CN112136581A

CN112136581A - Greenhouse biotechnology breeding temperature control device

Info

Publication number: CN112136581A
Application number: CN202011091906.0A
Authority: CN
Inventors: 周泽花
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2020-12-29

Abstract

The invention discloses a greenhouse biotechnology breeding temperature control device which comprises a transparent wall body and a greenhouse arranged in the transparent wall body, plants are planted in the greenhouse, heat insulation layers are arranged at the top and the backlight surface of the greenhouse, the heat insulation layers are fixedly arranged in the transparent wall body, a transverse plate is fixedly arranged in the transparent wall body on one side of the backlight surface of the greenhouse, the transverse plate is arranged at the upper end of the backlight surface, a memory alloy is fixedly arranged on the transverse plate, a sliding plate is fixedly arranged at one end, far away from the transverse plate, of the memory alloy, and a connecting rope is fixedly arranged on the side wall of the sliding plate on the same side of the memory alloy. The greenhouse for biotechnical breeding has the advantages of ingenious design and scientific and reasonable structure, can prevent the adverse effect of the external high temperature on the plants in the greenhouse when the precious plants are cultivated, can perform double-layer temperature control on the greenhouse when the outdoor temperature is too high in summer, and further prevents the unnecessary economic loss caused by the injury of the precious plants.

Description

Greenhouse biotechnology breeding temperature control device

Technical Field

The invention relates to the technical field of biotechnology, in particular to a temperature control device for breeding by adopting greenhouse biotechnology.

Background

Biological breeding is defined as a biological technology for cultivating excellent organisms, the biological breeding is a process for cultivating new biological species by utilizing methods and principles such as genetics, cell biology, modern bioengineering technology and the like, the biological breeding technology embodies the latest results of modern bioscience research and application thereof, a greenhouse, also called as a greenhouse, is provided with cold-proof, heating, light-transmitting and other facilities, can provide a growth period and increase the yield in seasons unsuitable for plant growth, and is a building capable of controlling or partially controlling the plant growth environment, and is mainly used for non-seasonal or non-regional plant cultivation, scientific research, generation-adding breeding, ornamental plant cultivation and the like;

when an existing greenhouse for biotechnological breeding is used for cultivating and researching precious plants, plants need to be cultivated in the greenhouse, in some high-temperature days in summer, outdoor temperature is too high, the temperature in the greenhouse can be further increased due to a heat aggregation effect, plant cells planted in the greenhouse lose water, swelling pressure is reduced, leaves and young stems droop, wilting occurs, even great economic loss is caused, shading treatment is carried out on the greenhouse, the shading degree needs to be changed artificially in the morning and evening in summer, accordingly, the influence on normal growth of the plants is avoided when the temperature in the greenhouse is appropriate, workers need to work outdoors in the high-temperature days in the process, health of the workers is threatened, and a temperature control device for greenhouse biotechnological breeding is provided.

Disclosure of Invention

The invention aims to solve the defects in the prior art, such as: the greenhouse for the prior biotechnology breeding is cultivating precious plants, is difficult to effectively control the temperature in the greenhouse, needs workers to carry out work outdoors in hot summer due to simple shading operation, is not beneficial to the life safety of the workers, and provides the greenhouse biotechnology breeding temperature control device.

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

a greenhouse biotechnology breeding temperature control device comprises a transparent wall body and a greenhouse arranged in the transparent wall body, plants are planted in the greenhouse, heat insulation layers are arranged at the top and the backlight surface of the greenhouse, the heat insulation layers are fixedly arranged in the transparent wall body, a transverse plate is fixedly arranged in the transparent wall body on one side of the backlight surface of the greenhouse, the transverse plate is arranged at the upper end of the backlight surface, a memory alloy is fixedly arranged on the transverse plate, a sliding plate is fixedly arranged at one end, away from the transverse plate, of the memory alloy, a connecting rope is fixedly arranged on the side wall of the same side of the memory alloy through the sliding plate, the other end of the connecting rope penetrates through the transverse plate, a balancing weight is fixedly connected and arranged at the lower end of the connecting rope, silica aerogel is fixedly arranged at the lower end of the balancing weight, a connecting plate is fixedly arranged on the side wall of the balancing weight, the both ends of receipts are restrainted the pole and are all fixed be equipped with the upper fixed plate, two the below interval correspondence of upper fixed plate is equipped with two bottom plates, two connect between upper fixed plate and the bottom plate and be equipped with the connecting rod, the upper and lower both ends of connecting rod all are equipped with the pivot, the connecting rod rotates the setting respectively through pivot and upper fixed plate and bottom plate, two also fixed receipts are restrainted the pole of being equipped with between the bottom plate, the below of bottom plate is equipped with the storage tank, the storage tank sets up, two at subaerial concave the inlaying the upper fixed plate and two still be equipped with shading mechanism between the bottom plate.

