature control greenhouse for cultivating Shanghai green seedlings and an implementation method thereof.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic cross-sectional view of a temperature control assembly according to the present invention;

FIG. 4 is a schematic view, partially in section, of the temperature control assembly of the present invention;

FIG. 5 is a schematic cross-sectional view of the temperature increasing assembly of the present invention;

FIG. 6 is a schematic side view of the temperature detecting assembly of the present invention;

FIG. 7 is a schematic view of a heat dissipation assembly of the present invention;

FIG. 8 is a side cross-sectional structural view of the heat dissipation assembly of the present invention;

fig. 9 is a schematic structural diagram of the fixing base of the present invention.

In the figure: 1. a stand bar; 2. a four-way connecting piece; 3. a temperature control assembly; 31. a temperature raising component; 311. a thermally conductive housing; 312. connecting grooves; 313. a wire interface; 314. a battery frame; 315. a built-in battery pack; 316. a heating resistor; 32. detecting a slide bar; 33. a connecting bolt; 34. a temperature detection assembly; 341. a slide frame; 342. clamping and embedding teeth; 343. a line interface; 344. a circuit integration housing; 345. detecting a base; 346. a sensor probe; 35. a wire guide hole; 36. connecting a lead externally; 37. an elastic spiral wire; 38. a limiting plate; 39. a nipple; 4. a three-way connector; 5. an isolation film buckle; 6. a snap bolt; 7. a heat dissipating component; 71. an adjustable housing; 72. nesting the screws; 73. a side clamping plate; 74. a buckle sleeve; 75. adjusting the bolt; 76. an adjustment shaft; 77. adjusting the blades; 78. a heat dissipation opening; 79. the outer connection base plate; 710. buckling and nailing a board card; 711. a heat dissipation housing; 712. nesting the motor card; 713. a heat dissipation motor; 714. a heat dissipating fin; 715. a housing opening; 8. a fixed base; 81. a support base plate; 82. an outer sleeve; 83. a support sleeve; 84. an outer slide; 85. an outer slide block; 86. positioning the bolt; 87. and supporting the nail.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Please refer to fig. 1-2, an intelligent temperature control greenhouse for cultivating young seedlings of shanghai green comprises a vertical frame rod 1, a four-way connecting piece 2, a temperature control assembly 3, a three-way connecting piece 4, an isolation film buckle 5, a buckle bolt 6, a heat radiation assembly 7 and a fixed base 8, wherein the four-way connecting piece 2 is installed on the vertical frame rod 1 in the vertical direction, the temperature control assembly 3 is installed at the front end of the four-way connecting piece 2, the temperature change in the greenhouse is sensed through the temperature control assembly 3, the temperature in the greenhouse is controllably adjusted, the three-way connecting piece 4 is installed at the intersection point of the vertical frame rod 1 in the vertical direction and the vertical frame rod 1 in the horizontal direction, the three-way connecting piece 4 is used for completing the assembly of the vertical frame rod 1 in the horizontal direction and the vertical frame rod 1 in the vertical direction, the isolation film buckle 5 is arranged on the vertical frame rod 1 in the horizontal direction, the external isolation film component for the greenhouse is installed through the isolation film buckle 5, the bolt 6 is installed on the isolation film buckle 5, the heat radiation assembly 7 is installed at the rear side of the four-way connecting piece 2, the fixed base 8 is installed at the bottom of the vertical frame rod 1 in the vertical direction, and the fixed base 8 is inserted in the soil, thereby realizing the vertical fixed installation of the vertical frame rod 1.

Referring to fig. 3-4, the temperature control assembly 3 includes a temperature raising assembly 31, a detection slide bar 32, a connection bolt 33, a temperature detection assembly 34 and a wire guide 35, the left and right sides of the temperature raising assembly 31 are respectively provided with the detection slide bar 32 through the connection bolt 33, the detection slide bar 32 is provided with the temperature detection assembly 34, the temperature detection assembly 34 is used for detecting the temperature and temperature variation of each place in the greenhouse, the detection slide bar 32 is provided with the wire guide 35, the temperature control assembly 3 further includes an external lead 36, an elastic spiral lead 37, a limit plate 38 and a nipple 39, the external lead 36 is mounted in the wire guide 35, the inner end of the external lead 36 is connected with the elastic spiral lead 37, when the temperature detection assembly 34 moves on the detection slide bar 32, the elastic spiral lead 37 can be stretched, the outer end of the detection slide bar 32 is provided with a limit plate 38, the limit plate 38 is used for limiting the movement range of the temperature detection assembly 34, the outer side of the limit plate 38 is provided with the nipple 39, and the nipple 39 is connected with the four-way connection 2.

