CN212138573U

CN212138573U - Quantitative feeding type vegetable planting and cultivating device

Info

Publication number: CN212138573U
Application number: CN201922195097.7U
Authority: CN
Inventors: 卢杰; 邱涛; 王维珏
Original assignee: Jiangsu Anghe Agricultural Technology Co ltd
Current assignee: Jiangsu Anghe Agricultural Technology Co ltd
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2020-12-15
Anticipated expiration: 2029-12-10

Abstract

The utility model relates to a dosing formula vegetable planting breeding device, include: the box body is externally provided with a liquid storage tank for containing nutrient solution, and the liquid storage tank is connected with a liquid adding pump; a plurality of planting grooves which are arranged in the box body along the vertical direction, wherein planting soil is arranged in the planting grooves; with the liquid feeding mechanism that various groove one-to-ones set up of planting set up, liquid feeding mechanism includes: the irrigation system comprises a liquid injection pipe, a liquid adding box, a siphon and an irrigation pipe, wherein the liquid adding box extends out of the pipe orifice of the siphon to be communicated with the irrigation pipe, and a plurality of drip irrigation holes are formed in the irrigation pipe. During the use, go into to the liquid feeding incasement with the nutrient solution pump through the liquid feeding pump, produce siphon through the siphon and flow nutrient solution to irrigation pipe in to drip irrigation hole slowly and drip irrigation on vegetables, and the siphon through the siphon carries out the liquid feeding to irrigation pipe, and the liquid feeding volume at every turn is quantitative, can drip irrigation the inslot planting through dripping irrigation the hole with the nutrient solution is even simultaneously, thereby makes the liquid feeding process more convenient, even.

Description

Quantitative feeding type vegetable planting and cultivating device

Technical Field

The utility model relates to a vegetable planting technical field, in particular to dosing formula vegetable planting breeding device.

Background

At present, environmental pollution such as water and soil pollution, pesticide residue, heavy metal exceed standard has serious influence to the quality of vegetables, and along with the urbanization degree is higher and higher simultaneously, land resource is also more and more, and a lot of urban residents can use the vegetable planting case to plant vegetables at balcony or indoor in order to eat green healthy vegetables. The current vegetable planting case needs the manual work at the in-process that uses and plants the case and add nutrient solution, wastes time and energy and the addition is inhomogeneous.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a dosing formula vegetable planting breeding device has the advantage that can conveniently, add the nutrient solution uniformly.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a dosing vegetable planting growing device comprising:

the box body is externally provided with a liquid storage tank for containing nutrient solution, and the liquid storage tank is connected with a liquid adding pump;

a plurality of planting grooves which are arranged in the box body along the vertical direction, wherein planting soil is arranged in the planting grooves;

with each liquid feeding mechanism that planting groove one-to-one set up, liquid feeding mechanism includes: with annotate the liquid pipe that the liquid outlet of liquid feeding pump links to each other, be fixed in the box just is located plant the liquid feeding case of groove top, set up and be in with siphon of liquid incasement and setting are in plant the groove top and follow plant the groove and lay the irrigation pipe that the direction extends, the mouth of pipe of siphon extends add the liquid case with the irrigation pipe is linked together, a plurality of drip irrigation holes have been seted up on the irrigation pipe.

When the technical scheme is used, vegetables are planted in the planting groove, nutrient solution is filled in the liquid storage tank, the nutrient solution is pumped out by the liquid filling pump and is filled into the liquid filling tank through the liquid filling pipe, as the siphon is arranged in the liquid filling tank, when the liquid level of the nutrient solution in the liquid filling tank is lower than that of the siphon, no siphon phenomenon occurs due to the existence of air in the siphon pipe, when the nutrient solution in the liquid filling tank does not pass through the siphon, the siphon is filled with the nutrient solution, the nutrient solution in the liquid filling tank can be forced to the siphon under the action of atmospheric pressure, as the siphon extends out of the liquid filling tank, namely, the water outlet of the siphon is lower than the liquid level of the liquid filling tank, so that pressure difference is generated, the nutrient solution flows into the irrigation pipe along the siphon pipe and is slowly dripped on the vegetables through the drip irrigation hole, and the liquid filling is carried out on the irrigation pipe through the siphon phenomenon of siphon, the liquid filling amount is quantitative each time, meanwhile, nutrient solution can be uniformly dripped into the planting groove through the drip irrigation holes, so that the liquid adding process is more convenient and uniform.

As a preferred aspect of the present invention, the siphon includes: the end part of the irrigation pipe is located on the drainage part above the bottom wall of the liquid adding tank, the liquid outlet part extending from the bottom of the liquid adding tank and the connecting part communicated with the drainage part and the liquid outlet part, and the irrigation pipe is fixed at the end part of the liquid outlet part.