Preferably, the shading mechanism comprises shading cloth wound in an upper and a lower two of the shading rods, torsion springs are fixedly arranged in the two of the shading rods, sliding blocks are fixedly arranged at two ends of one side of the two shading cloths close to each other, matched sliding grooves are arranged on the inner side walls of the two upper fixing plates and the two lower fixing plates, four sliding blocks are respectively arranged in the sliding grooves in a sliding manner, sealing cavities are respectively fixedly arranged in the two upper fixing plates and the two lower fixing plates, the sealing cavities in the two upper fixing plates are arranged in a downward opening manner, the sealing cavities in the two lower fixing plates are arranged in an upward opening manner, pistons are respectively arranged in the four sealing cavities in a sliding manner, fixing rods are respectively fixedly arranged on the four pistons, the four fixing rods are respectively fixedly connected with the four sliding blocks, and fixing blocks are respectively fixedly arranged on the outer side walls of the sliding blocks in the two upper fixing plates, and two limiting blocks are fixedly arranged on the outer side wall of the upper fixing plate, and springs are fixedly arranged between the fixing blocks and the limiting blocks.

Preferably, the side wall of the sliding plate is closely attached to the inner wall of the transparent wall, and both the side wall of the sliding plate and the inner wall of the transparent wall are smoothly arranged.

Preferably, the material of transparent wall is the ya keli material, transparent wall's both ends are buried deeply and are set up at subaerial.

Preferably, the balancing weight, the connecting plate and the bundling rod are integrally formed, and the connecting part of the balancing weight and the connecting plate is in a narrow shape.

Preferably, the sliding block and the sliding groove are arranged in a matched T shape, and the sliding block and the sliding groove are smoothly arranged.

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

1. through the mutual matching of the heat insulation layer, the memory alloy, the balancing weight and the silica aerogel, when the temperature of the outer surface of the transparent wall is higher than 40 ℃, the memory alloy returns to the original shape by the spiral shape, and then the balancing weight is driven to rise, so that the silica aerogel shields the light facing surface of the greenhouse, the external high temperature is prevented from further entering the greenhouse in a heat transfer mode, the temperature in the greenhouse is further raised, the plant cells are dehydrated, the turgor pressure is reduced, the leaves and the young stems droop, wilting occurs, even the plants die, and great economic loss is caused;

2. through an upper fixed plate, the bottom plate, the shading cloth, the pole of restrainting, mutually supporting of sealed chamber and piston, after memory alloy kick-backs, in the illumination of to the plain noodles still continuous shines into the greenhouse, lead to its inside temperature to continue to rise, through the gas inflation in the sealed intracavity, promote the piston and remove, thereby make the shading cloth to remove to the centre, shelter from the greenhouse to the plain noodles, and when the temperature reduces, the gas expansion degree reduces, the piston moves back, thereby change the greenhouse to the luminousness of plain noodles, and then further control the temperature in the greenhouse, make the device can be according to external environment temperature's change, the change shines into the illumination intensity in greenhouse, thereby control the temperature in the greenhouse, prevent that high temperature from producing adverse effect to the plant.

Drawings

FIG. 1 is a schematic structural diagram of a temperature control device for breeding by greenhouse biotechnology according to the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

fig. 3 is a side view of the upper and lower fixing plates of fig. 1;

fig. 4 is a schematic perspective view of the lower fixing plate in fig. 3.

In the figure: 1 transparent wall body, 2 greenhouses, 3 plants, 4 insulating layers, 5 transverse plates, 6 memory alloys, 7 sliding plates, 8 connecting ropes, 9 balancing weights, 10 silica aerogel, 11 connecting plates, 12 upper fixing plates, 13 lower fixing plates, 14 connecting rods, 15 rotating shafts, 16 storage tanks, 17 shading cloth, 18 bundling rods, 19 sliding blocks, 20 sealing cavities, 21 pistons, 22 fixing rods, 23 fixing blocks, 24 limiting blocks, 25 springs and 26 sliding chutes.

