CN209983274U - Planting container with automatic irrigation function - Google Patents

Abstract

The utility model discloses an automatic planting container of irrigating, be equipped with planting space, water storage space and first water delivery passageway, water storage space and planting space's bottom switch-on, still be equipped with a kickboard in the water storage space, the export of first water delivery passageway down and with the switch-on of water storage space, still be equipped with an inlet unit and a seal part in the first water delivery passageway, the inlet unit is equipped with second water delivery passageway, the entry and the water supply installation switch-on of second water delivery passageway, the export and the first water delivery passageway switch-on of second water delivery passageway, kickboard and seal part inter link, the kickboard come-up drives the export of the sealed second water delivery passageway of seal part, the kickboard sinks to drive the export that second water delivery passageway was opened to the seal part. When the water level in the water storage space reaches a set position, the floating plate floats to drive the sealing component to plug the water outlet of the water inlet component, and when the water level in the water storage space is lower than the set position, the floating plate sinks to drive the sealing component to be opened from the water outlet of the water inlet component, so that automatic irrigation is realized.

Description

Planting container with automatic irrigation function

Technical Field

The utility model relates to a plant the field, concretely relates to automatic planting container of irrigating.

Background

The three-dimensional cultivation is also called vertical cultivation, and is three-dimensional soilless cultivation, and the cultivation is developed towards space through cylindrical cultivation with the periphery erected or layered cultivation in a form of building a frame and hanging according to vertical gradient under the condition of not influencing plane cultivation, so that the land utilization rate is improved by 3-5 times, and the yield per unit area can be improved by 2-3 times. The plant of three-dimensional cultivation plants in the container, and the vegetation in-process needs moisture, and the watering mode of three-dimensional cultivation generally is for planting the container and prepare hydraulic equipment or drip irrigation equipment at present, and the control mode generally is manual control mode or the automatic control mode based on moisture detects, adopts the manual control mode, and the naked eye is difficult to the accurate how much of judging the required moisture of plant, and need consume the manpower, adopts the automatic control mode based on moisture detects, need use sensor and solenoid valve etc. consume material resources and financial resources.

Disclosure of Invention

The utility model aims at providing an automatic planting container of irrigating uses manpower sparingly, material resources and financial resources.

In order to achieve the above object, the utility model adopts a technical scheme that: a planting container capable of automatically irrigating is provided with a planting space, the planting container is further provided with a water storage space and a first water delivery channel, a floating plate is further arranged in the water storage space, an outlet of the first water delivery channel faces downwards and is communicated with the water storage space, a water inlet component and a sealing component are further arranged in the first water delivery channel, the water inlet component is provided with a second water delivery channel, an inlet of the second water delivery channel is communicated with a water supply device, and an outlet of the second water delivery channel is communicated with the first water delivery channel;

the floating plate and the sealing part are mutually linked, the floating plate floats upwards to drive the sealing part to block the outlet of the second water delivery channel, and the floating plate sinks to drive the sealing part to open the outlet of the second water delivery channel.

In the above technical scheme, the outlet of the second water delivery channel faces upward, the sealing member is a sealing plate, the sealing plate is located above the outlet of the second water delivery channel, the floating plate is connected with the sealing plate through a traction rod, the floating plate floats upwards to drive the sealing plate to plug the outlet of the second water delivery channel downwards, and the floating plate sinks to drive the sealing plate to open the outlet of the second water delivery channel upwards.

In the technical scheme, the water inlet component comprises a water inlet section A and a water inlet section B which are arranged at an upper and lower interval distance, the water inlet section A and the water inlet section B are connected with a left water inlet section C and a right water inlet section C which are arranged at a left and right interval distance, an inlet of the second water delivery channel is communicated with the top of the water inlet section A, an outlet of the second water delivery channel is communicated with the top of the water inlet section B, the traction component comprises a traction section A, the lower end of the traction section A is connected with the floating plate, the upper end of the traction section A is connected with two traction sections B which are arranged at a front and rear interval distance, and the upper ends of the traction sections B are both connected with the sealing component.

