CN214676740U - Multifunctional gardening flowerpot - Google Patents

Abstract

The utility model discloses a multi-functional horticulture flowerpot, concretely relates to horticulture flowerpot technical field, including the flowerpot base, the top surface fixed mounting of flowerpot base has the U-shaped skeleton, and the inside fixed mounting of U-shaped skeleton has the liquid reserve tank that is fixed connection with the middle part of flowerpot base top surface, and the equal fixed mounting of outer wall of the flowerpot base left and right sides has three groups of bar layering flowerpot that distribute side by side equidistance, and the equal fixed mounting in bottom of every bar layering flowerpot inner chamber has humidity controller. The photovoltaic electroplax that the equidistance distributes side by side of a plurality of U-shaped bottom plate top surface mosaic installation all is electric connection through external cable and intelligent feed pump and humidity controller of connector, and in the device course of operation, the photovoltaic electroplax that the equidistance distributes side by side of a plurality of that utilizes the U-shaped bottom plate top surface mosaic installation absorbs the light energy and turns into electric energy and supplies with intelligent feed pump and humidity controller work needs, has improved clean energy's utilization ratio, has improved the feature of environmental protection of device.

Description

Multifunctional gardening flowerpot

Technical Field

The utility model relates to a horticulture flowerpot technical field, more specifically say, the utility model relates to a multi-functional horticulture flowerpot.

Background

Horticulture simply means a cultivation method for crops such as flowers, vegetables, fruit trees and the like; in particular to a technique related to the cultivation and breeding of vegetables, fruit trees, flowers, edible fungi, ornamental trees and the like, which is generally more elaborate; fruit tree gardening, vegetable gardening and ornamental gardening are correspondingly divided; the gardening flowerpot is a common flower planting carrier in ornamental horticulture.

Most of current horticulture flowerpot are the plastics basin body or the pottery basin body of uncovered cylindric structure, its simple structure, and the practicality is relatively poor, and uncovered setting up basin body structure and easily letting the moisture content in the flower planting soil scatter and disappear fast, this just leads to horticulture flowers to need artifical regularly watering, great increase horticulture flower planting's the degree of difficulty, reduced the practical value of horticulture flowers.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defect of prior art, the embodiment of the utility model provides a multi-functional horticulture flowerpot to solve the plastics basin body or the pottery basin body that present horticulture flowerpot is the uncovered cylindric structure, its simple structure, the practicality is relatively poor, and uncovered setting up the basin body structure and easily letting the moisture content in the flower planting soil scatter and disappear fast, this just leads to horticulture flowers to need artifical regular watering, great increase horticulture flower planting's the degree of difficulty, reduced the problem of horticulture flowers practical value.

In order to achieve the above object, the utility model provides a following technical scheme: a multifunctional gardening flowerpot comprises a flowerpot base, wherein a U-shaped framework is fixedly arranged on the top surface of the flowerpot base, a liquid storage tank fixedly connected with the middle part of the top surface of the flowerpot base is fixedly arranged in the U-shaped framework, three groups of strip-shaped layered flowerpots which are distributed in parallel and equidistantly are fixedly arranged on the outer walls of the left side and the right side of the flowerpot base, a humidity controller is fixedly arranged at the bottom of an inner cavity of each strip-shaped layered flowerpot, an intelligent liquid supply pump positioned in the U-shaped framework is fixedly arranged in the middle of the top surface of the liquid storage tank, a water inlet port at the bottom of the intelligent liquid supply pump is fixedly connected with a liquid supply pipe communicated with the inner cavity of the liquid storage tank, the water outlet ports of the left side and the right side of the intelligent liquid supply pump are respectively and fixedly connected with spraying pipes fixedly connected with the outer walls of the left side and the right side of the U-shaped framework, and a photovoltaic battery pack is fixedly mounted on the outer surface of the top of the U-shaped framework.