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.

Referring to fig. 1-4, a greenhouse biotechnology breeding temperature control device comprises a transparent wall 1 and a greenhouse 2 arranged in the transparent wall 1, the transparent wall 1 is made of acrylic material, two ends of the transparent wall 1 are deeply buried under the ground, acrylic has crystal transparency, the light transmittance is more than 92%, light is soft and clear, simultaneously acrylic plates have excellent weather resistance, higher surface hardness and surface gloss and better high temperature performance, adverse effects of high temperature on the greenhouse are prevented, plants 3 are planted in the greenhouse 2, heat insulation layers 4 are arranged at the top and the backlight surface of the greenhouse 2, the heat insulation layers 4 are fixedly arranged in the transparent wall 1, a transverse plate 5 is fixedly arranged in the transparent wall on one side of the greenhouse 2 facing the light surface, the transverse plate 5 is arranged at the upper end of the facing surface, a memory alloy 6 is fixedly arranged on the transverse plate 5, the memory alloy 6 is made of nickel-titanium alloy material, the crystal structures of the nickel-titanium alloy are different between 40 ℃ and 40 ℃, when the temperature is changed at 40 ℃, the alloy can contract or expand, so that the shape of the alloy changes, 40 ℃ is the 'transformation temperature' of the nickel-titanium memory alloy 6, the alloy is made into an arc shape at high temperature and is in a stable state, when the alloy is circularly wound into a spiral shape at room temperature, the alloy is in an unstable state, therefore, as long as the alloy is heated to the transformation temperature, the alloy is immediately restored to the original arc shape in the stable state, one end of the memory alloy 6 far away from the transverse plate 5 is fixedly provided with the sliding plate 7, the side wall of the sliding plate 7 is tightly attached to the inner wall of the transparent wall 1, and the side wall of the sliding plate 7 and the inner wall of the transparent wall 1 are smoothly arranged, so that the sliding process of the sliding plate 7 in the side wall of the transparent wall 1 is smoother, the sliding plate 7 is also fixedly provided with a connecting rope 8 on the same side wall of the memory alloy 6, the other end of the connecting rope 8 penetrates through the transverse plate 5, the lower end of the connecting rope 8 is fixedly connected with a balancing weight 9, the lower end of the balancing weight 9 is fixedly provided with silica aerogel 10, the silica aerogel 10 has an extremely low thermal conductivity coefficient which can reach 0.013-0.016W/(m.K), is lower than the thermal conductivity coefficient of static air (0.024W/(m.K)) by 2-3 orders of magnitude than that of a corresponding inorganic insulating material, and the ratio of the annihilation coefficients of infrared light and visible light reaches more than 100, can effectively transmit the visible light part in sunlight and obstruct the infrared light part therein, so that the sliding plate becomes an ideal transparent heat-insulating material because the heat transfer is carried out among air molecules, if the transfer path is a straight line, the heat can be quickly dissipated, however, in the silica aerogel, air molecules have to pass through the intricate holes, so that heat is difficult to dissipate, the heat insulating layer 4, the memory alloy 6, the balancing weight 9 and the silica aerogel 10 are mutually matched, so that when the temperature of the outer surface of the transparent wall 1 is higher than 40 ℃, the memory alloy 6 returns to the original shape by the spiral shape, and further drives the balancing weight 9 to rise, so that the silica aerogel 10 shields the light facing surface of the greenhouse 2, the external high temperature is prevented from further entering the greenhouse 2 in a heat transfer manner, the temperature in the greenhouse 2 is further raised, cells of the plants 3 are dehydrated, the turgor pressure is reduced, leaves and young stems droop, wilting occurs, even the plants 3 die, and great economic loss is caused, the connecting plate 11 is fixedly arranged on the side wall of the balancing weight 9, and the collecting rod 18 is fixedly arranged on the other side wall of the connecting plate 11, the weight block 9, the connecting plate 11 and the bundling rod 18 are integrally formed, the connecting part of the weight block 9 and the connecting plate 11 is arranged in a thin and narrow shape, so that the stability of the structure is improved, the two ends of the bundling rod 18 are both fixedly provided with the upper fixing plates 12, the two lower fixing plates 13 are correspondingly arranged below the two upper fixing plates 12 at intervals, the connecting rod 14 is connected between the two upper fixing plates 12 and the lower fixing plates 13, the upper end and the lower end of the connecting rod 14 are both provided with the rotating shafts 15, the connecting rod 14 is respectively rotatably arranged with the upper fixing plates 12 and the lower fixing plates 13 through the rotating shafts 15, the bundling rod 18 is also fixedly arranged between the two lower fixing plates 13, the lower part of the lower fixing plate 13 is provided with the storage groove 16, the storage groove 16 is concavely embedded on the ground, the shading mechanism is also arranged between the two upper fixing plates 12 and the two lower fixing plates 13, the shading, torsion springs are fixedly arranged in the two bundling rods 18, two sliding blocks 19 are fixedly arranged at two ends of one side of each of the two shading cloths 17 close to each other, matched sliding grooves 26 are respectively arranged on the inner side walls of the two upper fixing plates 12 and the two lower fixing plates 13, the four sliding blocks 19 are respectively arranged in the sliding grooves 26 in a sliding manner, sealed cavities 20 are respectively fixedly arranged in the two upper fixing plates 12 and the two lower fixing plates 13, the sealed cavities 20 in the two upper fixing plates 12 are arranged in a downward opening manner, the sealed cavities 20 in the two lower fixing plates 13 are arranged in an upward opening manner, pistons 21 are respectively arranged in the four sealed cavities 20 in a sliding manner, fixed rods 22 are respectively fixedly arranged on the four pistons 21, the four fixed rods 22 are respectively fixedly connected with the four sliding blocks 19, fixed blocks 23 are respectively fixedly arranged on the outer side walls of the sliding blocks 19 in the two upper fixing plates 12, and limiting blocks 24 are respectively fixedly arranged, a spring 25 is fixedly arranged between the fixed block 23 and the limiting block 24, the sliding block 19 and the sliding groove 26 are arranged in a matched T shape, and the sliding block 19 and the sliding groove 26 are arranged smoothly, so that the situation that the sliding block 19 possibly slides out of the sliding groove 26 is effectively prevented, the normal working process of the device is ensured, through the mutual matching of the upper fixed plate 12, the lower fixed plate 13, the shading cloth 17, the beam-converging rod 18, the sealing cavity 20 and the piston 21, after the memory alloy 6 rebounds, the illumination towards the smooth surface is continuously irradiated into the greenhouse 2, so that the temperature in the greenhouse 2 is continuously raised, the piston 21 is pushed to move through the expansion of the gas in the sealing cavity 20, so that the shading cloth 17 moves towards the middle, the smooth surface of the greenhouse 2 is shielded, when the temperature is reduced, the expansion degree of the gas is reduced, the piston 21 moves back, the light transmittance of the smooth surface of the greenhouse 2 is changed, and the temperature in, make the device can change the illumination intensity who shines into greenhouse 2 according to external environment temperature's change to the temperature in the control greenhouse 2 prevents that high temperature from producing adverse effect to plant 3.

