CN214709419U - Pipeline hydroponic device capable of being adjusted in a telescopic mode according to density of vegetables - Google Patents

Abstract

The utility model discloses a can be according to flexible pipeline hydroponic device of adjusting of vegetables density condition relates to the farming field, including flexible base, the both sides of flexible base all are connected with the backup pad, are provided with between two backup pads and plant subassembly and temperature control subassembly, and the inside of two backup pads is provided with raceway and wet return respectively, and the top of flexible base is connected with the water tank. The utility model discloses a telescopic link, the support frame, a supporting seat, the support column, the expansion hose, first sleeve pipe and second sleeve pipe, the structure reduces the planting density of device area and increase crop under the closure state, conveniently plant the less crop of more volume and seedling, separately make flexible base extension length with two backup pads planting the great crop of volume with using force, the second sleeve pipe stretches out from first sleeve pipe simultaneously with increase device area and reduce planting density so that the great crop of volume absorbs light and grows, conveniently have more the vegetables density condition regulation so that plant.

Description

Pipeline hydroponic device capable of being adjusted in a telescopic mode according to density of vegetables

Technical Field

The utility model relates to an agricultural planting field specifically is a pipeline hydroponic device that can stretch out and draw back the regulation according to vegetables density condition.

Background

The water culture is a novel indoor soilless culture mode, and the plants cultivated by the mode are favored by consumers due to the advantages of cleanness, sanitation, environmental protection, no pollution and the like.

The inconvenient crop clearance with the regulation on the usually pipeline fixed stay board of current pipeline hydroponics device or the support frame, vegetables are crowded easily and influence crop illumination when the great vegetables of planting size, and then the crop clearance is too big when the less vegetables of planting size or seedling leads to the space to occupy too big, awkward, and inside water of pipeline and nutrient solution receive the temperature easily to influence when current pipeline hydroponics device is planted winter and freeze or the temperature degree reduces, thereby lead to the crop to lose the nutrient easily and die or the root system is frostbitten.

SUMMERY OF THE UTILITY MODEL

Based on this, the utility model aims at providing a pipeline hydroponics device that can stretch out and draw back the regulation according to the vegetables density condition to solve the inconvenient technical problem who adjusts the not convenient for plant in crop clearance and winter.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a can be according to flexible pipeline hydroponics device of adjusting of vegetables density condition, includes flexible base, the both sides of flexible base all are connected with the backup pad, two be provided with planting subassembly and temperature control component, two between the backup pad the inside of backup pad is provided with raceway and wet return respectively, the top of flexible base is connected with the water tank, the water pump is installed to one side of water tank, just the delivery end of water pump is connected with the raceway, the bottom of flexible base and backup pad all is connected with the universal wheel.

Through adopting above-mentioned technical scheme, plant the subassembly and use hard with two backup pads separately make flexible base extension length through the staff, the second sleeve pipe stretches out in order to increase device area and reduce crop planting density so that the great crop of volume absorbs light and grows from first sleeve pipe simultaneously, the temperature control assembly heats first heat pipe and second heat pipe respectively through first electric heating wire and second electric heating wire start-up back, prevent through first heat pipe and second heat pipe that water freezes and the temperature degree reduces with the temperature transfer to first sleeve pipe and second sleeve pipe inside.

Further, temperature control component is including the second protective housing who is located backup pad one side, the inner circle of second protective housing is connected with the second insulation cover, the inside of second insulation cover is provided with second temperature sensor and second bracing piece respectively, the one end of second bracing piece is connected with the second heat pipe, the internally mounted of second heat pipe has second electric heating wire, the inner circle of second insulation cover is connected with first protective housing, the inner circle of first protective housing is connected with first insulation cover, the inside of first insulation cover is provided with first bracing piece and first temperature sensor respectively, the one end of first bracing piece is connected with first heat pipe, the internally mounted of first heat pipe has first electric heating wire, the top of first protective housing runs through there is the water planting case.