As an optimal scheme of the utility model, the both sides of irrigation pipe are equipped with a plurality of extension pipes along the axis direction, drip irrigation hole equipartition and be in irrigation pipe with on the extension pipe.

The technical scheme is realized, and the irrigation range of the nutrient solution is larger through the extension pipe.

As a preferred scheme of the utility model, the drainage portion include with the communicating first drainage tube of connecting portion, slide cup joint in the second drainage tube and the threaded connection of first drainage tube are in first drainage tube just contradicts the first fastener of second drainage tube.

According to the technical scheme, the second drainage tube is sleeved on the first drainage tube in a sliding mode, so that the second drainage tube can stretch and move up and down along the first drainage tube, and the distance between the end of the drainage part and the bottom wall of the liquid adding box changes in the up-and-down sliding process; because the water level of liquid feeding incasement when dropping to the below of drainage portion tip, can flow in the air in the drainage portion promptly to siphonage can not take place, consequently will be detained in the liquid feeding case at the nutrient solution that is located drainage portion below, and the second drainage tube is detained the water level in the liquid feeding incasement after stretching out and drawing back from top to bottom and has just also taken place the change, thereby has just also taken place the change by the liquid measure that drainage portion flowed, has realized the change of irrigation liquid measure at every turn promptly.

As a preferred scheme of the utility model, go out liquid portion include with communicating first drain pipe of connecting portion, slip cup joint with the second drain pipe and the threaded connection of first drain pipe are in first drain pipe and conflict are in the second fastener of second drain pipe, the second drain pipe is fixed add on the diapire of liquid tank and with the irrigation pipe is linked together.

According to the technical scheme, the first liquid outlet pipe and the second liquid outlet pipe are in sliding sleeve connection, so that the first liquid outlet pipe can be moved up and down in a telescopic mode along the second liquid outlet pipe, when the first liquid outlet pipe moves up and down, the drainage part and the connecting part can be driven to move up and down simultaneously, and therefore the distance between the connecting part and the bottom wall of the liquid adding box is changed; because the liquid level in the liquid feeding case just can take place siphon phenomenon when being higher than connecting portion, the change of connecting portion height has changed the time that the nutrient solution in the liquid feeding case covers connecting portion promptly to the liquid measure of once irrigating has been changed.

As an optimized proposal of the utility model, the second liquid outlet pipe is communicated to the middle part of the irrigation pipe.

Realize above-mentioned technical scheme for nutrient solution evenly distributed that can be more quick is in the irrigation pipe.

As a preferred scheme of the utility model, the one end of irrigation pipe is equipped with the balanced trachea of upwards extending.

According to the technical scheme, the air pressure in the irrigation pipe and the siphon pipe can be balanced through the balance air pipe, and the siphon phenomenon is guaranteed.

As an optimized scheme of the utility model, correspond on the box respectively the top of planting the groove is equipped with a plurality of lights.

Realize above-mentioned technical scheme, can help vegetables to carry out photosynthesis through the light.

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

the embodiment of the utility model provides a through providing a dosing formula vegetable planting breeding device, include: the box body is externally provided with a liquid storage tank for containing nutrient solution, and the liquid storage tank is connected with a liquid adding pump; a plurality of planting grooves which are arranged in the box body along the vertical direction, wherein planting soil is arranged in the planting grooves; with each liquid feeding mechanism that planting groove one-to-one set up, liquid feeding mechanism includes: with annotate the liquid pipe that the liquid outlet of liquid feeding pump links to each other, be fixed in the box just is located plant the liquid feeding case of groove top, set up and be in with siphon of liquid incasement and setting are in plant the groove top and follow plant the groove and lay the irrigation pipe that the direction extends, the mouth of pipe of siphon extends add the liquid case with the irrigation pipe is linked together, a plurality of drip irrigation holes have been seted up on the irrigation pipe. When in use, vegetables are planted in the planting tank, nutrient solution is filled in the liquid storage tank, the nutrient solution is pumped out by the liquid adding pump and is injected into the liquid adding tank from the liquid injection pipe, because the siphon pipe is arranged in the liquid adding tank, when the liquid level of the nutrient solution in the liquid adding tank is lower than that of the siphon pipe, no siphon phenomenon occurs because of the existence of air in the siphon pipe, when the nutrient solution in the liquid adding tank does not pass through the siphon pipe, the siphon pipe is full of the nutrient solution, the nutrient solution in the liquid adding tank is forced to the siphon pipe under the action of atmospheric pressure, because the siphon pipe extends out of the liquid adding tank, namely, the water outlet of the siphon pipe is lower than the liquid level of the liquid adding tank, so that pressure difference is generated, the nutrient solution flows into the irrigation pipe along the siphon pipe and is slowly dripped on the vegetables through holes, and the siphon through the siphon of the siphon pipe is used for adding liquid, the liquid is quantitatively added in each, meanwhile, nutrient solution can be uniformly dripped into the planting groove through the drip irrigation holes, so that the liquid adding process is more convenient and uniform.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural view of an irrigation pipe in an embodiment of the present invention.

