CN111631052A - Temperature control net and method for green pepper seedling culture - Google Patents

Abstract

The invention discloses a temperature control net and a method for green pepper seedling culture, which belong to the technical field of temperature control nets and comprise a top net layer, a bottom net layer, support columns, air pumps, air pipes, a heater, a refrigerator and an electromagnetic valve, wherein the bottom net layer is arranged below the top net layer, at least one bottom net layer is arranged, four corners of the top net layer and the bottom net layer are connected to the support columns through connecting pieces, the top net layer is connected with the air pump through one air pipe, one side of the air pump is provided with an air inlet, the bottom net layer is connected with the air pump through two air pipes, and the top net layer and the bottom net layer are connected with the heater and the refrigerator in parallel. The required ambient temperature of green pepper seedling growth is established to no view original external environment temperature, cooperates green pepper seedling growth cycle to use, and each cycle obtains optimum growth temperature, accelerates green pepper seedling's growth, avoids the seedling to be sick, and the temperature control net of being made by transparent silica gel hose, and the illumination does not have the four corners, does not hinder seedling branch and leaf.

Description

Temperature control net and method for green pepper seedling culture

Technical Field

The invention relates to the technical field of temperature control nets, in particular to a temperature control net and a method for green pepper seedling culture.

Background

The pepper seedlings are generally grown in the middle and last ten days of 2 months, strong seedlings can be grown at a low temperature, and the environmental temperature required by the growth of the seedlings is manually controlled. The standard of strong seedlings is achieved before planting: namely, the stem is thick and strong, the internodes are short, the leaves are thick and dark, the stem leaves are complete and have no diseases and pests, the lateral white root with developed root system is grown, and the leaf division is 8 during the field planting. The seedbed is watered before field planting to alleviate damage root system when lifting seedlings, shorten and transplant back time of reviving seedlings, current manual control seedling growth required ambient temperature need with the help of seedling raising instruments such as seedling tray.

The patent number is CN201920384575.6 provides a seedling tray of growing seedlings of accuse temperature formula multizone for farming, the on-line screen storage device comprises a base, the middle part fixed mounting on base top has double-shaft motor, fixedly connected with connecting rod, two respectively on two output shafts of double-shaft motor the other end of connecting rod is fixed the cup joint respectively and is taken turns initiative helical gear, two the support has been cup jointed in the middle part activity respectively of connecting rod, the dwang has been cup jointed in the activity respectively in the both sides on base top. This seedling tray of growing seedlings of accuse temperature formula multizone for farming uses through the cooperation of initiative helical gear, double-shaft motor, passive helical gear and dwang, makes the second rack can reciprocate along with the rotation of dwang, and then makes the interval between first rack and the second rack can change according to solar ray's inclination. But above-mentioned patent is through adjusting daylighting and then control temperature, and its accuse temperature method source relies on the external world, can not independently control the temperature, and should educate seedling tray and can not be fast to this kind of seedling plant growth of hot pepper, and the higher seedling of plant height carries out top and bottom multiple accuse temperature, and accuse temperature is weak, and current educate seedling tray and adopt, transplant the in-process because of its texture is hard to and the collision damages the seedling, shelters from the daylighting.

Disclosure of Invention

The invention aims to provide a temperature control net and a method for green pepper seedling cultivation, which can construct the environmental temperature required by green pepper seedling growth regardless of the original external environmental temperature, can be used in cooperation with the growth cycle of green pepper seedlings, can obtain the optimum growth temperature in each cycle, can accelerate the growth of green pepper seedlings and avoid the seedlings from being ill, and can solve the problems in the background technology by using a temperature control net made of transparent silica gel hoses, so that no four corners are needed in illumination and no damage to branches and leaves of the seedlings is caused.

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

the utility model provides a green pepper is grown seedlings and is used accuse temperature net, includes top stratum reticulare, end stratum reticulare, support column, air pump, gas-supply pipe, system heater, refrigerator and solenoid valve, the below of top stratum reticulare is equipped with end stratum reticulare, and end stratum reticulare has the one deck at least, the four corners of top stratum reticulare all connected on the support column through the connecting piece with end stratum reticulare, top stratum reticulare connected with the air pump through a gas-supply pipe, one side of air pump is equipped with the air inlet, end stratum reticulare is connected with the air pump through two gas-supply pipes, and the equal parallel connection of top stratum reticulare and end stratum reticulare has system heater and refrigerator, install the solenoid valve on.