By adopting the technical scheme, when planting in winter, a worker starts the first temperature sensor and the second temperature sensor through the control panel to detect the temperature, the first temperature sensor and the second temperature sensor detect the temperature in the pipeline after being started, when the first temperature sensor and the second temperature sensor detect that the temperature in the pipeline is too low, the first temperature sensor and the second temperature sensor send signals to the control panel, the control panel automatically starts the first electric heating wire and the second electric heating wire after receiving the signals, the first electric heating wire and the second electric heating wire respectively heat the first heat conduction pipe and the second heat conduction pipe after being started, the temperature is transmitted to the interior of the first sleeve and the second sleeve through the first heat conduction pipe and the second heat conduction pipe to prevent water from freezing and water temperature from reducing, and then the first temperature sensor and the second temperature sensor send signals to the control panel to close the first electric heating wire and the second electric heating wire after detecting that the temperature in the pipeline returns to normal state to reduce energy consumption, then, the clearance is increased by matching the first support rod and the second support rod through the first heat insulation sleeve and the second heat insulation sleeve, so that hot gas emission is reduced, the temperature retention time is prolonged, and the temperature control assembly circularly works to prevent water from being frozen or the water temperature from being reduced.

Further, the planting assembly comprises a support frame located above one side of the support plate, a telescopic hose connected to one end of the water return pipe, a limiting groove formed in the upper portion of the inner portion of the second heat-insulating sleeve, a limiting block connected to the top of the first heat-insulating sleeve, a first sleeve located in the first heat-conducting pipe inner ring and a second sleeve located in the second heat-conducting pipe inner ring, the top of the support frame is connected with a support seat, the top of the support seat is connected with a telescopic rod, one end of the telescopic rod is connected with a support column, the first sleeve is connected with a first anticorrosive coating, and the second sleeve is connected with a second anticorrosive coating.

Through adopting above-mentioned technical scheme, the structure reduces the planting density of device area and increase crop under the closure state, conveniently plant the less crop of more volume and seedling, plant the great crop staff of volume and use hard with two backup pads separately messenger's flexible base extension length, the second sleeve pipe stretches out in order to increase device area and reduce crop planting density so that the great crop of volume absorbs light to grow from first sleeve pipe simultaneously, later prevent through stopper and spacing groove cooperation that the second sleeve pipe breaks away from first sleeve pipe, the telescopic link rises when the device expandes and drives the support column and remove, cooperation support frame and supporting seat increase structural stability.

Furthermore, first bracing piece and second bracing piece all are provided with a plurality ofly, and are a plurality of first bracing piece and second bracing piece all are ring array form and distribute.

Through adopting above-mentioned technical scheme, increase the clearance in order to reduce steam and give off extension temperature retention time through first insulation cover and the cooperation of second insulation cover first bracing piece and second bracing piece, temperature control assembly circulation work prevents that water is frozen or the temperature reduces.

Furthermore, first protective housing and second insulation cover sliding connection, just first heat pipe and first insulation cover sliding connection.

Through adopting above-mentioned technical scheme, the staff uses hard and separately makes flexible base extension length with two backup pads, and the second sleeve pipe stretches out from first sleeve pipe simultaneously with increase device area and reduction crop planting density so that the great crop of volume absorbs light and grows, later prevents through stopper and spacing groove cooperation that the second sleeve pipe breaks away from first sleeve pipe.

Furthermore, the limiting block is connected with the limiting groove in a sliding mode.

Through adopting above-mentioned technical scheme, the staff uses hard and separately makes flexible base extension length with two backup pads, and the second sleeve pipe stretches out from first sleeve pipe simultaneously with increase device area and reduction crop planting density so that the great crop of volume absorbs light and grows, later prevents through stopper and spacing groove cooperation that the second sleeve pipe breaks away from first sleeve pipe.

Further, a control panel is installed to one side below of backup pad, just water pump, first electric heating wire, first temperature sensor, second electric heating wire and second temperature sensor all with control panel electric connection.

Through adopting above-mentioned technical scheme, the staff opens or closes water pump, first electric heating wire, first temperature sensor, second electric heating wire and second temperature sensor through control panel.

