CN108633709B

CN108633709B - Ecological system is planted to indoor plant intelligence based on supersound liquid level sensing detects

Info

Publication number: CN108633709B
Application number: CN201810456175.1A
Authority: CN
Inventors: 刘美君
Original assignee: Qingyuan Starter Intelligent Technology Co Ltd
Current assignee: Qingyuan Starter Intelligent Technology Co Ltd
Priority date: 2018-05-14
Filing date: 2018-05-14
Publication date: 2020-04-10
Anticipated expiration: 2038-05-14
Also published as: CN108633709A

Abstract

The invention discloses an indoor plant intelligent planting ecological system based on ultrasonic liquid level sensing detection, which comprises a base, a liquid storage mechanism and a light supplementing spray head, wherein the base comprises a lower shell and a connecting rod; a mixing box, a water pump, a controller and a storage battery are arranged in the inner cavity of the lower shell; the lower shell is provided with a connecting pipe which is communicated with the mixing box through an electromagnetic valve, and the mixing box is connected with the water pump; the liquid storage mechanism comprises a plurality of fan-shaped tank bodies connected with the connecting rods; the light supplementing nozzle comprises a nozzle body and a light supplementing lamp. The indoor plant intelligent planting ecosystem based on ultrasonic liquid level sensing detection is reasonable in structure, has the advantages of being simple in structure, convenient to use, multifunctional, high in intelligent degree and the like, and effectively solves the problem that traditional automatic watering equipment is single in function.

Description

Ecological system is planted to indoor plant intelligence based on supersound liquid level sensing detects

Technical Field

The invention relates to the field of intelligent home furnishing, in particular to an indoor plant intelligent planting ecosystem based on ultrasonic liquid level sensing detection.

Background

In recent years, potted plants become new pets of people, the shadows of green plants cannot be kept in families, offices, hotels or other places, but with the work of people busy day by day, the green plants are only taken care of for a limited time, and the green plants can die due to carelessness. In order to solve the problem, equipment capable of automatically watering green plants in a timed and quantitative mode appears in the prior art, but the equipment is single in function and low in intelligence degree, cannot perform intelligent operation according to the soil environment of the green plants, and cannot supplement illumination for the green plants.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the problems existing in the prior art, the intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection is provided, is reasonable in structure, has the advantages of being simple in structure, convenient to use, various in function, high in intelligent degree and the like, and effectively solves the problem that the traditional automatic watering equipment is single in function.

The technical scheme adopted by the invention for solving the technical problems is as follows: an indoor plant intelligent planting ecological system based on ultrasonic liquid level sensing detection comprises a base, a liquid storage mechanism and a light supplementing spray head, wherein the base comprises a cylindrical lower shell with a hollow structure and a connecting rod; a mixing box, a water pump, a controller and a storage battery are arranged in the inner cavity of the lower shell; the connecting rod is vertically arranged, the lower end of the connecting rod extends into the inner cavity of the lower shell and is communicated with the inner cavity of the mixing box, and a plurality of sliding rails with T-shaped structures are uniformly and vertically arranged on the side surface of the connecting rod;

a plurality of connecting pipes are uniformly and circumferentially arranged on the lower shell around the connecting rod, and the upper ends of the connecting pipes extend out of the lower shell; the connecting pipe is communicated with the mixing box through an electromagnetic valve, and the mixing box is connected with the water pump; the electromagnetic valve and the water pump are respectively and electrically connected with the controller;

the liquid storage mechanism comprises a plurality of fan-shaped tank bodies; the fan-shaped tank body is vertically provided with a T-shaped sliding groove, and the sliding rail is clamped into the sliding groove and is mutually connected with the sliding groove in a sliding manner; the upper end of the fan-shaped tank body is provided with a water filling port, and the lower end of the fan-shaped tank body is provided with a connector which is mutually connected with the upper end of the connecting pipe;