Preferably, the liquid storage tank is an integrally formed aluminum alloy tank body, the inner cavity of the liquid storage tank stores four fifths of the volume of the nutrient solution, and the front surface of the liquid storage tank is provided with a liquid injection valve port.

Preferably, the liquid feed pipe is including supplying the liquid straight tube, the bottom fixed mounting who supplies the liquid straight tube has the dop that absorbs water, the bottom laminating of dop that absorbs water in the middle part of liquid reserve tank inner chamber bottom surface, the dop side of absorbing water is seted up a plurality of evenly distributed's filtrate hole, the top that supplies the liquid straight tube runs through the top surface of liquid reserve tank with the port of intaking of intelligence liquid feed pump bottom is fixed connection.

Preferably, the spraying pipe includes the spraying return bend, the side fixed mounting of spraying return bend has the reposition of redundant personnel branch pipe that three equidistance of group distribute, every the equal fixed mounting in bottom of reposition of redundant personnel branch pipe has atomizer, the top of spraying return bend with the delivery port of intelligence feed pump is fixed connection, just atomizer with bar layering flowerpot is the one-to-one setting.

Preferably, the humidity controller includes dampproofing shell, the inside fixed mounting of dampproofing shell has the radio frequency transceiver, the top surface fixed mounting of dampproofing shell has and is located the humidity inductor of bar layering flowerpot inner chamber bottom, the humidity inductor passes through the radio frequency transceiver with intelligent liquid feed pump is wireless communication connection.

Preferably, the photovoltaic cell group includes the U-shaped bottom plate, the photovoltaic electroplax that a plurality of distributes equidistantly side by side is inlayed and is installed to the top surface of U-shaped bottom plate, the bottom surface of U-shaped bottom plate is inlayed and is installed and a plurality of the photovoltaic electroplax is electric connection's connector.

Preferably, the wire connector is electrically connected with the intelligent liquid supply pump and the humidity controller respectively through an external cable.

The utility model discloses a technological effect and advantage:

according to the scheme, the humidity sensor is in wireless communication connection with the intelligent liquid supply pump through the radio frequency transceiver, when the strip-shaped layered flowerpot is put into use, the humidity sensor is used for monitoring the humidity of soil inside the strip-shaped layered flowerpot in real time, when the humidity of the soil is reduced, the humidity sensor transmits a liquid supply signal to the intelligent liquid supply pump through the radio frequency transceiver, then the liquid supply straight pipe is matched with the spraying bent pipe to be matched with a plurality of uniformly distributed filter liquid holes formed in the side face of the water absorption chuck, the intelligent liquid supply pump extracts nutrient liquid inside the liquid storage box and transmits the nutrient liquid to the spraying bent pipe, and finally the spraying strip-shaped layered flowerpot with uniform distribution of a branch pipe and an atomization nozzle is matched with the spraying bent pipe, so that the situation that the soil inside the flowerpot is dry and the growth of flowers is influenced is avoided, and the practicability of the device is improved; the photovoltaic electroplax that the equidistance distributes side by side of a plurality of U-shaped bottom plate top surface mosaic installation all is electric connection through external cable and intelligent feed pump and humidity controller of connector, and in the device course of operation, the photovoltaic electroplax that the equidistance distributes side by side of a plurality of that utilizes the U-shaped bottom plate top surface mosaic installation absorbs the light energy and turns into electric energy and supplies with intelligent feed pump and humidity controller work needs, has improved clean energy's utilization ratio, has improved the feature of environmental protection of device.

Drawings

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

FIG. 2 is a schematic view of the humidity controller of the present invention;

FIG. 3 is a schematic view of the liquid supply tube of the present invention;

fig. 4 is a schematic view of a structure of the spraying pipe of the present invention;

fig. 5 is a schematic view of the structure of the photovoltaic cell set of the present invention.