To sum up, the utility model discloses mainly have following beneficial effect:

1. the utility model discloses a telescopic link, the support frame, a supporting seat, the support column, the expansion hose, first sleeve pipe and second sleeve pipe, the structure reduces device area and increases the planting density of crop under the closed state, conveniently plant more less crop and seedling, use the strength to separate two backup pads at the great crop of planting volume and make the flexible base extend length, the second sleeve pipe stretches out from the first sleeve pipe simultaneously in order to increase device area and reduce the planting density so that the great crop of volume absorbs light to grow, the telescopic link rises when the device expandes and drives the support column to move, cooperate support frame and supporting seat to increase structural stability, conveniently adjust so that plant according to the vegetables density condition;

2. the utility model discloses a first insulation cover, first electric heating wire, first temperature sensor, first bracing piece and first heat pipe, detect the interior temperature of pipeline through temperature sensor at first, send a signal to control panel when temperature sensor detects the interior temperature of pipeline is too low, control panel receives the signal and then automatically opens first electric heating wire and second electric heating wire, first electric heating wire and second electric heating wire heat first heat pipe and second heat pipe respectively after starting, prevent water freezing and water temperature reduction through first heat pipe and second heat pipe with temperature transmission to the inside of first sleeve pipe and second sleeve pipe, after detecting that the interior temperature of pipeline resumes normally, temperature sensor sends a signal to control panel and closes first electric heating wire and second electric heating wire to reduce the power consumption, after reduce the hot gas through first insulation cover and second insulation cover and give off the extension temperature retention time, the crop can be conveniently planted in winter.

Drawings

Fig. 1 is a schematic sectional structure of the present invention;

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

FIG. 3 is a schematic side sectional view of a second sleeve of the present invention;

fig. 4 is a schematic structural view of a first protective housing of the present invention;

fig. 5 is an enlarged view of the structure at a in fig. 1 according to the present invention.

In the figure: 1. a telescopic base; 2. a support plate; 3. a water tank; 4. a water pump; 5. a water delivery pipe; 6. a water return pipe; 7. a control panel; 8. a planting assembly; 801. a telescopic rod; 802. a support frame; 803. a supporting seat; 804. a flexible hose; 805. a support pillar; 806. a first sleeve; 807. a first anticorrosive layer; 809. a limiting groove; 810. a second sleeve; 811. a second anticorrosive layer; 813. a limiting block; 9. a temperature control assembly; 901. a first protective housing; 902. a second protective housing; 903. a first heat preservation sleeve; 904. a first heat conductive pipe; 905. a first electric heating wire; 906. a first temperature sensor; 907. a second insulating sleeve; 908. a second heat conductive pipe; 909. a second electric heating wire; 910. a second temperature sensor; 911. a first support bar; 912. a second support bar; 10. a hydroponic tank; 11. a universal wheel.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

The following describes an embodiment of the present invention according to its overall structure.

A pipeline water culture device capable of being adjusted in a telescopic mode according to the density of vegetables is disclosed, and comprises a telescopic base 1, wherein supporting plates 2 are connected to two sides of the telescopic base 1, a planting component 8 and a temperature control component 9 are arranged between the two supporting plates 2, so that crops can be conveniently planted in winter and can be conveniently adjusted according to the density of vegetables, a water conveying pipe 5 and a water return pipe 6 are arranged inside the two supporting plates 2 respectively, a water tank 3 is connected to the top of the telescopic base 1, a water pump 4 is installed on one side of the water tank 3, the water outlet end of the water pump 4 is connected with the water conveying pipe 5, universal wheels 11 are connected to the bottoms of the telescopic base 1 and the supporting plates 2, a control panel 7 is installed below one side of the supporting plates 2, and the water pump 4, a first electric heating wire 905, a first temperature sensor 906, a second electric heating wire 909 and a second temperature sensor 910 are electrically connected with the control panel 7, the operator turns on or off the water pump 4, the first electric heating wire 905, the first temperature sensor 906, the second electric heating wire 909, and the second temperature sensor 910 through the control panel 7.

Referring to fig. 1 to 5, the temperature control assembly 9 includes a second protective housing 902 located at one side of the support plate 2, a second insulating sleeve 907 is connected to an inner ring of the second protective housing 902, a second temperature sensor 910 and a second support rod 912 are respectively disposed inside the second insulating sleeve 907, one end of the second support rod 912 is connected to a second heat pipe 908, a second electric heating wire 909 is mounted inside the second heat pipe 908, a first protective housing 901 is connected to an inner ring of the second insulating sleeve 907, a first insulating sleeve 903 is connected to an inner ring of the first protective housing 901, a first support rod 911 and a first temperature sensor 906 are respectively disposed inside the first insulating sleeve 903, one end of the first support rod 911 is connected to a first heat pipe 904, a first electric heating wire 905 is mounted inside the first heat pipe 904, a water culture tank 10 penetrates through a top of the first protective housing, a plurality of the first support rods 911 and a plurality of the second support rods 912 are disposed, and a plurality of first bracing pieces 911 and second bracing piece 912 all are the distribution of annular array form, first protective housing 901 and second insulation cover 907 sliding connection, and first heat pipe 904 and first insulation cover 903 sliding connection, the staff uses hard to part two backup pads 2 and makes flexible base 1 extension length, and second sleeve 810 stretches out in order to increase device area and reduce crop planting density so that the great crop of volume absorbs light to grow from first sleeve 806 simultaneously.