Referring to fig. 5, the temperature raising assembly 31 includes a heat conducting casing 311, connection slots 312 and a wire interface 313, the connection slots 312 are respectively disposed on the left and right sides of the heat conducting casing 311, the wire interface 313 is disposed in the connection slots 312, the temperature raising assembly 31 further includes a battery frame 314, a built-in battery pack 315 and a heating resistor 316, the terminal of the wire interface 313 is connected to the battery frame 314, the built-in battery pack 315 is mounted inside the battery frame 314, and the heating resistor 316 is mounted on the side surface of the battery frame 314, wherein the built-in battery pack 315 in the battery frame 314 supplies power to the heating resistor 316 for heating, and transfers heat to the greenhouse through the heat conducting casing 311, thereby affecting temperature variation in the greenhouse.

Referring to fig. 6, the temperature detecting assembly 34 includes a sliding frame 341, a latch 342, a line interface 343, a line integrating housing 344, a detecting base 345 and a sensor probe 346, the upper and lower ends of the inside of the sliding frame 341 are respectively provided with the latch 342, the sliding frame 341 is connected to the detecting sliding rod 32 through the latch 342, the center of the left side of the sliding frame 341 is provided with the line interface 343, the right side of the sliding frame 341 is provided with the line integrating housing 344, various device lines are integrated and installed in the line integrating housing 344, the line integrating housing 344 is provided with the detecting base 345, the detecting base 345 is provided with the sensor probe 346, and the sensor probe 346 detects the temperature change in the greenhouse.

Referring to fig. 7-8, the heat dissipation assembly 7 includes an adjustable housing 71, a nesting screw 72, side clamping plates 73, a fastening sleeve 74 and an adjusting bolt 75, the nesting screw 72 is respectively installed at four corners of the front surface of the adjustable housing 71, the side clamping plates 73 are respectively installed at the left and right sides of the adjustable housing 71, the fastening sleeve 74 is installed at the outer side of the side clamping plate 73, the adjusting bolt 75 is installed at the center of the adjustable housing 71, the heat dissipation assembly 7 further includes an adjusting shaft 76, adjusting blades 77, heat dissipation openings 78, an external base plate 79 and a board fastening nail 710, the bottom of the adjusting bolt 75 is connected to the adjusting shaft 76, the adjusting blades 77 are installed at the side surface of the adjusting shaft 76, the adjusting blades 77 are controlled to rotate by the adjusting bolt 75 and the adjusting shaft 76, the heat dissipation openings 78 are installed on the adjustable housing 71 at the side surface of the adjusting bolt 75, when heat dissipation is performed, the heat dissipation opening 78 is opened by rotating the adjusting blade 77, the back of the adjusting shell 71 is provided with an external base plate 79, the side face of the external base plate 79 is provided with a board clip fastener 710, the heat dissipation assembly 7 further comprises a heat dissipation shell 711, a motor clamping sleeve 712, a heat dissipation motor 713, a heat dissipation blade 714 and a shell opening 715, the external base plate 79 is provided with the heat dissipation shell 711, the heat dissipation shell 711 is provided with a motor clamping sleeve 712, the motor clamping sleeve 712 is internally provided with the heat dissipation motor 713, the heat dissipation motor 713 is provided with the heat dissipation blade 714, the right side of the heat dissipation shell 711 is provided with the shell opening 715, the heat dissipation motor 713 drives the heat dissipation blade 714 to rotate quickly, hot air in the greenhouse is diffused outwards from the shell opening 715 and the heat dissipation opening 78, and therefore heat dissipation in the greenhouse is achieved, and the temperature in the greenhouse is reduced.

Referring to fig. 9, the fixing base 8 includes a supporting base plate 81, an outer sleeve 82, a supporting sleeve 83, an outer slide 84, an outer slide block 85, a positioning bolt 86 and a supporting pin 87, the outer sleeve 82 is disposed on the upper side of the supporting base plate 81, the supporting sleeve 83 is disposed at the bottom of the supporting base plate 81, the outer slide 84 is disposed on the front surface of the supporting sleeve 83, the outer slide block 85 is disposed on the outer slide 84, the supporting pin 87 is connected to the bottom of the outer slide block 85, the extending length of the supporting pin 87 is controlled by the outer slide block 85, the supporting pin 87 can be adjusted according to actual installation conditions, so as to ensure the installation stability of the stand bar 1, the positioning bolt 86 is installed on the side surface of the supporting sleeve 83, and the extending length of the supporting pin 87 is fixed by the positioning bolt 86.