Further, the top net layer comprises a top air passage, a buffering air cavity and air outlets, the top air passage is in a net shape in a vertically and horizontally staggered mode, the buffering air cavity is arranged at the staggered connection position of the top air passage, the top air passage is communicated with the buffering air cavity, the air outlets are formed in the lower surface of the buffering air cavity, and the top air passage is made of transparent silica gel hoses.

Furthermore, the bottom net layer is formed by criss-cross bottom air passages, grids are formed among the bottom air passages, green pepper seedlings are located in the grids, and the bottom air passages are made of transparent silica gel hoses.

Furthermore, the bottom net layer is two layers, the two bottom net layers are parallel to each other, the bottom net layer is composed of criss-cross bottom air passages, grids are formed between the bottom air passages, green pepper seedlings are located in the grids, and the bottom air passages are made of transparent silica gel hoses.

Further, the external screw thread has been seted up to the surface of support column, and the bottom surface is conical down, and the surface of support column has the sleeve through the screw thread rotation, and the screw thread has all been seted up to telescopic internal and external surface.

Further, the connecting piece includes ring body, groove, arc pole and cylinder, and the internal surface of ring body is seted up there is the internal thread to connect in the sleeve surface soon through the internal thread, and two annular grooves have been seted up to the surface of ring body, and the cross section in groove is the T font, and sliding connection has the cylinder in the groove, and the cylinder is located the one end of arc pole, connects through bolt locking between two arc poles, and two arc poles cup joint on top layer air flue or bottom air flue.

Furthermore, the temperature sensor, the electromagnetic valve, the heater, the refrigerator and the air pump are all electrically connected with a PLC controller, wherein the model of the heater is YTN-GD-B001, and the model of the refrigerator is SAC-45.

According to another aspect of the invention, a temperature control net temperature control method for green pepper seedling culture is provided, which comprises the following steps:

s101: the temperature detected by the temperature sensor is lower than the temperature required by the growth of green pepper seedlings, and the gas input into the top net layer and the bottom net layer passes through the heater;

s102: and (3) introducing gas into the bottom air passage, heating air around the green pepper seedlings, introducing the air into the top air passage, and discharging the air from the air outlet holes.

Further, the temperature detected by the temperature sensor in the S101 is higher than the temperature required by the growth of the green pepper seedlings, and the gas input into the top net layer and the bottom net layer passes through the refrigerator.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a temperature control net and a method for green pepper seedling cultivation, wherein air with a certain temperature is introduced into a bottom net layer and a top net layer through the driving of an air pump, the temperature of air exchange is carried out between a bottom air passage and the air around green pepper seedlings, the air outlet of the top net layer directly injects the air with the certain temperature, the original external environment temperature is not considered, the environment temperature required by the growth of the green pepper seedlings is constructed, the environment temperature is matched with the growth cycle of the green pepper seedlings, the optimal growth temperature is obtained in each cycle, the growth of the green pepper seedlings is accelerated, the seedling diseases are avoided, and the temperature control net made of transparent silica gel hoses does not have four corners under illumination and does not damage branches and leaves of the seedlings.

Drawings

Fig. 1 is an overall structure diagram of a temperature control net for growing green pepper seedlings according to a first embodiment of the present invention;

FIG. 2 is a connection diagram of an air pump of the temperature control net for growing seedlings of green peppers in the first embodiment of the present invention;

FIG. 3 is a connection diagram of the support columns of the temperature control net for growing seedlings of green peppers in the first embodiment of the present invention;

FIG. 4 is a top net layer structure diagram of the temperature control net for growing seedlings of green peppers of the present invention;

FIG. 5 is a bottom net layer structure diagram of the temperature control net for growing seedlings of green pepper of the present invention;

FIG. 6 is an exploded view of the connection structure of the temperature control net for growing seedlings of green pepper of the present invention;

FIG. 7 is a schematic diagram of an overall structure of a temperature control net for growing seedlings of green peppers in the second embodiment of the present invention;

FIG. 8 is a flow chart of the temperature control method for growing seedlings of green peppers of the present invention.

In the figure: 1. a top mesh layer; 11. a top layer airway; 12. a buffer air cavity; 13. an air outlet; 2. a bottom mesh layer; 21. a bottom layer air passage; 3. a support pillar; 31. a sleeve; 4. an air pump; 41. an air inlet; 5. a gas delivery pipe; 6. a heater; 7. a refrigerator; 8. an electromagnetic valve; 9. a connecting member; 91. a ring body; 92. a groove; 93. an arcuate bar; 94. a cylinder; 10. a temperature sensor.

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.