the connector comprises a connector shell, a sleeve and a first pressing plate; the connector shell penetrates through the fan-shaped tank body and is mutually connected with the fan-shaped tank body, the sleeve is mutually sleeved with the connector shell and is mutually connected with the connector shell in a sliding manner, the upper end of the sleeve is provided with a second pressing plate and a first through hole communicated with the inner cavity of the second pressing plate, the connector shell is provided with a groove matched with the second pressing plate, and the lower end of the sleeve is mutually connected with the first pressing plate arranged in the inner cavity of the connector shell in a threaded manner;

the light supplementing nozzle comprises a nozzle body and a light supplementing lamp; the inner cavity of the spray head body is divided into a first cavity and a second cavity, a telescopic rod, an illumination sensor and a sensor group are arranged in the first cavity, the detection end of the sensor group is arranged on a plug board inserted into soil, an ultrasonic transducer is arranged in the inner cavity of the second cavity, and a plurality of water outlet holes are formed in the side wall of the second cavity; the light filling lamp inner chamber in be provided with the LED lamp, and the light filling lamp passes through telescopic link and shower nozzle body inner chamber interconnect.

Further, the electromagnetic valve is a normally closed electromagnetic valve.

Furthermore, an ultrasonic liquid level sensor is arranged on the outer surface of the mixing box.

Further, the lower shell is further provided with an upper shell, the upper shell is sleeved with the liquid storage mechanism, and the upper shell is further in threaded connection with the connecting rod through a connecting column with a second through hole.

Further, the slide rail and the connecting rod are of an integrated structure.

Furthermore, a round handle for conveniently adjusting the height of the light supplementing lamp is arranged on the light supplementing lamp.

Furthermore, the water pump is connected with the second cavity through a liquid conveying pipe.

Furthermore, the controller is respectively and electrically connected with the LED lamp, the illumination sensor, the sensor group and the ultrasonic transducer through spring wires sleeved on the infusion tube.

Furthermore, the upper end of the connecting pipe is mutually abutted with the first pressing plate to eject the second pressing plate and the first through hole out of the connector shell, and the second pressing plate and the first through hole are respectively retracted into the groove and the connector shell under the action of gravity of the first pressing plate when the connecting pipe is separated from the first pressing plate.

The invention has the beneficial effects that: an indoor plant intelligent planting ecological system based on ultrasonic liquid level sensing detection comprises a base, a liquid storage mechanism and a light supplementing sprayer, wherein the liquid storage mechanism is composed of a plurality of fan-shaped tank bodies, water, liquid fertilizer, herbicide aqueous solution, pesticide aqueous solution and the like can be stored in the fan-shaped tank bodies, green plants are watered, fertilized and the like according to soil data detected by a sensor on the light supplementing sprayer, weeding and insect killing operations can be carried out in a dropper or atomization mode at regular time, in addition, an LED lamp on the light supplementing sprayer can supplement light for the green plants according to the illumination condition, and the growth of the green plants is promoted; its is rational in infrastructure, has advantages such as simple structure, convenient to use, the function is various, intelligent degree height, effectively solves the problem of traditional automatic watering equipment function singleness.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the appearance structure of a base and a liquid storage mechanism of an intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection, according to the invention;

FIG. 2 is a schematic diagram of an appearance structure of a light supplementing sprayer of an intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection;

FIG. 3 is a schematic diagram of the appearance structure of a base of the intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection, according to the invention;

FIG. 4 is a schematic view of the internal structure of a base of an intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection according to the invention;

FIG. 5 is a schematic structural diagram of an upper shell of an intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection, according to the invention;

FIG. 6 is a schematic structural diagram of a fan-shaped tank of an intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection, according to the invention;

FIG. 7 is a schematic structural diagram of a connector of an intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection, according to the invention;

fig. 8 is a schematic view of the internal structure of a light supplementing sprayer of an intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection.