In the above technical scheme, the outlet of the second water delivery channel faces downwards, the sealing part is a sealing plug, the sealing plug is located below the outlet of the second water delivery channel, the floating plate is connected with the sealing plug through a crank-link mechanism, the floating plate floats upwards to drive the sealing plug to plug the outlet of the second water delivery channel upwards, and the floating plate sinks to drive the sealing plug to open the outlet of the second water delivery channel downwards.

In the technical scheme, the outlet of the second water delivery channel faces the side and faces the side end of the floating plate, the sealing component is arranged on the sealing gasket at the side end of the floating plate, the floating plate floats upwards to drive the sealing gasket to just block the outlet of the second water delivery channel, and the floating plate sinks to drive the sealing gasket to be staggered with respect to the outlet of the second water delivery channel.

In the technical scheme, the floating plate is arranged in the water storage space in a lever type, and one side end of the floating plate floats upwards or sinks in the water storage space.

In the technical scheme, the planting space comprises a lower planting space, the lower planting space is arranged beside the water storage space, a first isolation component for forbidding planting matrix to pass is arranged between the lower planting space and the water storage space, and the first isolation component allows water to pass so that the water in the water storage space naturally flows into the lower planting space and/or a water diversion component is arranged between the lower planting space and the water storage space.

In the technical scheme, the planting space comprises an upper planting space, the upper planting space is arranged right above and/or laterally above the water storage space, a second isolation component for forbidding planting matrix to pass through is arranged between the upper planting space and the water storage space, and a water diversion component is arranged between the lower planting space and the water storage space.

The water diversion member is a member made of a material capable of absorbing and releasing water, and is, for example, a water diversion rope.

In the technical scheme, the planting container is further provided with a gas storage space and a gas transmission channel, and the gas transmission channel is communicated with the gas storage space to the outside.

In the above technical solution, the gas storage space is disposed above the water storage space and the gas storage space and the water storage space are communicated with each other, two ports of the gas transmission channel are respectively communicated with the gas storage space and the first water transmission channel, or two ports of the gas transmission channel are respectively communicated with the gas storage space and an anti-overflow channel, and at least one section of the anti-overflow channel extends upward.

The anti-overflow channel may be integrally formed with the planting container, or may be a tube structure separate from the planting container, such as an L-shaped tube.

Because of the application of the technical scheme, compared with the prior art, the utility model has the following advantages:

1) the utility model discloses an automatic planting container of irrigating through setting up the water storage space, sets up the kickboard in the water storage space, when the water level reaches the settlement position in the water storage space, the kickboard floats and drives the sealing member shutoff to intake the delivery port of part, when the water level is less than the settlement position in the water storage space, the kickboard sinks and drives the sealing member to open from the delivery port of the part of intaking, realize automatic irrigation;

2) the utility model discloses an automatic irrigation planting container, the sealing component is arranged into a sealing plate with more reliable sealing, the water outlet of the water inlet component faces upwards, and the sealing plate can overcome the resistance of water flow due to the reduction of resistance, thereby realizing the purpose of plugging and opening the water outlet of the water inlet component;

3) the utility model discloses an automatic irrigation planting container, the delivery port of the water inlet component is downward, the manufacture is easy, the sealing component is arranged as a sealing plug, and because the stressed area of the sealing plug is reduced, the sealing plug can overcome the resistance of water flow, thereby realizing the purpose of plugging and opening the delivery port of the water inlet component;

4) the utility model discloses an automatic irrigation planting container, the water outlet of the water inlet component faces to the floating plate on the side of the water inlet component, and the moving direction of the floating plate is not in the same direction with the water outlet direction, so that the purpose that the sealing gasket can overcome the resistance of water flow to further realize the purpose of plugging and opening the water outlet of the water inlet component is ensured;

5) the utility model discloses an automatic planting container of irrigating, gas transmission channel's both ends mouth communicates with gas storage space and first water delivery passageway respectively, when the container rocks and leads to the water in the water storage space to spill over from gas transmission channel, water can spill over to first water delivery channel and continue to circulate back to the water storage space, and this structure not only prevents that water from spilling over, but also fully and effectively utilized the current structure of container;

6) the utility model discloses an automatic planting container of irrigating, gas transmission channel's both ends mouth communicates with gas storage space and an anti-overflow channel respectively, and the anti-overflow channel is at least one section upwards to extend, rocks when the container leads to the water in the water storage space to spill over from gas transmission channel, and water can spill over to the anti-overflow channel in, because at least one section of the anti-overflow channel upwards extends, the possibility that water spills over is very little, places steady back when the container, and the water that spills over gets back to in the water storage space from gas transmission channel again.