Referring to fig. 1-5, the planting assembly 8 includes a support frame 802 located above one side of the support plate 2, a flexible hose 804 connected to one end of the water return pipe 6, a limit groove 809 arranged above the inside of the second heat insulation sleeve 907, a limit block 813 connected to the top of the first heat insulation sleeve 903, a first sleeve 806 located inside the first heat conduction pipe 904, and a second sleeve 810 located inside the second heat conduction pipe 908, the top of the support frame 802 is connected with a support seat 803, the top of the support seat 803 is connected with a telescopic rod 801, one end of the telescopic rod 801 is connected with a support column 805, the inner ring of the first sleeve 806 is connected with a first anti-corrosion layer 807, the inner ring of the second sleeve 810 is connected with a second anti-corrosion layer 811, the limit block 813 is connected with the limit groove 809 in a sliding manner, the first electric heating wire 905 and the second electric heating wire 909 heat conduction pipe are started to heat the first heat conduction pipe 904 and the second heat conduction pipe 908 respectively, and the temperature is transferred to the inside of the first sleeve 806 and the second sleeve 810 through the first heat conduction pipe 904 and the second heat conduction pipe 908 to prevent water from freezing and prevent freezing The water temperature decreases.

The implementation principle of the embodiment is as follows: firstly, a worker puts crops into a water culture tank 10 and adds water or nutrient solution into a water tank 3, then the worker turns on a water pump 4 through a control panel 7, the water pump 4 pumps the water in the water tank 3 into a water conveying pipe 5 after being started, then the water conveying pipe 5 conveys the water into a first sleeve 806 and a second sleeve 810 to flow, meanwhile, a first anti-corrosion layer 807 and a second anti-corrosion layer 811 prevent the nutrient solution from corroding a pipeline when the nutrient solution flows circularly, then the water enters a telescopic hose 804 through a water return pipe 6 and flows back into the water tank 3, so that the water or the nutrient solution flows circularly, the floor area of the device is reduced and the planting density of the crops is increased under the closed state of the structure, the crops and seedlings with smaller volume are conveniently planted, when the crop worker needing to plant the crops with larger volume uses force to separate two support plates 2 to extend the length of a telescopic base 1, and simultaneously, the second sleeve 810 extends out of the first sleeve 806 to increase the floor area and reduce the planting density of the device so as to facilitate the body planting density of the crops The crops with larger volume absorb light to grow, then the second sleeve 810 is prevented from being separated from the first sleeve 806 by the matching of the limiting block 813 and the limiting groove 809, the expansion rod 801 is lengthened to drive the supporting column 805 to move when the device is unfolded, the structural stability is increased by the matching of the supporting frame 802 and the supporting seat 803, a worker starts the first temperature sensor 906 and the second temperature sensor 910 through the control panel 7 to detect the temperature when planting in winter, the first temperature sensor 906 and the second temperature sensor 910 detect the temperature in the pipeline after being started, a signal is sent to the control panel 7 when the first temperature sensor 906 and the second temperature sensor 910 detect that the temperature in the pipeline is too low, the control panel 7 automatically starts the first electric heating wire 905 and the second electric heating wire 909 after receiving the signal, the first electric heating wire 905 and the second electric heating wire 909 heat the first heat conduction pipe 904 and the second heat conduction pipe 908 respectively after being started, the temperature is transmitted to the inside of the first sleeve 806 and the second sleeve 810 through the first heat conduction pipe 904 and the second heat conduction pipe 908 to prevent water from freezing and water temperature from reducing, then the first temperature sensor 906 and the second temperature sensor 910 send signals to the control panel 7 to close the first electric heating wire 905 and the second electric heating wire 909 after detecting that the temperature in the pipeline is recovered to be normal, energy consumption is reduced, then the clearance is increased through the first heat insulation sleeve 903 and the second heat insulation sleeve 907 matched with the first support rod 911 and the second support rod 912 to reduce hot gas emission and prolong temperature retention time, and the temperature control assembly 9 works circularly to prevent water from freezing or water temperature from reducing.