Fig. 3 is a schematic view of the connection structure of the liquid feeding tank and the siphon in the embodiment of the present invention.

The corresponding part names indicated by the numbers and letters in the drawings:

1. a box body; 11. a liquid storage tank; 12. a liquid adding pump; 13. an illuminating lamp; 2. planting grooves; 21. planting soil; 3. a liquid adding mechanism; 31. a liquid injection pipe; 32. a liquid adding tank; 33. a siphon tube; 331. a drainage part; 3311. a first draft tube; 3312. a second draft tube; 3313. a first fastener; 332. a liquid outlet part; 3321. a first liquid outlet pipe; 3322. a second liquid outlet pipe; 3323. a second fastener; 333. a connecting portion; 34. an irrigation pipe; 341. drip irrigation holes; 342. an extension pipe; 343. balancing the trachea.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Examples

A dosing vegetable growing device, as shown in fig. 1, comprising: the box body 1, the liquid storage tank 11 used for containing nutrient solution is arranged outside the box body 1, and the liquid storage tank 11 is connected with a liquid adding pump 12; a plurality of planting grooves 2 are vertically arranged in the box body 1, and planting soil 21 is arranged in the planting grooves 2; a plurality of liquid adding mechanisms 3 which are arranged corresponding to various planting grooves 2.

Specifically, liquid feeding mechanism 3 includes: annotate the liquid pipe 31 that links to each other with the liquid outlet of liquid feeding pump 12, be fixed in box 1 and be located the liquid feeding case 32 of planting groove 2 top, the siphon 33 of setting in liquid feeding case 32, and set up and plant groove 2 top and lay the irrigation pipe 34 that the direction extends along planting groove 2, the mouth of pipe of siphon 33 extends liquid feeding case 32 and is linked together with irrigation pipe 34, a plurality of drip irrigation holes have been seted up on irrigation pipe 34, the water inlet of liquid feeding pump 12 passes through the pipeline and links to each other with liquid reserve tank 11, the delivery port of liquid feeding pump 12 is connected with one and goes out the liquid and is responsible for, it is continuous with liquid main pipe to annotate liquid pipe 31 connection, thereby can pour into the nutrient solution into simultaneously to each notes liquid pipe.

The siphon tube 33 includes: a drainage part 331 with the end part positioned above the bottom wall of the liquid adding tank 32, a liquid outlet part 332 extending from the bottom of the liquid adding tank 32, and a connecting part 333 for communicating the drainage part 331 and the liquid outlet part 332, wherein the irrigation pipe 34 is fixed at the end part of the liquid outlet part 332.

Further, the drainage part 331 includes a first drainage tube 3311 communicated with the connecting part 333, a second drainage tube 3312 slidably sleeved on the first drainage tube 3311, and a first fastening member 3313 threadedly connected to the first drainage tube 3311 and abutting against the second drainage tube 3312, the first drainage tube 3311 is communicated with the connecting part 333, an end of the second drainage tube 3312 is located above a bottom wall of the liquid adding tank 32, the first drainage tube 3311 and the second drainage tube 3312 are both vertically arranged, and the first fastening member 3313 is a screw;

the second draft tube 3312 is slidably sleeved on the first draft tube 3311, so that the second draft tube 3312 can move up and down in a telescopic manner along the first draft tube 3311, and the distance between the end of the draft part 331 and the bottom wall of the liquid adding tank 32 changes in the up and down sliding process; because the water level in the liquid feeding box 32 drops to the below of the end of the drainage part 331, air flows into the drainage part 331, so that siphon phenomenon can not occur, nutrient solution below the drainage part 331 can be retained in the liquid feeding box 32, the water level retained in the liquid feeding box 32 after the second drainage tube 3312 stretches up and down is changed, the liquid amount flowing out from the drainage part 331 is changed, and the change of the irrigation liquid amount at each time is realized.

The liquid outlet part 332 comprises a first liquid outlet pipe 3321 communicated with the connecting part 333, a second liquid outlet pipe 3322 slidably sleeved with the first liquid outlet pipe 3321, and a second fastening piece 3323 in threaded connection with the first liquid outlet pipe 3321 and abutted against the second liquid outlet pipe 3322, the second liquid outlet pipe 3322 is fixed on the bottom wall of the liquid adding box 32 and communicated with the irrigation pipe 34, the connecting part 333 is horizontally arranged, the first liquid outlet pipe 3321 is communicated with the connecting part 333, the second liquid outlet pipe 3322 is fixed at the bottom of the liquid adding box 32 and extends out of the liquid adding box 32, the first liquid outlet pipe 3321 and the second liquid outlet pipe 3322 are both vertically arranged, and the second fastening piece 3323 adopts screws;