The scores in the figures are as follows: 1. the device comprises a base, 11, a lower shell, 12, an upper shell, 1161, an infusion tube, 1171, a spring wire, 111, a connecting rod, 112, a sliding rail, 113, a connecting tube, 114, a mixing box, 115, an electromagnetic valve, 116, a water pump, 117, a controller, 118, a storage battery, 119, an ultrasonic liquid level sensor, 121, a connecting column, 122, a second through hole, 2, a liquid storage mechanism, 21, a fan-shaped tank body, 22, a water filling port, 23, a sliding chute, 24, a connector, 241, a groove, 242, a connector shell, 25, a sleeve, 26, a first pressing plate, 27, a second pressing plate, 28, a first through hole, 3, a light filling nozzle, 31, a nozzle body, 32, a light filling lamp, 33, an inserting plate, 321, a round handle, 314, a light sensor, 316, a water outlet, 311, a first cavity, 312, a second cavity, 322, an LED lamp, 313, a telescopic rod, 314, a light sensor, 315, a sensor group, An ultrasonic transducer.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1, fig. 2 and fig. 3, the intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection comprises a base 1, a liquid storage mechanism 2 and a light supplementing nozzle 3, wherein the base 1 comprises a lower cylindrical shell 11 with a hollow structure and a connecting rod 111.

As shown in fig. 3 and 4, a mixing tank 114, a water pump 116, a controller 117 and a storage battery 118 are arranged in the inner cavity of the lower shell 11; the connecting rod 111 is a hollow tube which is vertically arranged, the lower end of the connecting rod 111 extends into the inner cavity of the lower shell 11 and is communicated with the inner cavity of the mixing box 114, the connecting rod is used for exhausting gas when liquid is injected into the inner cavity of the mixing box 114, and a plurality of sliding rails 112 with T-shaped structures are uniformly and vertically arranged on the side surface of the connecting rod 111;

a plurality of hard connecting pipes 113 are uniformly and circumferentially arranged on the lower shell 11 around the connecting rod 111, and the upper ends of the connecting pipes 113 extend out of the lower shell 11; the connection pipe 113 is communicated with a mixing tank 114 through a solenoid valve 115, and the mixing tank 114 is connected with a water pump 116; the electromagnetic valve 115 and the water pump 116 are electrically connected to the controller 117.

As shown in fig. 1 and 6, the liquid storage mechanism 2 includes a plurality of fan-shaped tank bodies 21; the fan-shaped tank body 21 is vertically provided with a T-shaped sliding groove 23, and the sliding rail 112 is clamped in the sliding groove 23 and is mutually connected with the sliding groove in a sliding way; the upper end of the fan-shaped tank body 21 is provided with a water filling port 22, a sealing cover of the water filling port 22 is provided with a one-way air valve, and the lower end of the fan-shaped tank body 21 is provided with a connector 24 which is mutually connected with the upper end of the connecting pipe 113.

As shown in fig. 7, the connector 24 includes a connector housing 242, a sleeve 25, a first pressure plate 26; the connector shell 242 penetrates through the fan-shaped tank body 21 and is connected with the fan-shaped tank body, the sleeve 25 is sleeved with the through hole on the connector shell 242 and is connected with the through hole in a sliding manner, the upper end of the sleeve 25 is provided with a second pressing plate 27 and a first through hole 28 communicated with the inner cavity of the second pressing plate 27, the connector shell 242 is provided with a groove 241 matched with the second pressing plate 27, and the lower end of the sleeve 25 is in threaded connection with the first pressing plate 26 arranged in the inner cavity of the connector shell 242; the second pressing plate 27 is pressed and sealed with the groove 241 under the action of water pressure, so that water cannot flow out, and when the second pressing plate 27 is pushed out of the groove 241 and the first through hole 28 penetrates out of the connector shell 242 and enters the inner cavity of the fan-shaped tank body 21, the water flows out through the inner cavity of the sleeve 25 along the first through hole 28.

As shown in fig. 8, the light supplement nozzle 3 includes a nozzle body 31 and a light supplement lamp 32; the inner cavity of the sprayer body 31 is divided into a first cavity 311 and a second cavity 312, an expansion link 313, an illumination sensor 314 and a sensor group 315 are arranged in the first cavity 311, the detection end of the sensor group 315 is arranged on the insertion plate 33 inserted into soil, an ultrasonic transducer 317 is arranged in the inner cavity of the second cavity 312, and a plurality of water outlet holes 316 are arranged on the side wall of the second cavity 312; the light supplement lamp 32 is provided with an LED lamp 322 in the inner cavity, and the light supplement lamp 32 is connected with the inner cavity of the nozzle body 31 through a telescopic rod 313.