Drawings

Fig. 1 is an external view of a planting container disclosed in the present invention;

fig. 2 is a cross-sectional view of a planting container of the present disclosure;

FIG. 3 is a schematic view showing the connection of the floating plate, the water inlet member and the sealing member according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of a disclosed water intake component in accordance with an embodiment of the present invention;

fig. 5 is a connection appearance diagram of the floating plate, the water inlet component and the sealing component disclosed in the third embodiment of the present invention;

FIG. 6 is an enlarged view of a portion of FIG. 5 at A;

fig. 7 is a sectional view of a planting container according to the sixth disclosure of the present invention.

Wherein:

1. planting containers; 101. planting space; 1011. a lower planting space; 1012. an upper planting space; 102. a water storage space; 103. a first water delivery channel; 104. a gas storage space; 105. a gas transmission channel;

2. a floating plate;

3. a water inlet component; 31. a water inlet section A; 32. a water inlet section B; 33. a water inlet section C; 301. a second water delivery channel;

4. a sealing member;

5. a draw bar; 51. a traction section A; 52. a traction section B;

6. a first isolation member;

7. a second isolation member;

8. a water diversion rope.

Detailed Description

The invention will be further described with reference to the accompanying drawings and examples:

example one

Referring to fig. 1 to 4, as shown in the drawings, an automatic irrigation planting container, which is provided with a planting space 101, the planting container is further provided with a water storage space 102 and a first water delivery channel 103, the water storage space 102 is communicated with the bottom of the planting space 101, a floating plate 2 is further arranged in the water storage space 102, an outlet of the first water delivery channel 103 faces downwards and is communicated with the water storage space 102, a water inlet component 3 and a sealing component 4 are further arranged in the first water delivery channel 103, the water inlet component 3 is provided with a second water delivery channel 301, an inlet of the second water delivery channel 301 is communicated with a water supply device, an outlet of the second water delivery channel 301 is communicated with the first water delivery channel 103, the floating plate 2 is mutually linked with the sealing component 4, the floating plate 2 floats upwards to drive the sealing component 4 to seal the outlet of the second water delivery channel 301, and the floating plate 2 sinks to drive the sealing component 4 to open the outlet of the second water delivery channel 301.

In a preferred embodiment, the outlet of the second water delivery channel 301 faces upward, the sealing member 4 is a sealing plate, the sealing plate is located above the outlet of the second water delivery channel 301, the floating plate 2 is connected with the sealing plate through a traction rod 5, the floating plate 2 floats upwards to drive the sealing plate to move downwards to seal the outlet of the second water delivery channel 301, and the floating plate 2 sinks to drive the sealing plate to move upwards to open the outlet of the second water delivery channel 301.

In a preferred embodiment, the water inlet component 3 comprises a water inlet section a31 and a water inlet section B32 which are arranged at an upper and lower interval, two water inlet sections C33 which are arranged at a left and right interval are connected between the water inlet section a31 and the water inlet section B32, an inlet of the second water delivery channel 301 is communicated with the top of the water inlet section a31, an outlet of the second water delivery channel 301 is communicated with the top of the water inlet section B32, the traction component 5 comprises a traction section a51, the lower end of the traction section a51 is connected with the floating plate 2, the upper end of the traction section a51 is connected with two traction sections B52 which are arranged at a front and rear interval, and the upper ends of the two traction sections B52 are both connected with the sealing component 4.

In a preferred embodiment, the floating plate 2 is provided in the water storage space 102 in a lever type, and one side end of the floating plate 2 floats up or sinks down in the water storage space 102.