because the first liquid outlet pipe 3321 is in sliding sleeve connection with the second liquid outlet pipe 3322, the first liquid outlet pipe 3321 can be moved up and down along the second liquid outlet pipe 3322 in a telescopic manner, when the first liquid outlet pipe 3321 moves up and down, the drainage part 331 and the connecting part 333 are driven to move up and down simultaneously, and thus the distance between the connecting part 333 and the bottom wall of the liquid adding tank 32 is changed; since the siphon phenomenon can only occur when the liquid level in the liquid adding tank 32 is higher than the connecting part 333, the change of the height of the connecting part 333 changes the time for the nutrient solution in the liquid adding tank 32 to cover the connecting part 333, thereby changing the liquid volume for one-time irrigation.

Second drain pipe 3322 communicates to the middle part of irrigation pipe 34, thereby make nutrient solution evenly distributed that can be faster in irrigation pipe 34, irrigation pipe 34's both sides are equipped with a plurality of extension pipes 342 along the axis direction, drip irrigation the hole equipartition on irrigation pipe 34 and extension pipe 342, make the irrigation range of nutrient solution bigger through extension pipe 342, and irrigation pipe 34's one end is equipped with the balanced trachea 343 of upwards extending, can balance irrigation pipe 34 and siphon 33 internal gas pressure through balanced trachea 343, guarantee siphonage's emergence.

Further, the box body 1 is provided with a plurality of illuminating lamps 13 above the planting grooves 2, and the illuminating lamps 13 can help the vegetables to perform photosynthesis.

When in use, vegetables are planted in the planting groove 2, nutrient solution is filled in the liquid storage tank 11, the nutrient solution is pumped out by the liquid adding pump 12 and is filled into the liquid adding tank 32 from the liquid filling pipe 31, because the siphon pipe 33 is arranged in the liquid adding tank 32, when the liquid level of the nutrient solution in the liquid adding tank 32 is lower than that of the siphon pipe 33, no siphon phenomenon occurs because of the existence of air in the siphon pipe 33, when the nutrient solution in the liquid adding tank 32 is over the siphon pipe 33, the siphon pipe 33 is filled with the nutrient solution, the nutrient solution in the liquid adding tank 32 is forced to be pressed into the siphon pipe 33 under the action of atmospheric pressure, because the siphon pipe 33 extends out of the liquid adding tank 32, namely the water outlet of the siphon pipe 33 is lower than the liquid level of the liquid adding tank 32, so that pressure difference is generated, the nutrient solution flows into the irrigation pipe 34 along the siphon pipe 33 and is slowly dripped on the vegetables through the drip irrigation hole, and the irrigation pipe 34 is added with liquid through the siphon of, the liquid feeding quantity at every turn is quantitative, and the nutrient solution can be uniformly dripped into the planting groove 2 through the drip irrigation hole, so that the liquid feeding process is more convenient and uniform.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a dosing formula vegetable planting breeding device which characterized in that includes:

2. A dosed vegetable planting growing device as recited in claim 1, wherein the siphon tube comprises: the end part of the irrigation pipe is located on the drainage part above the bottom wall of the liquid adding tank, the liquid outlet part extending from the bottom of the liquid adding tank and the connecting part communicated with the drainage part and the liquid outlet part, and the irrigation pipe is fixed at the end part of the liquid outlet part.

3. A dosing vegetable cultivation device as claimed in claim 2, wherein the irrigation pipe is provided with a plurality of extension pipes on both sides along the axial direction, and the drip irrigation holes are evenly distributed on the irrigation pipe and the extension pipes.

4. A dosing type vegetable planting cultivation device as claimed in claim 3, wherein the drainage part comprises a first drainage tube communicating with the connection part, a second drainage tube slidably sleeved on the first drainage tube, and a first fastening member screwed on the first drainage tube and abutting on the second drainage tube.

5. A dosing type vegetable planting and cultivating device as claimed in claim 4, wherein the liquid outlet portion comprises a first liquid outlet pipe communicated with the connecting portion, a second liquid outlet pipe slidably sleeved with the first liquid outlet pipe, and a second fastening piece in threaded connection with the first liquid outlet pipe and abutted against the second liquid outlet pipe, and the second liquid outlet pipe is fixed on the bottom wall of the liquid adding box and communicated with the irrigation pipe.

6. A dosed vegetable plant growth apparatus as recited in claim 5, wherein the second drain conduit communicates to a middle portion of the irrigation conduit.

7. A dosed vegetable plant growth device as claimed in claim 3, wherein the irrigation tube is provided at one end with an upwardly extending balancing air tube.

8. A dosing vegetable cultivation device as claimed in claim 1, wherein a plurality of lighting lamps are provided on the box body above the planting troughs.