CN111386930A

CN111386930A - Energy-saving flower planting device

Info

Publication number: CN111386930A
Application number: CN202010417822.5A
Authority: CN
Inventors: 李芝
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-18
Filing date: 2020-05-18
Publication date: 2020-07-10

Abstract

The invention discloses an energy-saving flower planting device which comprises a base and a heat preservation shed arranged on the base, wherein a bearing plate and a partition plate are fixedly arranged in the base from top to bottom in sequence, a bearing plate is also arranged in the base in a sealing and sliding mode and is positioned between the bearing plate and the partition plate, a planting groove is formed in the middle of the bearing plate, a plurality of capillary tubes penetrate through the bottom wall of the planting groove, rectangular grooves are symmetrically formed in two sides of the bearing plate, electromagnetic coils are arranged in the two rectangular grooves, a heating sheet is arranged on the bottom wall of the base, an arc-shaped groove is formed in the heat preservation shed, and an elastic bag body is fixedly arranged at the top of the arc-shaped groove. The invention has less energy consumption and convenient maintenance, can automatically ventilate the greenhouse according to the temperature in the heat-preservation greenhouse, accelerates the reduction speed of the temperature in the greenhouse on the premise of ensuring the optimal growth temperature of flowers, and can also periodically replenish water for plants to meet the growth requirements of the plants.

Description

Energy-saving flower planting device

Technical Field

The invention relates to the technical field of garden planting devices, in particular to an energy-saving flower planting device.

Background

With the development of garden technology, ornamental flowers are more and more in variety, different types of flowers need different cultivation methods, and many flowers have harsh requirements on the environment, and the flowers are likely to die due to factors such as overheating, supercooling, no ventilation, no light and the like.

Flowers that cultivate in the heat preservation canopy have higher requirement to the temperature, consequently, the technical staff generally can use devices such as air conditioner, warm fan to keep the temperature stability in the canopy, but most flowers photosynthesis or breathing in-process, can consume the oxygen in the heat preservation canopy, lead to the accumulation of carbon dioxide, consequently technical staff often can regularly open heat preservation canopy one side, or open devices such as air-blower, scavenger fan, make inside and outside air exchange fast, but this kind of ventilation mode need consume a large amount of electric energy on the one hand, on the other hand can make some not cold-fast flowers frostbite, especially in cold weather, lead to flowers extremely easily and wither, or even die.

Therefore, an energy-saving flower planting device is provided.

Disclosure of Invention

The invention aims to solve the defects that a common ventilation means of a thermal insulation shed in the prior art needs to consume a large amount of electric energy and flowers are extremely likely to be frostbitten in cold weather, and provides an energy-saving flower planting device.

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

an energy-saving flower planting device comprises a base and a heat preservation shed arranged on the base, wherein a bearing plate and a partition plate are sequentially and fixedly arranged in the base from top to bottom, a bearing plate is also arranged in the base in a sealing and sliding manner and is positioned between the bearing plate and the partition plate, a planting groove is formed in the middle of the bearing plate, a plurality of capillary tubes are arranged on the bottom wall of the planting groove in a penetrating manner, rectangular grooves are symmetrically formed in two sides of the bearing plate, electromagnetic coils are arranged in the two rectangular grooves, and a heating sheet is arranged on the bottom wall of the base;

the utility model discloses a thermal insulation shed, including thermal insulation shed, arc wall, fixed elastic utricule that is equipped with in the thermal insulation shed, two permanent magnets have been placed to the top of arc wall is fixed, slide in the arc wall, and two permanent magnets are located the both sides of elastic utricule respectively, the bottom symmetry intercommunication of arc wall has two U-shaped pipes, and two U-shaped pipes all run through base, baffle in proper order, accept board and bearing plate and extend to the top of bearing plate, two detecting heads are installed to the symmetry on thermal insulation shed's the inside wall.

Preferably, a heat conducting liquid is filled between the partition plate and the base, a magnetic fluid is filled between the bearing plate and the partition plate, a culture liquid is filled between the bearing plate and the bearing plate, and a low-boiling-point evaporating liquid is filled in the elastic bag body.