In order to better show the implementation process of the intelligent temperature control greenhouse for cultivating the young Shanghai green seedlings, the embodiment provides an implementation method of the intelligent temperature control greenhouse for cultivating the young Shanghai green seedlings, which comprises the following steps:

the method comprises the following steps: the temperature control greenhouse is assembled, a special isolating membrane for the greenhouse is arranged at the isolating membrane buckle 5, and the temperature in the greenhouse is raised by using the heating resistor 316 in the heating assembly 31 according to the actual requirement of the Shanghai green seedling;

step two: the positions of the temperature detection components 34 on the detection slide bars 32 are adjusted, and the temperature change in the greenhouse is detected by the sensor probes 346;

step three: when the temperature in the greenhouse is too high, the sensor probe 346 transmits a signal to the battery frame 314 and the built-in battery pack 315 through a line, so that the built-in battery pack 315 stops supplying power to the heating resistor 316;

step four: the adjusting blades 77 are controlled to rotate through the adjusting bolts 75 and the adjusting shafts 76, the radiating openings 78 are opened, the radiating blades 714 are driven to rotate by the radiating motor 713, and heat in the greenhouse is discharged, so that the temperature in the greenhouse is reduced, and the temperature control in the greenhouse is realized.

In conclusion: the invention relates to an intelligent temperature control greenhouse for cultivating Shanghai green seedlings and an implementation method thereof.A special isolating film for the greenhouse is arranged at an isolating film buckle 5, the temperature in the greenhouse is raised by using a heating resistor 316 in a heating assembly 31 according to the actual requirement of the Shanghai green seedlings, the position of each temperature detection assembly 34 at a detection slide rod 32 is adjusted, the temperature change in the greenhouse is detected by a sensor probe 346, when the temperature in the greenhouse is overhigh, the sensor probe 346 transmits signals to a battery frame 314 and a built-in battery pack 315 through a circuit, so that the built-in battery pack 315 stops supplying power to the heating resistor 316, an adjusting blade 77 is controlled to rotate through an adjusting bolt 75 and an adjusting shaft 76, a radiating opening 78 is opened, a radiating motor 713 drives the radiating blade 714 to rotate, the heat in the greenhouse is discharged, the temperature in the greenhouse is reduced, the temperature control in the greenhouse is realized, the accurate monitoring of the temperature of each part in the greenhouse is effectively realized, and meanwhile, when the heat is not radiated, the heat radiating part in the greenhouse is sealed to facilitate the temperature adjustment in the greenhouse.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. The utility model provides a blue and green seedling of shanghai cultivates and uses intelligent control by temperature change big-arch shelter, includes grudging post (1), cross connecting piece (2), temperature control component (3), three way connection spare (4), barrier film buckle (5), buckle bolt (6), radiator unit (7) and unable adjustment base (8), its characterized in that: the temperature control device is characterized in that a four-way connecting piece (2) is installed on the vertical frame rod (1) in the vertical direction, a temperature control assembly (3) is installed at the front end of the four-way connecting piece (2), a three-way connecting piece (4) is installed at the intersection point of the vertical frame rod (1) and the vertical frame rod (1) in the horizontal direction, an isolating membrane buckle (5) is arranged on the vertical frame rod (1) in the horizontal direction, a buckle bolt (6) is installed on the isolating membrane buckle (5), a heat dissipation assembly (7) is installed on the rear side of the four-way connecting piece (2), and a fixing base (8) is installed at the bottom of the vertical frame rod (1) in the vertical direction.

2. The intelligent temperature-control greenhouse for cultivating young Shanghai green seedlings according to claim 1, wherein: temperature control unit (3) are including heating up subassembly (31), detection slide bar (32), connecting bolt (33), temperature detect subassembly (34) and wire guide (35), the left and right sides of heating up subassembly (31) is respectively through connecting bolt (33) installation detection slide bar (32), installation temperature detect subassembly (34) on detecting slide bar (32), be equipped with wire guide (35) on detecting slide bar (32).

3. The intelligent temperature control greenhouse for cultivating young Shanghai green seedlings according to claim 2, wherein: temperature control unit (3) are still including external wire (36), elasticity spiral conductor (37), limiting plate (38) and nipple (39), installation external wire (36) in wire guide (35), the inboard end-to-end connection elasticity spiral conductor (37) of external wire (36), the outside end that detects slide bar (32) is equipped with limiting plate (38), the outside of limiting plate (38) is equipped with nipple (39).