Example one

Referring to fig. 1-3, a green pepper is grown seedlings and is used accuse temperature net, including top stratum reticulare 1, bottom stratum reticulare 2, support column 3, air pump 4, gas-supply pipe 5, heat producer 6, refrigerator 7 and solenoid valve 8, the below of top stratum reticulare 1 is equipped with bottom stratum reticulare 2, bottom stratum reticulare 2 has the one deck at least, top stratum reticulare 1 and the four corners of bottom stratum reticulare 2 all connect on support column 3 through connecting piece 9, top stratum reticulare 1 is connected with air pump 4 through a gas-supply pipe 5, one side of air pump 4 is equipped with air inlet 41, bottom stratum reticulare 2 is connected with air pump 4 through two gas-supply pipes 5, and top stratum reticulare 1 and the equal parallel connection of bottom stratum reticulare 2 have heat producer 6 and refrigerator 7, install solenoid valve 8 on the gas-supply pipe 5, install temperature sensor 10 between bottom stratum reticulare 2 and the top stratum reticulare 1, temperature sensor.

Referring to fig. 4, the top net layer 1 includes a top air passage 11, a buffer air cavity 12 and air outlet holes 13, the top air passage 11 is criss-cross formed in a net shape, the buffer air cavity 12 is arranged at the cross joint of the top air passage 11, the top air passage 11 is communicated with the buffer air cavity 12, the air outlet holes 13 are arranged on the lower surface of the buffer air cavity 12, the air pump 4 pumps in outside air from an air inlet 41, the air is conveyed to the buffer air cavity 12 through an air pipe 5 and is sprayed into the growing environment of green pepper seedlings from top to bottom after being buffered by the buffer air cavity 12, the temperature sensor 10, the electromagnetic valve 8, the heater 6, the refrigerator 7 and the air pump 4 are all electrically connected with a PLC controller, wherein the heater 6 is of type YTN-GD-B001, the refrigerator 7 is of type SAC-45, and temperature control structures are arranged on the heater 6 and the refrigerator 7 of the, Temperature at the exit of the refrigerator 7.

Referring to fig. 5, the bottom mesh layer 2 has a common layer, the bottom mesh layer 2 is composed of criss-cross bottom air passages 21, a grid is formed between the bottom air passages 21, green pepper seedlings are located in the grid, a grid is formed between the bottom air passages 21, the green pepper seedlings are located in the grid, the green pepper seedlings or seeds are planted in a seedling field, a bottom mesh layer 2 is laid on the surface layer of the seedling field, gas with a certain temperature is introduced into the bottom mesh layer 2, a temperature environment required by growth of the green pepper seedlings is simulated, after the green pepper seedlings grow to a certain height, the bottom mesh layer 2 is located at the roots or branches of the green pepper seedlings and used for controlling the temperature around the green pepper seedlings, the top mesh layer 1 sprays gas with a certain temperature from top to bottom through air outlets 13 and is combined with the bottom mesh layer 2 to construct a green pepper growth environment, and the bottom air passages 21 and the top air passages 11 are both made of transparent silica gel.

Referring to fig. 6, an external thread is formed on the outer surface of the support column 3, the lower bottom surface of the support column 3 is conical, the sleeve 31 is arranged on the outer surface of the support column 3 in a rotating mode through threads, threads are formed in both the inner surface and the outer surface of the sleeve 31, the sleeve 31 can be manually rotated to adjust the height of the sleeve 31 on the support column 3, the ring body 91 is rotated after adjustment, the connecting piece 9 is sleeved outside the sleeve 31, the height of the bottom net layer 2 or the top net layer 1 is adjusted according to the height of a seedling plant, a gap exists between the ring body 91 and the support column 3 under the condition that the sleeve 31 is absent; connecting piece 9 includes ring body 91, slot 92, arc pole 93 and cylinder 94, the internal thread has been seted up to ring body 91's internal surface, and connect in sleeve 31 surface through the internal thread soon, two annular slots 92 have been seted up to ring body 91's surface, slot 92's cross section is the T font, the slot 92 of T font can prevent that cylinder 94 from breaking away from, area of contact between cylinder 94 and the slot 92 is little, reduce sliding friction, when ring body 91 is rotatory, ring body 91 and arc pole 93 slide each other, sliding connection has cylinder 94 in the slot 92, cylinder 94 is located the one end of arc pole 93, connect through bolt locking between two arc poles 93, and two arc poles 93 cup joint on top layer air flue 11 or bottom air flue 21.