The telescopic rod 313 is used for adjusting the height to adapt to different plant heights, and the ultrasonic transducer 317 is arranged in the inner cavity of the second cavity 312, so that water flow can flow out through the water outlet hole 316, and liquid can be atomized by the ultrasonic transducer 317 and then dispersed to the plant leaf surface and the air to humidify or kill insects, apply leaf fertilizer and the like.

In one embodiment, the solenoid valve 115 is a normally closed solenoid valve.

In one embodiment as shown in fig. 4, an ultrasonic level sensor 119 is disposed on the outer surface of the mixing tank 114 for detecting the liquid level in the mixing tank 114 to prevent overflow.

In an embodiment as shown in fig. 1 and 5, the lower housing 11 is further provided with an upper housing 12, the upper housing 12 is sleeved with the liquid storage mechanism 2, and the upper housing 12 is further screwed with the connecting rod 111 through a connecting post 121 having a second through hole 122, which is of course to keep the inner cavity of the connecting rod 111 in a communicating state with the outside.

In one embodiment as shown in fig. 3, the sliding rail 112 and the connecting rod 111 are of an integral structure.

In an embodiment as shown in fig. 2, the fill-in light 32 is provided with a circular handle 321 for conveniently adjusting the height thereof, so as to facilitate height adjustment.

In one embodiment, the pump 116 is interconnected to the second chamber 312 via a fluid line 1161.

In one embodiment, the controller 117 is electrically connected to the LED lamp 322, the illumination sensor 314, the sensor group 315, and the ultrasonic transducer 317 through a spring wire 1171 sleeved on the infusion tube 1161.

In one embodiment, the upper end of the connecting tube 113 is abutted against the first pressure plate 26 to eject the second pressure plate 27 and the first through hole 28 out of the connector housing 242, so as to communicate the connecting tube 113 with the inner cavity of the fan-shaped can body 21, and when the connecting tube 113 is separated from the first pressure plate 26, the second pressure plate 27 and the first through hole 28 are retracted into the groove 241 and the connector housing 242 respectively under the action of gravity of the first pressure plate 26, so as to close the connection between the connecting tube 113 and the inner cavity of the fan-shaped can body 21.

The invention relates to an indoor plant intelligent planting ecosystem based on ultrasonic liquid level sensing detection, which comprises a base, a liquid storage mechanism and a light supplementing spray head, wherein the liquid storage mechanism consists of a plurality of fan-shaped tank bodies, water, liquid fertilizer, herbicide aqueous solution, pesticide aqueous solution and the like can be stored in the fan-shaped tank bodies, green plants are watered, fertilized and the like according to soil data detected by a sensor on the light supplementing spray head, weeding and insecticidal operations can be carried out in a dropper or atomization mode at regular time, and an LED lamp on the light supplementing spray head can supplement light for the green plants according to the illumination condition so as to promote the growth of the green plants; its is rational in infrastructure, has advantages such as simple structure, convenient to use, the function is various, intelligent degree height, effectively solves the problem of traditional automatic watering equipment function singleness.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides an ecosystem is planted to indoor plant intelligence based on supersound liquid level sensing detects which characterized by: the device comprises a base (1), a liquid storage mechanism (2) and a light supplementing spray head (3), wherein the base (1) comprises a cylindrical lower shell (11) with a hollow structure and a connecting rod (111); a mixing box (114), a water pump (116), a controller (117) and a storage battery (118) are arranged in the inner cavity of the lower shell (11); the connecting rod (111) is vertically arranged, the lower end of the connecting rod (111) extends into the inner cavity of the lower shell (11) and is communicated with the inner cavity of the mixing box (114), and a plurality of sliding rails (112) with T-shaped structures are uniformly and vertically arranged on the side surface of the connecting rod (111);