The reference signs are: 1. a flowerpot base; 2. a U-shaped framework; 3. a liquid storage tank; 4. strip-shaped layered flowerpots; 5. a humidity controller; 6. an intelligent liquid supply pump; 7. a liquid supply tube; 8. spraying a pipe; 9. a photovoltaic cell group; 51. a moisture-proof housing; 52. a radio frequency transceiver; 53. a humidity sensor; 71. a liquid supply straight pipe; 72. a water suction chuck; 73. A filtrate well; 81. spraying a bent pipe; 82. a branch pipe; 83. an atomizing spray head; 91. a U-shaped bottom plate; 92. a photovoltaic panel; 93. a wire connector.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the accompanying drawings in the embodiments of the present invention are combined below to clearly and completely describe the technical solutions in the embodiments of the present invention, and obviously, 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 work belong to the protection scope of the present invention.

Referring to the attached drawings 1 to 5, an embodiment of the utility model provides a multifunctional gardening flowerpot, which comprises a flowerpot base 1, wherein the top surface of the flowerpot base 1 is fixedly provided with a U-shaped framework 2, the inside of the U-shaped framework 2 is fixedly provided with a liquid storage tank 3 fixedly connected with the middle part of the top surface of the flowerpot base 1, the outer walls of the left side and the right side of the flowerpot base 1 are fixedly provided with three groups of strip layered flowerpots 4 which are distributed in parallel and equidistantly, the bottom of the inner cavity of each strip layered flowerpot 4 is fixedly provided with a humidity controller 5, the middle part of the top surface of the liquid storage tank 3 is fixedly provided with an intelligent liquid supply pump 6 positioned inside the U-shaped framework 2, the water inlet port at the bottom of the intelligent liquid supply pump 6 is fixedly connected with a liquid supply pipe 7 communicated with the inner cavity of the liquid storage tank 3, the water outlet ports at the left side and the right side of the intelligent liquid supply pump 6 are respectively and fixedly connected with a spraying pipe 8 fixedly connected with the outer walls at the left side and the right side of the U-shaped framework 2, and a photovoltaic battery pack 9 is fixedly arranged on the outer surface of the top of the U-shaped framework 2.

As shown in attached figures 2, 3 and 4, the liquid storage tank 3 is an integrally formed aluminum alloy tank body, the inner cavity of the liquid storage tank 3 stores nutrient solution with four fifths of volume, and the front surface of the liquid storage tank 3 is provided with a liquid injection valve port; the liquid supply pipe 7 comprises a liquid supply straight pipe 71, the bottom end of the liquid supply straight pipe 71 is fixedly provided with a water absorption chuck 72, the bottom end of the water absorption chuck 72 is attached to the middle part of the bottom surface of the inner cavity of the liquid storage tank 3, the side surface of the water absorption chuck 72 is provided with a plurality of uniformly distributed filtrate holes 73, and the top end of the liquid supply straight pipe 71 penetrates through the top surface of the liquid storage tank 3 and is fixedly connected with a water inlet port at the bottom of the intelligent liquid supply pump 6; the spraying and applying pipe 8 comprises a spraying bent pipe 81, three groups of branch pipes 82 which are distributed equidistantly are fixedly arranged on the side surface of the spraying bent pipe 81, an atomizing nozzle 83 is fixedly arranged at the bottom end of each branch pipe 82, the top end of the spraying bent pipe 81 is fixedly connected with a water outlet port of the intelligent liquid supply pump 6, and the atomizing nozzles 83 and the strip-shaped layered flowerpots 4 are arranged in a one-to-one correspondence manner; humidity controller 5 includes dampproofing shell 51, and the inside fixed mounting of dampproofing shell 51 has radio frequency transceiver 52, and the top surface fixed mounting of dampproofing shell 51 has the humidity inductor 53 that is located bar layering flowerpot 4 inner chamber bottom, and humidity inductor 53 passes through radio frequency transceiver 52 and is wireless communication connection with intelligent feed pump 6.