4. The intelligent temperature-control greenhouse for cultivating Shanghai green seedlings as claimed in claim 3, wherein: the heating assembly (31) comprises a heat-conducting shell (311), connecting grooves (312), a wire interface (313), a battery frame (314), a built-in battery pack (315) and a heating resistor (316), wherein the connecting grooves (312) are respectively arranged on the left side and the right side of the heat-conducting shell (311), the wire interface (313) is arranged in the connecting grooves (312), the tail end of the wire interface (313) is connected with the battery frame (314), the built-in battery pack (315) is arranged inside the battery frame (314), and the heating resistor (316) is arranged on the side face of the battery frame (314).

5. The intelligent temperature-control greenhouse for cultivating Shanghai green seedlings as claimed in claim 3, wherein: the temperature detection assembly (34) comprises a sliding frame (341), clamping teeth (342), a line interface (343), a line integration shell (344), a detection base (345) and a sensor probe (346), wherein the clamping teeth (342) are respectively arranged at the upper end and the lower end of the inside of the sliding frame (341), the line interface (343) is arranged at the center of the left side of the sliding frame (341), the line integration shell (344) is arranged on the right side of the sliding frame (341), the detection base (345) is arranged on the line integration shell (344), and the sensor probe (346) is arranged on the detection base (345).

6. The intelligent temperature-control greenhouse for cultivating young Shanghai green seedlings according to claim 1, wherein: radiator unit (7) are including adjusting formula shell (71), nested screw (72), side splint (73), buckle sleeve pipe (74) and adjusting bolt (75), nested screw (72) are installed respectively to the positive four corners department of adjusting formula shell (71), the left and right sides of adjusting formula shell (71) is equipped with side splint (73) respectively, the outside of side splint (73) is equipped with buckle sleeve pipe (74), the center department of adjusting formula shell (71) is equipped with adjusting bolt (75).

7. The intelligent temperature-control greenhouse for cultivation of Shanghai green seedlings as claimed in claim 6, wherein: radiator unit (7) still includes regulating spindle (76), adjusting blade (77), heat dissipation opening (78), external bed plate (79), integrated circuit board cramp (710), regulating spindle (76) is connected to the bottom of adjusting bolt (75), the side of regulating spindle (76) is equipped with adjusting blade (77), be equipped with heat dissipation opening (78) on the regulation formula shell (71) of adjusting bolt (75) side, the back of regulation formula shell (71) is equipped with external bed plate (79), side-mounting integrated circuit board cramp (710) of external bed plate (79).

8. The intelligent temperature-control greenhouse for cultivating young Shanghai green seedlings according to claim 7, wherein: radiator unit (7) still include heat dissipation shell (711), motor inlay card cover (712), heat dissipation motor (713), radiator fin (714) and shell opening (715), be equipped with heat dissipation shell (711) on external bed plate (79), install motor card nested (712) on heat dissipation shell (711), installation heat dissipation motor (713) in motor card nested (712), install radiator fin (714) on heat dissipation motor (713), the right side of heat dissipation shell (711) is equipped with shell opening (715).

9. The intelligent temperature-control greenhouse for cultivating young Shanghai green seedlings according to claim 1, wherein: unable adjustment base (8) are including supporting baseplate (81), outer tube (82), support sleeve (83), outer slide (84), outer slider (85), positioning bolt (86) and support nail (87), the upside of support baseplate (81) is equipped with outer tube (82), the bottom of support baseplate (81) is equipped with support sleeve (83), the front of support sleeve (83) is equipped with outer slide (84), be equipped with outer slider (85) on outer slide (84), support nail (87) are connected to the bottom of outer slider (85), side-mounting positioning bolt (86) of support sleeve (83).

10. The implementation method of the intelligent temperature-control greenhouse for cultivating the young Shanghai green seedlings as claimed in any one of claims 1 to 9, comprising the following steps:

s1: the temperature control greenhouse is assembled, a special isolating membrane for the greenhouse is arranged at the isolating membrane buckle (5), and the temperature in the greenhouse is raised by using a heating resistor (316) in the heating assembly (31) according to the actual requirement of the Shanghai green seedling;

s2: adjusting the position of each temperature detection assembly (34) at the detection slide bar (32), and detecting the temperature change in the greenhouse by a sensor probe (346);

s3: when the temperature in the greenhouse is too high, the sensor probe (346) transmits a signal to the battery frame (314) and the built-in battery pack (315) through a line, so that the built-in battery pack (315) stops supplying power to the heating resistor (316);

s4: the adjusting blades (77) are controlled to rotate through the adjusting bolts (75) and the adjusting shafts (76), the heat dissipation opening (78) is opened, the heat dissipation blades (714) are driven to rotate by the heat dissipation motor (713), heat in the greenhouse is discharged, and therefore the temperature in the greenhouse is reduced, and temperature control in the greenhouse is achieved.

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