Although embodiments of the present invention have been shown and described, it is intended that the present embodiments be illustrative only and not limiting to the invention, and that the particular features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples, and that modifications, substitutions, variations, and the like, which are not inventive in light of the above teachings, may be made to the embodiments by those skilled in the art without departing from the principles and spirit of the present invention, but are to be construed as broadly as the following claims.

Claims (7)

1. The utility model provides a can be according to flexible pipeline hydroponic device of adjusting of vegetables density condition, includes flexible base (1), its characterized in that: the utility model discloses a water pump, including flexible base (1), both sides all are connected with backup pad (2), two be provided with between backup pad (2) and plant subassembly (8) and temperature control component (9), two the inside of backup pad (2) is provided with raceway (5) and wet return (6) respectively, the top of flexible base (1) is connected with water tank (3), water pump (4) are installed to one side of water tank (3), just the play water end of water pump (4) is connected with raceway (5), the bottom of flexible base (1) and backup pad (2) all is connected with universal wheel (11).

2. The pipeline hydroponic device capable of being telescopically adjusted according to the density of vegetables as claimed in claim 1, wherein: the temperature control component (9) comprises a second protective shell (902) positioned on one side of the supporting plate (2), an inner ring of the second protective shell (902) is connected with a second heat-insulating sleeve (907), a second temperature sensor (910) and a second supporting rod (912) are respectively arranged inside the second heat-insulating sleeve (907), one end of the second supporting rod (912) is connected with a second heat-conducting pipe (908), a second electric heating wire (909) is installed inside the second heat-conducting pipe (908), an inner ring of the second heat-insulating sleeve (907) is connected with a first protective shell (901), an inner ring of the first protective shell (901) is connected with a first heat-insulating sleeve (903), a first supporting rod (911) and a first temperature sensor (906) are respectively arranged inside the first heat-insulating sleeve (903), one end of the first supporting rod (911) is connected with a first heat-conducting pipe (904), a first electric heating wire (905) is installed inside the first heat conduction pipe (904), and a water culture box (10) penetrates through the top of the first protective shell (901).

3. The pipeline hydroponic device capable of being telescopically adjusted according to the density of vegetables as claimed in claim 2, wherein: planting subassembly (8) including support frame (802) that is located backup pad (2) one side top, connect in flexible hose (804) of wet return (6) one end, set up spacing groove (809) of second insulation cover (907) inside top, connect in stopper (813) at first insulation cover (903) top, be located first sleeve pipe (806) of first heat pipe (904) inner circle and be located second sleeve pipe (810) of second heat pipe (908) inner circle, the top of support frame (802) is connected with supporting seat (803), the top of supporting seat (803) is connected with telescopic link (801), the one end of telescopic link (801) is connected with support column (805), the inner circle of first sleeve pipe (806) is connected with first anticorrosive coating (807), the inner circle of second sleeve pipe (810) is connected with second anticorrosive coating (811).

4. The pipeline hydroponic device capable of being telescopically adjusted according to the density of vegetables as claimed in claim 2, wherein: first bracing piece (911) and second bracing piece (912) all are provided with a plurality ofly, and are a plurality of first bracing piece (911) and second bracing piece (912) all are ring array form and distribute.

5. The pipeline hydroponic device capable of being telescopically adjusted according to the density of vegetables as claimed in claim 2, wherein: the first protective shell (901) is in sliding connection with the second heat-insulating sleeve (907), and the first heat-conducting pipe (904) is in sliding connection with the first heat-insulating sleeve (903).

6. The pipeline hydroponic device capable of being telescopically adjusted according to the density of vegetables as claimed in claim 3, wherein: the limiting block (813) is connected with the limiting groove (809) in a sliding mode.

7. The pipeline hydroponic device capable of being telescopically adjusted according to the density of vegetables as claimed in claim 2, wherein: control panel (7) are installed to one side below of backup pad (2), just water pump (4), first electric heating wire (905), first temperature sensor (906), second electric heating wire (909) and second temperature sensor (910) all with control panel (7) electric connection.

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