Specifically, humidity inductor 53 is wireless communication connection through radio frequency transceiver 52 and intelligent liquid feed pump 6, when strip layering flowerpot 4 drops into use, utilize humidity inductor 53 real-time supervision strip layering flowerpot 4 inside soil humidity, when soil humidity reduces, humidity inductor 53 passes through radio frequency transceiver 52 to intelligent liquid feed pump 6 transmission confession liquid signal, a plurality of evenly distributed's filtrate hole 73 that the rethread confession liquid straight tube 71 cooperation spraying return bend 81 cooperation dop 72 side was seted up, let intelligent liquid feed pump 6 extract the inside nutrient solution of liquid reserve tank 3 and deliver to spraying return bend 81, at last through spraying return bend 81 cooperation reposition of redundant personnel branch pipe 82 and the even sprinkling irrigation strip layering flowerpot 4 of atomizer 83, the dry growth that influences flowers of the inside soil of flowerpot has been avoided, the practicality of device has been improved.

As shown in fig. 5, the photovoltaic cell group 9 includes a U-shaped bottom plate 91, a plurality of photovoltaic panels 92 arranged side by side and equidistantly are mounted on the top surface of the U-shaped bottom plate 91 in an embedded manner, and a wire connector 93 electrically connected with the plurality of photovoltaic panels 92 is mounted on the bottom surface of the U-shaped bottom plate 91 in an embedded manner; the wire connector 93 is electrically connected with the intelligent liquid supply pump 6 and the humidity controller 5 through an external cable.

Specifically, the photovoltaic electroplax 92 that a plurality of equidistance side by side that U-shaped bottom plate 91 top surface was inlayed the installation all is electric connection through connector 93's external cable and intelligent feed pump 6 and humidity controller 5, in the device course of operation, the photovoltaic electroplax 92 that a plurality of equidistance side by side that utilizes U-shaped bottom plate 91 top surface to inlay the installation absorbs light energy and turns into electric energy and supplies with intelligent feed pump 6 and humidity controller 5 work needs, the utilization ratio of clean energy has been improved, the feature of environmental protection of device has been improved.

The working process of the utility model is as follows:

the humidity sensor 53 is in wireless communication connection with the intelligent liquid supply pump 6 through the radio frequency transceiver 52, when the strip-shaped layered flowerpot 4 is put into use, the humidity sensor 53 is used for monitoring the humidity of the soil inside the strip-shaped layered flowerpot 4 in real time, when the humidity of the soil is reduced, the humidity sensor 53 transmits a liquid supply signal to the intelligent liquid supply pump 6 through the radio frequency transceiver 52, then the liquid supply straight pipe 71 is matched with the spraying bent pipe 81 and matched with the plurality of uniformly distributed filter liquid holes 73 formed in the side surface of the water suction chuck 72, the intelligent liquid supply pump 6 extracts nutrient liquid inside the liquid storage tank 3 and transmits the nutrient liquid to the spraying bent pipe 81, and finally the spraying bent pipe 81 is matched with the shunting branch pipe 82 and the atomizing spray nozzle 83 to uniformly spray the strip-shaped layered flowerpot 4, so that the drying of the soil inside the flowerpot is prevented from affecting the growth of flowers, and the practicability of the device is improved;