In a preferred embodiment, the planting space 101 comprises a lower planting space 1011, the lower planting space 1011 is disposed beside the water storage space 102, and a first isolation member 6 is disposed between the lower planting space 1011 and the water storage space 102 for allowing moisture to pass and preventing the planting substrate from passing.

In a preferred embodiment, the planting space 101 comprises an upper planting space 1012, the upper planting space 102 is arranged right above and laterally above the water storage space 102, and a second isolation member 7 for prohibiting the planting base from passing through is arranged between the upper planting space and the water storage space 102.

In the above, the oxygen in the air storage space 104 enters the planting space 101 from the first separating member 6 beside it or enters the planting space 101 from the second separating member 7 on the upper side.

In a preferred embodiment, the planting container is further provided with an air storage space 104 and an air transmission channel 105, and the air transmission channel 105 communicates the air storage space 104 to the outside.

In a preferred embodiment, the air storage space 104 is disposed above the water storage space 102 and is communicated with the water storage space 102, and two ports of the air transmission channel 105 are respectively communicated with the air storage space 104 and the first water transmission channel 103.

When the water in the water storage space is insufficient and the floating plate does not reach the set position, the sealing plate is spaced from the outlet of the second water delivery channel, water in the water supply device sequentially enters the water storage space through the second water delivery channel and the first water delivery channel, the floating plate in the water storage space gradually floats upwards until the water storage space reaches the set position, at the moment, the sealing plate blocks the outlet of the second water delivery channel, and the water in the water supply device is stopped in the second water delivery channel.

Example two

The rest of the structure is the same as the first embodiment, except that the outlet of the second water delivery channel faces downwards, the sealing part is a sealing plug, the sealing plug is positioned below the outlet of the second water delivery channel, the floating plate is connected with the sealing plug through a crank-link mechanism, the floating plate floats upwards to drive the sealing plug to move upwards to seal the outlet of the second water delivery channel, and the floating plate sinks to drive the sealing plug to move downwards to open the outlet of the second water delivery channel.

When the water in the water storage space is insufficient and the floating plate does not reach the set position, the sealing plug is spaced from the outlet of the second water delivery channel, water in the water supply device sequentially enters the water storage space through the second water delivery channel and the first water delivery channel, the floating plate in the water storage space gradually floats upwards until the floating plate reaches the set position, at the moment, the sealing plug blocks the outlet of the second water delivery channel, and the water in the water supply device is stopped in the second water delivery channel.

EXAMPLE III

Referring to fig. 5 and 6, as shown in the drawings, the rest of the embodiments are the same as the first embodiment, except that the outlet of the second water delivery channel of the water inlet component 3 faces the side and the side end of the floating plate 2, the sealing component 4 is a sealing gasket arranged at the side end of the floating plate 2, the floating plate 2 floats upwards to drive the sealing gasket to be opposite to and block the outlet of the second water delivery channel, and the floating plate 2 sinks to drive the sealing gasket to be staggered with the outlet of the second water delivery channel.

When the water in the water storage space is insufficient and the floating plate does not reach the set position, the sealing gasket is staggered with the outlet of the second water delivery channel, the water in the water supply device sequentially enters the water storage space through the second water delivery channel and the first water delivery channel, the floating plate in the water storage space gradually floats upwards until the water storage space reaches the set position, at the moment, the sealing gasket is over against and seals the outlet of the second water delivery channel, and the water in the water supply device is stopped in the second water delivery channel.

Example four

The rest is the same as the first embodiment, except that the planting space only comprises the lower planting space.

EXAMPLE five

The other parts are the same as the first or fourth embodiment, and the difference is that a water diversion part is arranged between the lower planting space and the water storage space.

EXAMPLE six

Referring to fig. 7, as shown in the figure, the rest of the embodiments are the same as the first embodiment, except that the planting space only includes the upper planting space 1012, and a water diversion member is arranged between the upper planting space and the upper planting space, and the water diversion member is a water diversion rope 8.

EXAMPLE seven

The other embodiments are the same as any one of the first to sixth embodiments, except that two ports of the gas transmission channel are respectively communicated with the gas storage space and an anti-overflow channel, and at least one section of the anti-overflow channel extends upwards. The anti-overflow channel may be integrally formed with the planting container, or may be a tube structure separate from the planting container, such as an L-shaped tube.