Preferably, two the U-shaped pipe all includes vertical pipe portion and horizontal pipe portion, two the horizontal pipe portion of U-shaped pipe all is located between the inner diapire of base and the baffle lower surface, two U-shaped pipe all is equipped with the sealing washer with base, bearing plate, baffle, accept the board junction.

Preferably, the two detection heads are electrically connected with a power supply assembly, and the power supply assembly is electrically connected with the two electromagnetic coils through a time delay relay.

Preferably, the two permanent magnets are oriented in the same polarity.

The invention has the beneficial effects that:

1. the temperature rise in the thermal-insulation shed can make the permanent magnet follow the arc wall downstream to gas with in arc wall and the U-shaped pipe is discharged, and a large amount of carbon dioxide gas are taken away to the air in the disturbance thermal-insulation shed, with this photosynthesis that improves the plant, promote vegetation.

2. Under the effect of heating plate, heat-conducting liquid keeps the constant temperature, and the temperature is less than the ambient temperature in the thermal-insulation shed, consequently, can also reduce the temperature in the thermal-insulation shed from the air current of U-shaped pipe department exhaust, nevertheless can not make the temperature in the thermal-insulation shed obviously descend to make the planting environment more do benefit to the growth of flowers.

3. In the process of upward movement of the permanent magnet, air in the heat preservation shed can be sucked into the arc-shaped groove due to the action of negative pressure, so that the air in the heat preservation shed is disturbed again, and the ventilation effect and the ventilation time are improved.

4. The magnetic fluid does not show magnetism in the environment without a magnetic field, and the magnetic fluid shows magnetism on one hand and increases the specific gravity of the magnetic fluid on the other hand in the environment with the magnetic field, so that when the electromagnetic coil generates the magnetic field, the distance between the bearing plate and the partition plate is relatively increased, namely the bearing plate moves upwards, the capillary tube is inserted into the culture solution, and the purpose of periodically replenishing water for flowers is achieved.

5. In the process of ventilating in the heat preservation shed, the probe and the heating sheet are connected into the circuit for a long time, the power of the small probe is only a few watts generally, the energy consumption is very little, the base can play a heat preservation role on the heat conducting liquid, and the heat conducting liquid only needs to submerge part of the U-shaped pipe, so that the electric energy required for heating the heat conducting liquid is also very little, and compared with a ventilating device such as a blower, an electric fan and the like, the energy consumption of the ventilating device is obviously reduced.

In conclusion, the invention has the advantages of less energy consumption and convenient maintenance, can automatically ventilate the greenhouse according to the temperature in the heat-preservation greenhouse, quickens the speed of reducing the temperature in the greenhouse on the premise of ensuring the optimal growth temperature of flowers, and can periodically supplement water for plants to meet the growth requirements of the plants.

Drawings

FIG. 1 is a schematic structural view of an energy-saving flower planting device provided by the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

fig. 3 is an enlarged view of fig. 1 at B.

In the figure: 1 thermal insulation shed, 2 detecting heads, 3 bases, 4 bearing plates, 5 partition plates, 6 heating plates, 7 bearing plates, 8 electromagnetic coils, 9U-shaped pipes, 10 elastic bag bodies, 11 permanent magnets, 12 capillary tubes, 13 culture solution, 14 magnetic fluid and 15 heat conducting liquid.

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. 1-3, an energy-saving flower planting device comprises a base 3 and a heat preservation shed 1 installed on the base 3, wherein a bearing plate 4 and a partition plate 5 are fixedly installed in the base 3 from top to bottom in sequence, a bearing plate 7 is installed in the base 3 in a sealing and sliding manner, the bearing plate 7 is located between the bearing plate 4 and the partition plate 5, the base 3, the partition plate 5, the bearing plate 7 and the bearing plate 4 are parallel to each other, a planting groove is formed in the middle of the bearing plate 4, nutrient soil for planting flowers is filled in the planting groove, a plurality of capillary tubes 12 penetrate through the bottom wall of the planting groove, rectangular grooves are symmetrically formed in two sides of the bearing plate 4, electromagnetic coils 8 are installed in the two rectangular grooves, and a heating sheet 6 is arranged on the bottom wall of the base;

set up the arc wall in the greenhouse 1, the fixed elasticity utricule 10 that is equipped with in top of arc wall, sliding placement has two permanent magnets 11 in the arc wall, and two permanent magnets 11 are located the both sides of elasticity utricule 10 respectively, the bottom symmetry intercommunication of arc wall has two U-shaped pipes 9, and two U-shaped pipes 9 all run through base 3, baffle 5 in proper order, accept board 7 and bearing plate 4 and extend to the top of bearing plate 4, two detecting heads 2 are installed to the symmetry on the inside wall of greenhouse 1.