Referring to fig. 8, in order to better show the process of controlling the temperature by using the temperature control net for growing the seedlings of green peppers, the embodiment now provides a method for controlling the temperature by using the temperature control net for growing the seedlings of green peppers, which includes the following steps:

s101: the temperature detected by the temperature sensor 10 is lower than the temperature required by the growth of green pepper seedlings, and the gas input into the top net layer 1 and the bottom net layer 2 passes through the heater 6; when the temperature detected by the temperature sensor 10 is higher than the temperature required by the growth of green pepper seedlings, the gas input into the top net layer 1 and the bottom net layer 2 passes through the refrigerator 7;

s102: gas is introduced into the bottom air passage 21 to heat air around green pepper seedlings and is introduced into the top air passage 11 and is discharged from the air outlet 13, three valves are respectively arranged at the joints of the gas pipe 5, the heater 6 and the refrigerator 7, when the electromagnetic valve 8 on the gas pipe 5 is closed and the other two electromagnetic valves 8 are opened, the top net layer 1 and the heater 6 are connected in series, the gas is heated by the heater 6 and is conveyed to the top net layer 1, the electromagnetic valve 8 on the gas pipe 5 is opened, the other two electromagnetic valves 8 are closed, the gas directly enters the top net layer 1 without passing through the heater 6, the gas between the top net layer 1 and the refrigerator 7, the gas between the bottom net layer 2 and the refrigerator 7 and the gas between the bottom net layer 2 and the heater 6 are all the same, whether the gas introduced between the top net layer 1 and the bottom net layer 2 is cooled or heated is controlled by the switch of the electromagnetic valve 8 through a PLC controller, or manually controlled manually.

Example two

Referring to fig. 7, the bottom mesh layer 2 has two layers, the two bottom mesh layers 2 are parallel to each other, the bottom mesh layer 2 is composed of criss-cross bottom air passages 21, a grid is formed between the bottom air passages 21, green pepper seedlings are located in the grid, green pepper seedlings or seeds are planted in a seedling raising field, one bottom mesh layer 2 is laid on the surface layer of the seedling raising field, gas at a certain temperature is introduced into the bottom mesh layer 2, a temperature environment required by growth of the green pepper seedlings is simulated, after the green pepper seedlings grow to a certain height, the bottom mesh layer 2 is located at the roots or branches of the green pepper seedlings and used for controlling the temperature around the green pepper seedlings, the top mesh layer 1 sprays gas at a certain temperature from top to bottom through the air outlet holes 13 and is combined with the bottom mesh layer 2 to construct a green pepper growth environment.

Referring to fig. 8, in order to better show the process of controlling the temperature by using the temperature control net for growing the seedlings of green peppers, the embodiment now provides a method for controlling the temperature by using the temperature control net for growing the seedlings of green peppers, which includes the following steps:

s101: the temperature detected by the temperature sensor 10 is lower than the temperature required by the growth of green pepper seedlings, and the gas input into the top net layer 1 and the bottom net layer 2 passes through the heater 6; when the temperature detected by the temperature sensor 10 is higher than the temperature required by the growth of green pepper seedlings, the gas input into the top net layer 1 and the bottom net layer 2 passes through the refrigerator 7;

s102: gas is introduced into the bottom air passage 21 to heat air around green pepper seedlings and is introduced into the top air passage 11 and is discharged from the air outlet 13, three valves are respectively arranged at the joints of the gas pipe 5, the heater 6 and the refrigerator 7, when the electromagnetic valve 8 on the gas pipe 5 is closed and the other two electromagnetic valves 8 are opened, the top net layer 1 and the heater 6 are connected in series, the gas is heated by the heater 6 and is conveyed to the top net layer 1, the electromagnetic valve 8 on the gas pipe 5 is opened, the other two electromagnetic valves 8 are closed, the gas directly enters the top net layer 1 without passing through the heater 6, the gas between the top net layer 1 and the refrigerator 7, the gas between the bottom net layer 2 and the refrigerator 7 and the gas between the bottom net layer 2 and the heater 6 are all the same, whether the gas introduced between the top net layer 1 and the bottom net layer 2 is cooled or heated is controlled by the switch of the electromagnetic valve 8 through a PLC controller, or manually controlled manually.

In summary, the following steps: the invention provides a temperature control net and a method for green pepper seedling cultivation, wherein air with a certain temperature is introduced into a bottom net layer 2 and a top net layer 1 under the driving of an air pump 4, the temperature of air is exchanged between a bottom air passage 21 and the air around green pepper seedlings, the air at the certain temperature is directly filled into the air through air outlet holes 13 of the top net layer 1, the original external environment temperature is not considered, the environment temperature required by the growth of the green pepper seedlings is constructed, the temperature control net is matched with the growth cycle of the green pepper seedlings, the optimal growth temperature is obtained in each cycle, the growth of the green pepper seedlings is accelerated, the seedlings are prevented from being diseased, and the temperature control net made of transparent silica gel hoses has no four corners under illumination and does not damage seedling branches and leaves.