a plurality of connecting pipes (113) are uniformly and circumferentially arranged on the lower shell (11) around the connecting rod (111), and the upper ends of the connecting pipes (113) extend out of the lower shell (11); the connecting pipe (113) is communicated with the mixing tank (114) through an electromagnetic valve (115), and the mixing tank (114) is connected with the water pump (116); the electromagnetic valve (115) and the water pump (116) are respectively and electrically connected with the controller (117); the liquid storage mechanism (2) comprises a plurality of fan-shaped tank bodies (21); the fan-shaped tank body (21) is vertically provided with a T-shaped sliding groove (23), and the sliding rail (112) is clamped into the sliding groove (23) and is mutually connected with the sliding groove in a sliding manner; the upper end of the fan-shaped tank body (21) is provided with a water filling port (22), and the lower end of the fan-shaped tank body (21) is provided with a connector (24) which is mutually connected with the upper end of the connecting pipe (113); the connector (24) comprises a connector shell (242), a sleeve (25) and a first pressing plate (26); the connector shell (242) penetrates through the fan-shaped tank body (21) and is connected with the fan-shaped tank body, the sleeve (25) is sleeved with the connector shell (242) and is connected with the connector shell (242) in a sliding mode, the upper end of the sleeve (25) is provided with a second pressing plate (27) and a first through hole (28) communicated with the inner cavity of the second pressing plate, the connector shell (242) is provided with a groove (241) matched with the second pressing plate (27), and the lower end of the sleeve (25) is in threaded connection with the first pressing plate (26) arranged in the inner cavity of the connector shell (242);

the upper end of the connecting pipe (113) is abutted with the first pressing plate (26) to push the second pressing plate (27) and the first through hole (28) out of the connector shell (242), and when the connecting pipe (113) is separated from the first pressing plate (26), the second pressing plate (27) and the first through hole (28) are respectively retracted into the groove (241) and the connector shell (242) under the action of the gravity of the first pressing plate (26);

the light supplementing nozzle (3) comprises a nozzle body (31) and a light supplementing lamp (32); the inner cavity of the spray head body (31) is divided into a first cavity (311) and a second cavity (312), a telescopic rod (313), an illumination sensor (314) and a sensor group (315) are arranged in the first cavity (311), the detection end of the sensor group (315) is arranged on an inserting plate (33) inserted into soil, an ultrasonic transducer (317) is arranged in the inner cavity of the second cavity (312), and a plurality of water outlet holes (316) are formed in the side wall of the second cavity (312); an LED lamp (322) is arranged in the inner cavity of the light supplement lamp (32), and the light supplement lamp (32) is connected with the inner cavity of the spray head body (31) through a telescopic rod (313);

the controller (117) is electrically connected with the LED lamp (322), the illumination sensor (314), the sensor group (315) and the ultrasonic transducer (317) through spring wires (1171) sleeved on the infusion tube (1161).

2. The intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection is claimed in claim 1, and is characterized in that: the electromagnetic valve (115) is a normally closed electromagnetic valve.

3. The intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection is claimed in claim 1, and is characterized in that: an ultrasonic liquid level sensor (119) is arranged on the outer surface of the mixing box (114).

4. The intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection is claimed in claim 1, and is characterized in that: the lower shell (11) is further provided with an upper shell (12), the upper shell (12) is sleeved with the liquid storage mechanism (2), and the upper shell (12) is further in threaded connection with the connecting rod (111) through a connecting column (121) with a second through hole (122).

5. The intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection is claimed in claim 1, and is characterized in that: the sliding rail (112) and the connecting rod (111) are of an integrated structure.

6. The intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection is claimed in claim 1, and is characterized in that: the light supplement lamp (32) is provided with a round handle (321) which is used for conveniently adjusting the height of the light supplement lamp.

7. The intelligent indoor plant planting ecosystem based on ultrasonic liquid level sensing detection is claimed in claim 1, and is characterized in that: the water pump (116) is connected with the second cavity (312) through the infusion tube (1161).