In the invention, when the device works, when the outside temperature reaches 40 ℃ or higher than 40 ℃, the memory alloy 6 recovers the arc shape, the sliding plate 7 is pushed to slide in the side wall of the transparent wall body 1, the balancing weight 9 is pulled to rise through the connecting rope 8, so that the silica aerogel 10 at the lower end of the balancing weight 9 is bounced up and shields the light facing surface of the greenhouse 2, the outside temperature cannot enter the greenhouse 2 from the light facing surface in a heat transfer mode, in the process that the balancing weight 9 rises, the upper fixing plate 12, the lower fixing plate 13 and the structure between the upper fixing plate and the lower fixing plate are pulled up from the storage groove 16 through the arrangement of the connecting plate 11, if the temperature further rises, the gas in the sealed cavity 20 expands, the piston 21 is pushed to move in the sealed cavity 20, so that the fixing rod 22 moves, the fixing block 23 is driven to move, and the shading cloth 17 bundled on the bundling rod 18 approaches each other, thereby shelter from the illumination that gets into greenhouse 2 to can be according to ambient temperature adjustment piston 21's displacement, thereby change the interval between two upper and lower shading cloth 17, thereby change the illumination intensity that gets into in greenhouse 2, the temperature in the further control greenhouse 2 prevents that high temperature from producing adverse effect to plant 3.