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 able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (9)

1. The temperature control net for green pepper seedling cultivation is characterized by comprising a top net layer (1), a bottom net layer (2), support columns (3), an air pump (4), air pipes (5), a heat generator (6), a refrigerator (7) and an electromagnetic valve (8), wherein the bottom net layer (2) is arranged below the top net layer (1), at least one layer of the bottom net layer (2) is arranged, four corners of the top net layer (1) and the bottom net layer (2) are connected to the support columns (3) through connecting pieces (9), the top net layer (1) is connected with the air pump (4) through one air pipe (5), one side of the air pump (4) is provided with an air inlet (41), the bottom net layer (2) is connected with the air pump (4) through two air pipes (5), the heat generator (6) and the refrigerator (7) are connected to the top net layer (1) and the bottom net layer (2) in parallel, the electromagnetic valve (8) is installed on the air pipes (5), and a temperature sensor (10) is arranged between the bottom net layer (2) and the top net layer (1).

2. The temperature control net for growing seedlings of green peppers according to claim 1, wherein the top net layer (1) comprises a top air passage (11), buffer air cavities (12) and air outlet holes (13), the top air passage (11) is criss-cross to form a net shape, the buffer air cavities (12) are arranged at the cross connection positions of the top air passage (11), the top air passage (11) is communicated with the buffer air cavities (12), the air outlet holes (13) are formed in the lower surface of the buffer air cavities (12), and the top air passage (11) is made of transparent silica gel hoses.

3. The temperature control net for growing seedlings of green peppers as claimed in claim 1, wherein the bottom net layer (2) is a layer, the bottom net layer (2) is composed of criss-cross bottom air passages (21), grids are formed among the bottom air passages (21), green pepper seedlings are located in the grids, and the bottom air passages (21) are made of transparent silica gel hoses.

4. The temperature control net for growing seedlings of green peppers as claimed in claim 1, wherein the bottom net layer (2) has two layers in total, the two bottom net layers (2) are parallel to each other, the bottom net layer (2) is composed of criss-cross bottom air passages (21), grids are formed between the bottom air passages (21), green pepper seedlings are positioned in the grids, and the bottom air passages (21) are made of transparent silica gel hoses.

5. The temperature control net for growing seedlings of green peppers as claimed in claim 1, wherein the outer surface of the supporting column (3) is provided with external threads, the lower bottom surface of the supporting column is conical, the outer surface of the supporting column (3) is provided with a sleeve (31) in a rotating mode through threads, and the inner surface and the outer surface of the sleeve (31) are both provided with threads.

6. The green pepper seedling raising temperature control net according to claim 1, wherein the connecting piece (9) comprises a ring body (91), a groove (92), arc-shaped rods (93) and a cylinder (94), an internal thread is formed in the inner surface of the ring body (91) and is screwed to the outer surface of the sleeve (31) through the internal thread, two annular grooves (92) are formed in the outer surface of the ring body (91), the cross section of each groove (92) is T-shaped, the cylinder (94) is connected to the groove (92) in a sliding mode, the cylinder (94) is located at one end of each arc-shaped rod (93), the two arc-shaped rods (93) are connected through bolts in a locking mode, and the two arc-shaped rods (93) are sleeved on the top air passage (11) or the bottom air passage (21).

7. The temperature control net for growing seedlings of green peppers as claimed in claim 1, wherein the temperature sensor (10), the electromagnetic valve (8), the heater (6), the refrigerator (7) and the air pump (4) are all electrically connected with a PLC controller, wherein the type of the heater (6) is YTN-GD-B001, and the type of the refrigerator (7) is SAC-45.

8. The method for controlling the temperature of the temperature control net for growing the seedlings of green peppers as claimed in any one of claims 1 to 7, which is characterized by comprising the following steps of:

s101: the temperature detected by the temperature sensor (10) is lower than the temperature required by the growth of green pepper seedlings, and the gas input into the top net layer (1) and the bottom net layer (2) passes through the heater (6);

s102: and (3) introducing air into the bottom air passage (21), heating the air around the green pepper seedlings, introducing the air into the top air passage (11), and discharging the air from the air outlet holes (13).

9. The method for controlling the temperature of the temperature control net for growing the seedlings of green peppers according to claim 8, wherein the temperature detected by the temperature sensor (10) in S101 is higher than the temperature required by the growth of the seedlings of green peppers, and the gas input into the top net layer (1) and the bottom net layer (2) passes through the refrigerator (7).

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