In the invention, a heat conducting liquid 15 is contained between a partition plate 5 and a base 3, a magnetic fluid 14 is contained between a bearing plate 7 and the partition plate 5, a culture solution 13 is contained between the bearing plate 7 and a bearing plate 4, a low-boiling-point evaporating solution is contained in an elastic bag body 10, the low-boiling-point evaporating solution is a solution with the boiling temperature of 25-30 ℃, and a certain gap is formed between a capillary tube 12 and the culture solution 13 in an initial state.

Two U-shaped pipes 9 all include vertical pipe portion and horizontal pipe portion, and the horizontal pipe portion of two U-shaped pipes 9 all is located heat conduction liquid 15, and two U-shaped pipes 9 all are equipped with the sealing washer with base 3, bearing plate 4, baffle 5, accept 7 junctions to guarantee the leakproofness of junction.

The two detection heads 2 are electrically connected with a power supply assembly, the power supply assembly is electrically connected with the two electromagnetic coils 8 through a time delay relay, and the heating plate 6 is also electrically connected with the power supply assembly.

The two permanent magnets 11 are oriented in the same polarity, with an attractive force between them.

When the heat-conducting bag is used, the two permanent magnets 11 are positioned at two sides of the elastic bag body 10, attraction force exists between the two permanent magnets 11, in an initial state, the two permanent magnets 11 are stagnated at the top of an arc-shaped groove in the heat-insulating bag by virtue of the attraction force, namely, the two permanent magnets are tightly attached to the elastic bag body 10, in the initial state, a certain gap is formed between the capillary tube 12 and the culture solution 13, and the heating sheet 6 is powered by the power supply assembly, so that the heat-conducting solution 15 is kept at a constant temperature, and the temperature range;

some energy released in the respiration action of plants such as flowers and the like is dissipated to the surrounding environment in the form of heat, so that the temperature in the heat preservation shed 1 gradually rises, because the elastic bag body 10 is filled with low-boiling-point evaporating liquid, and the evaporating temperature of the low-boiling-point evaporating liquid is between 25 ℃ and 30 ℃ (for most flowers, the heat preservation shed 1 is not needed when the environmental temperature is higher than 30 ℃), when the temperature in the heat preservation shed 1 rises, the low-boiling-point evaporating liquid quickly evaporates, so that the volume of the elastic bag body 10 is increased, the permanent magnets 11 are pushed to move towards two sides, the attraction force between the two permanent magnets 11 is weakened along with the increase of the distance, and finally, under the action of gravity, the two permanent magnets 11 move downwards along the arc-shaped grooves;

when the permanent magnet 11 moves downwards, the air in the arc-shaped groove is extruded into the U-shaped pipe 9, and the air in the arc-shaped groove and the U-shaped pipe 9 is discharged, so that the air in the heat preservation shed 1 is disturbed, a large amount of carbon dioxide gas is taken away, because the heat conducting liquid 15 keeps constant temperature under the action of the heating plate 6, the temperature is lower than the ambient temperature in the heat preservation shed 1, and the horizontal pipe part of the U-shaped pipe 9 is positioned in the heat conducting liquid 15, the temperature in the heat preservation shed 1 can be reduced by the air flow discharged from the U-shaped pipe 9, and the growth of flowers is facilitated;

when the permanent magnet 11 slides to the bottom of the arc-shaped groove, the probe 2 sends an electric signal to the delay relay after detecting the position of the permanent magnet 11, after a certain time (after the air flow drives the air to flow and the temperature in the thermal insulation shed 1 is reduced), the electromagnetic coil 8 is connected into the circuit, the current flowing through the electromagnetic coil 8 can excite a magnetic field, the magnetic field exerts repulsion force on the permanent magnet 11 to enable the permanent magnet to move upwards along the arc-shaped groove, the electromagnetic coil 8 can be disconnected with the circuit under the action of the relay after being electrified for a period of time, at the moment, the permanent magnet 11 is close to the elastic capsule 10, because the temperature in the thermal insulation shed 1 is reduced along with the exchange of air, the elastic capsule 10 can be restored to the original state, and the permanent magnet 11 can be stopped at the top;