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, and the invention is therefore not to be limited to the embodiments illustrated herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A planting container with automatic irrigation is provided with a planting space and is characterized in that the planting container is also provided with a water storage space and a first water delivery channel, a floating plate is further arranged in the water storage space, the outlet of the first water delivery channel faces downwards and is communicated with the water storage space, a water inlet component and a sealing component are further arranged in the first water delivery channel, the water inlet component is provided with a second water delivery channel, the inlet of the second water delivery channel is communicated with a water supply device, and the outlet of the second water delivery channel is communicated with the first water delivery channel;

the floating plate and the sealing part are mutually linked, the floating plate floats upwards to drive the sealing part to block the outlet of the second water delivery channel, and the floating plate sinks to drive the sealing part to open the outlet of the second water delivery channel.

2. The self-watering planting container according to claim 1, wherein the outlet of the second water delivery channel is directed upward, the sealing member is a sealing plate, the sealing plate is positioned above the outlet of the second water delivery channel, the floating plate is connected to the sealing plate by a traction rod, the floating plate floats upward to drive the sealing plate to move downward to block the outlet of the second water delivery channel, and the floating plate sinks to drive the sealing plate to move upward to open the outlet of the second water delivery channel.

3. The planting container according to claim 2, wherein the water inlet member comprises a water inlet section a and a water inlet section B which are spaced apart from each other in an up-down direction, two water inlet sections C which are spaced apart from each other in a left-right direction are connected between the water inlet section a and the water inlet section B, an inlet of the second water delivery passage is communicated with a top of the water inlet section a, an outlet of the second water delivery passage is communicated with a top of the water inlet section B, a traction member comprises a traction section a, a lower end of the traction section a is connected to the floating plate, two traction sections B which are spaced apart from each other in a front-back direction are connected to an upper end of the traction section a, and upper ends of both the two traction sections B are connected to the sealing member.

4. The planting container of claim 1, wherein the outlet of the second water delivery channel faces downward, the sealing member is a sealing plug, the sealing plug is located below the outlet of the second water delivery channel, the floating plate is connected with the sealing plug through a crank-link mechanism, the floating plate floats upward to drive the sealing plug to move upward to block the outlet of the second water delivery channel, and the floating plate sinks to drive the sealing plug to move downward to open the outlet of the second water delivery channel.

5. The planting container of claim 1, wherein the outlet of the second water delivery channel faces laterally and toward the side end of the floating plate, the sealing member is a gasket disposed at the side end of the floating plate, the floating plate floats upward to drive the gasket to block the outlet of the second water delivery channel, and the floating plate sinks to drive the gasket to stagger the outlet of the second water delivery channel.

6. The planting container as claimed in any one of claims 1 to 5, wherein the floating plate is provided in the water storage space in a lever type, and one side end of the floating plate floats up or sinks down in the water storage space.

7. The planting container as claimed in any one of claims 1 to 5, wherein the planting space comprises a lower planting space, the lower planting space is arranged beside the water storage space, a first isolation member for preventing the planting matrix from passing through is arranged between the lower planting space and the water storage space, and the first isolation member allows water to pass through so that the water in the water storage space naturally flows into the lower planting space and/or a water diversion member is arranged between the lower planting space and the water storage space.

8. The planting container of claim 7, wherein the planting space comprises an upper planting space which is arranged right above and/or laterally above the water storage space and between which a second isolation component for preventing planting matrixes from passing is arranged, and a water diversion component is arranged between the lower planting space and the water storage space.

9. The planting container of any one of claims 1 to 5, wherein the planting container is further provided with an air storage space and an air transmission channel, and the air transmission channel communicates the air storage space to the outside.

10. The planting container as claimed in claim 9, wherein the air storage space is disposed above the water storage space and is connected to the water storage space, two ports of the air transmission channel are respectively connected to the air storage space and the first water transmission channel, or two ports of the air transmission channel are respectively connected to the air storage space and an anti-overflow channel, and at least one section of the anti-overflow channel extends upward.

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