the photovoltaic electroplax 92 that the installation was inlayed to U-shaped bottom plate 91 top surface a plurality of equidistance distribution side by side all is electric connection with intelligent feed pump 6 and humidity controller 5 through the external cable of connector 93, in the device course of operation, the photovoltaic electroplax 92 that the installation was inlayed to U-shaped bottom plate 91 top surface a plurality of equidistance distribution side by side absorbs light energy and turns into electric energy and supplies with intelligent feed pump 6 and humidity controller 5 work needs, the utilization ratio of clean energy has been improved, the feature of environmental protection of device has been improved.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A multifunctional gardening flowerpot comprises a flowerpot base (1), wherein a U-shaped framework (2) is fixedly installed on the top surface of the flowerpot base (1), the flowerpot base is characterized in that a liquid storage box (3) fixedly connected with the middle of the top surface of the flowerpot base (1) is fixedly installed inside the U-shaped framework (2), three groups of strip layered flowerpots (4) distributed in parallel and at equal intervals are fixedly installed on the outer wall of the left side and the right side of the flowerpot base (1), a humidity controller (5) is fixedly installed at the bottom of an inner cavity of each strip layered flowerpot (4), an intelligent liquid supply pump (6) located inside the U-shaped framework (2) is fixedly installed in the middle of the top surface of the liquid storage box (3), a water inlet port at the bottom of the intelligent liquid supply pump (6) is fixedly connected with a liquid supply pipe (7) communicated with the inner cavity of the liquid storage box (3), the water outlet ports on the left side and the right side of the intelligent liquid supply pump (6) are respectively and fixedly connected with spraying pipes (8) fixedly connected with the outer walls on the left side and the right side of the U-shaped framework (2), and photovoltaic battery packs (9) are fixedly mounted on the outer surfaces of the tops of the U-shaped framework (2).

2. A multi-functional horticultural flower pot in accordance with claim 1, characterised in that the liquid storage tank (3) is an integrally formed aluminium alloy tank body, the inner cavity of the liquid storage tank (3) stores therein a nutrient solution of which the volume is four fifths, and the front face of the liquid storage tank (3) is provided with a liquid filling valve port.

3. The multifunctional gardening flowerpot according to claim 1, wherein the liquid supply pipe (7) comprises a liquid supply straight pipe (71), a water suction chuck (72) is fixedly installed at the bottom end of the liquid supply straight pipe (71), the bottom end of the water suction chuck (72) is attached to the middle of the bottom surface of the inner cavity of the liquid storage box (3), a plurality of uniformly distributed filtrate holes (73) are formed in the side surface of the water suction chuck (72), and the top end of the liquid supply straight pipe (71) penetrates through the top surface of the liquid storage box (3) and is fixedly connected with a water inlet port at the bottom of the intelligent liquid supply pump (6).

4. The multifunctional gardening flowerpot according to claim 1, wherein the spraying pipe (8) comprises a spraying elbow pipe (81), three groups of branch pipes (82) distributed at equal intervals are fixedly installed on the side surface of the spraying elbow pipe (81), an atomizing nozzle (83) is fixedly installed at the bottom end of each branch pipe (82), the top end of the spraying elbow pipe (81) is fixedly connected with the water outlet port of the intelligent liquid supply pump (6), and the atomizing nozzle (83) and the strip-shaped layered flowerpot (4) are arranged in a one-to-one correspondence manner.

5. A multi-functional horticultural flower pot in accordance with claim 1, characterized in that the humidity controller (5) comprises a moisture-proof housing (51), a radio-frequency transceiver (52) is fixedly installed inside the moisture-proof housing (51), a humidity sensor (53) located at the bottom of the inner cavity of the strip-shaped layered flower pot (4) is fixedly installed on the top surface of the moisture-proof housing (51), and the humidity sensor (53) is connected with the intelligent fluid-supply pump (6) through the radio-frequency transceiver (52) in a wireless communication manner.

6. The multi-functional horticultural flowerpot according to claim 1, wherein the photovoltaic cell set (9) comprises a U-shaped bottom plate (91), a plurality of photovoltaic panels (92) which are equidistantly arranged side by side are mounted on the top surface of the U-shaped bottom plate (91) in an embedded manner, and a wire connector (93) which is electrically connected with the plurality of photovoltaic panels (92) is mounted on the bottom surface of the U-shaped bottom plate (91) in an embedded manner.

7. The multi-functional horticultural flowerpot according to claim 6, wherein the wire connector (93) is electrically connected to the intelligent fluid supply pump (6) and the humidity controller (5) through external cables, respectively.

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