in the process that the permanent magnet 11 moves upwards, air in the heat preservation shed 1 can be sucked into the arc-shaped groove due to the action of negative pressure, so that the air in the heat preservation shed is disturbed again, and the ventilation effect is improved;

it should be noted that, in order to push the permanent magnet 11 to move upward, the directions of the magnetic fields generated by the two electromagnetic coils 8 are opposite, and the distance between the two electromagnetic coils 8 is long, so that the magnetic fields generated by the electromagnetic coils 8 can be regarded as two magnetic fields which do not interfere with each other;

when the electromagnetic coil 8 is connected with a circuit, the magnetic field generated by the electromagnetic coil 8 also acts on the magnetic fluid 14 (the permanent magnet 11 is weak in magnetism and small in volume, and therefore the influence of the permanent magnet 11 on the magnetic fluid 14 is not considered), the magnetic fluid 14 does not show magnetism in the environment without the magnetic field, the magnetic fluid 14 shows magnetism on one hand and increases the specific gravity of the magnetic fluid on the other hand, so the bearing plate 7 moves upwards, the capillary tube 12 can extend into the culture solution 13 to periodically supplement water for flowers by utilizing the capillary effect, a water supplementing tube is further arranged in the base 3, the consumed culture solution 13 can be supplemented through the water supplementing tube, and when the plants do not need to supplement water, the supply of the culture solution 13 is cut off.

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. An energy-saving flower planting device comprises a base (3) and a heat preservation shed (1) installed on the base (3), and is characterized in that a bearing plate (4) and a partition plate (5) are fixedly installed in the base (3) from top to bottom in sequence, a bearing plate (7) is installed in the base (3) in a sealing and sliding mode, the bearing plate (7) is located between the bearing plate (4) and the partition plate (5), a planting groove is formed in the middle of the bearing plate (4), a plurality of capillary tubes (12) penetrate through the bottom wall of the planting groove, rectangular grooves are symmetrically formed in two sides of the bearing plate (4), electromagnetic coils (8) are installed in the two rectangular grooves, and heating sheets (6) are arranged on the bottom wall of the base (3);

the utility model discloses a thermal insulation shed, including thermal insulation shed (1), the arc wall has been seted up in thermal insulation shed (1), the fixed elasticity utricule (10) that is equipped with in top of arc wall, slidable placement has two permanent magnets (11) in the arc wall, and two permanent magnets (11) are located the both sides of elasticity utricule (10) respectively, the bottom symmetry intercommunication of arc wall has two U-shaped pipes (9), and just two U-shaped pipes (9) all run through base (3), baffle (5) in proper order, accept board (7) and bearing plate (4) and extend to the top of bearing plate (4), two detecting heads (2) are installed to the symmetry on the inside wall of thermal insulation shed (1).

2. An energy-saving flower planting device according to claim 1, wherein a heat conducting liquid (15) is filled between the partition plate (5) and the base (3), a magnetic fluid (14) is filled between the bearing plate (7) and the partition plate (5), a culture liquid (13) is filled between the bearing plate (7) and the bearing plate (4), and a low-boiling-point evaporating liquid is filled in the elastic bag body (10).

3. An energy-saving flower planting device as claimed in claim 2, characterized in that each of the two U-shaped pipes (9) comprises an upright pipe portion and a horizontal pipe portion, the horizontal pipe portions of the two U-shaped pipes (9) are located in the heat-conducting liquid (15), and sealing rings are arranged at the joints of the two U-shaped pipes (9) and the base (3), the bearing plate (4), the partition plate (5) and the bearing plate (7).

4. An energy-saving flower planting device as claimed in claim 1, characterized in that both of the detecting heads (2) are electrically connected with a power supply assembly, and the power supply assembly is electrically connected with the two electromagnetic coils (8) through a time delay relay.

5. An energy-saving flower planting device as claimed in claim 1, characterized in that the two permanent magnets (11) are oriented in the same polarity.