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 to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A greenhouse biotechnology breeding temperature control device comprises a transparent wall body (1) and a greenhouse (2) arranged in the transparent wall body (1), plants (3) are planted in the greenhouse (2), and the greenhouse biotechnology breeding temperature control device is characterized in that heat insulation layers (4) are arranged at the top and the backlight surface of the greenhouse (2), the heat insulation layers (4) are fixedly arranged in the transparent wall body (1), a transverse plate (5) is fixedly arranged in the transparent wall body on one side of the backlight surface of the greenhouse (2), the transverse plate (5) is arranged at the upper end of the backlight surface, a memory alloy (6) is fixedly arranged on the transverse plate (5), a sliding plate (7) is fixedly arranged at one end, far away from the transverse plate (5), of the memory alloy (6), a connecting rope (8) is fixedly arranged on the side wall of the same side of the memory alloy (6), and the other end of the connecting rope (8) penetrates through the transverse plate (5), and the lower end of the connecting rope (8) is fixedly connected with a balancing weight (9), the lower end of the balancing weight (9) is fixedly provided with silica aerogel (10), the side wall of the balancing weight (9) is fixedly provided with a connecting plate (11), the side wall of the other side of the connecting plate (11) is fixedly provided with a binding rod (18), the two ends of the binding rod (18) are both fixedly provided with an upper fixing plate (12), the lower parts of the two upper fixing plates (12) are correspondingly provided with two lower fixing plates (13) at intervals, a connecting rod (14) is connected between the two upper fixing plates (12) and the lower fixing plates (13), the upper end and the lower end of the connecting rod (14) are both provided with rotating shafts (15), the connecting rod (14) is respectively rotatably arranged with the upper fixing plate (12) and the lower fixing plates (13) through the rotating shafts (15), and the binding rod (18) is also fixedly arranged between, and a storage groove (16) is arranged below the lower fixing plate (13), the storage groove (16) is concavely embedded on the ground, and a shading mechanism is further arranged between the two upper fixing plates (12) and the two lower fixing plates (13).

2. The temperature control device for breeding biotechnological greenhouse according to claim 1, characterized in that the shading mechanism includes shading cloth (17) wound inside two upper and lower tightening rods (18), torsion springs are further fixed inside the two tightening rods (18), sliders (19) are fixed at two ends of one side of the two shading cloth (17) close to each other, matching sliding grooves (26) are respectively arranged on the inner side walls of the two upper fixing plates (12) and the two lower fixing plates (13), the four sliders (19) are respectively slidably arranged inside the sliding grooves (26), sealed cavities (20) are respectively fixed inside the two upper fixing plates (12) and the two lower fixing plates (13), the sealed cavities (20) inside the two upper fixing plates (12) are arranged with openings facing downward, the sealed cavities (20) inside the two lower fixing plates (13) are arranged with openings facing upward, and four equal slip is equipped with piston (21) in sealed chamber (20), four equal fixed dead lever (22) that are equipped with on piston (21), four dead lever (22) set up with four slider (19) fixed connection respectively, are in two upper fixed plate (12) all fixed being equipped with fixed block (23) on the lateral wall of slider (19), two all fixed being equipped with stopper (24) on the lateral wall of upper fixed plate (12), fixed spring (25) that are equipped with between fixed block (23) and stopper (24).

3. The temperature control device for breeding by greenhouse biotechnology according to claim 1, wherein the side wall of the sliding plate (7) is closely attached to the inner wall of the transparent wall (1), and the side wall of the sliding plate (7) and the inner wall of the transparent wall (1) are both smoothly arranged.

4. The temperature control device for breeding by greenhouse biotechnology according to claim 1, wherein the material of the transparent wall (1) is acrylic material, and both ends of the transparent wall (1) are buried under the ground.

5. The temperature control device for breeding by greenhouse biotechnology as claimed in claim 1, wherein the weight block (9), the connecting plate (11) and the bundling rod (18) are integrally formed, and the connecting portion of the weight block (9) and the connecting plate (11) is narrow.

6. The temperature control device for greenhouse biotechnology breeding as recited in claim 2, wherein the slide block (19) and the slide groove (26) are arranged in a matching T-shape, and the slide block (19) and the slide groove (26) are arranged smoothly.