CN111066526B

CN111066526B - Supply seat of flowerpot capable of purifying air

Info

Publication number: CN111066526B
Application number: CN202010039666.3A
Authority: CN
Inventors: 顾明华
Original assignee: Suzhou Dihill Green Technology Co ltd
Current assignee: Suzhou Dihill Green Technology Co ltd
Priority date: 2020-01-15
Filing date: 2020-01-15
Publication date: 2021-06-15
Anticipated expiration: 2040-01-15
Also published as: CN111066526A

Abstract

The invention discloses a supply seat of a flowerpot for purifying air, which comprises a flat main shell, wherein the top surface of the main shell is provided with: the needle head passing hole, the charging connector, the data line connector and the plurality of positioning blind holes are formed in the needle head passing hole; the main shell is internally provided with a water storage bin, a piston pump, a needle head assembly, a lifting electric cylinder and a main control device. The supply seat can charge and inject water into the flowerpot for purifying air.

Description

Supply seat of flowerpot capable of purifying air

Technical Field

The invention belongs to the field of indoor air purification, and particularly relates to a supply seat of a flowerpot for purifying air.

Background

With the popularization of environmental awareness, people pay more and more attention to the quality of indoor air. Indoor air pollutants mainly include solid particles (respirable particles), formaldehyde and benzene.

Some plants (such as scindapsus aureus) can absorb formaldehyde and benzene in the air, and the plants are generally planted in flowerpots, and people can also choose soil which can absorb solid particles, formaldehyde and benzene to plant the plants. Therefore, people can move the flowerpot for planting plants into the room to purify the indoor air.

But the current flowerpot structure is simpler, is unfavorable for the air to circulate in the flowerpot, has hindered plant and soil to absorb indoor air pollution's efficiency.

In order to improve the efficiency of plants and soil for absorbing indoor air pollutants, the flowerpot for purifying the air is produced. The top of the main pot body of the air purifying flowerpot is provided with: a soil storage bin for planting plants; store up and have ventilative and adsorbable solid-state particulate matter's soil in the storehouse, still contain in the soil: a formaldehyde-adsorbable component, and a benzene-adsorbable component; in order to improve the efficiency that indoor air pollutant is absorbed to plant and soil, still set up the air inlet bottom the main basin body, and the inlet channel who will store up soil storehouse and air inlet intercommunication is set up to the main basin internal portion, and set up the air-blower in inlet channel, the air-blower is to storing up soil storehouse delivery air, and the circulation of air in the flowerpot is accelerated, and then can improve the efficiency that indoor air pollutant is absorbed to plant and soil.

In order to supply power to the blower, a battery is also arranged inside the main basin body, and the blower is supplied with power by the battery.

In order to keep the soil in the soil storage bin at a certain humidity, the water storage bin is arranged inside the main basin body, the water absorption strip is arranged in the water storage bin and extends into the soil storage bin, the water absorption strip can absorb water in the water storage bin into the soil in the soil storage bin, and then the soil in the soil storage bin is kept at a certain humidity.

In order to ensure the efficacy of the flowerpot for purifying air, the battery of the flowerpot for purifying air needs to be charged in time, and the water storage bin of the flowerpot for purifying air needs to be replenished with water in time.

Disclosure of Invention

The invention aims to provide a supply seat of a flowerpot for purifying air, which can charge and inject water into the flowerpot for purifying air.

In order to achieve the purpose, the invention adopts the technical scheme that the supply seat of the air purifying flowerpot is designed, and the air purifying flowerpot comprises a main flowerpot body; a water storage bin and a battery are arranged inside the main pot body; the water storage bin is provided with a water storage liquid level sensor which is used for detecting the liquid level of the water storage bin and outputting a flowerpot water storage liquid level signal outwards; the battery is provided with an electric quantity detection device which is used for detecting the residual electric quantity of the battery and outputting a residual electric quantity signal of the flowerpot battery to the outside; the bottom surface of the main pot body is provided with: the water storage device comprises a water injection port for injecting water into a water storage bin, a charging interface for charging a battery, a data line interface and a plurality of vertically-arranged supporting legs; the water injection port is positioned on the left side of the bottom surface of the main pot body and is sealed by a self-sealing rubber plug; the charging interface is positioned on the right side of the bottom surface of the main pot body; the data line interface is close to the charging interface, the water storage liquid level sensor and the electric quantity detection device are respectively and electrically connected with the data line interface, and the data line interface is used for outputting a flowerpot water storage liquid level signal and a flowerpot battery residual electric quantity signal; all the supporting feet are uniformly distributed along the circumferential direction of the bottom surface of the main pot body;

supply seat is including the flat main casing body of putting, and the top surface of main casing body is equipped with: the pin head through hole corresponds to the water filling port, the charging connector corresponds to the charging interface and can be in plug-in fit with the charging interface, the data line connector corresponds to the data line interface and can be in plug-in fit with the data line interface, and the positioning blind holes are in one-to-one corresponding fit with the supporting legs; the main shell is internally provided with a water storage bin, a piston pump, a needle head assembly, a lifting electric cylinder and a main control device;

each positioning blind hole is respectively used for inserting a corresponding supporting leg, each positioning blind hole is respectively provided with a contact switch which can be pressed and triggered by the corresponding supporting leg, and each contact switch respectively outputs a supporting leg sensing signal outwards when being pressed and triggered;

the water storage bin is arranged along the left and right direction; the water storage bin is provided with a water storage liquid level sensor which is used for detecting the liquid level of the water storage bin and outputting a water storage liquid level signal of the supply seat to the outside; the top of the outer wall of the right side of the main shell is provided with a water replenishing quick joint, the top of the right side of the water storage bin is communicated with the water replenishing quick joint through a water replenishing pipe, and a water replenishing electromagnetic valve is arranged on the water replenishing pipe;

the piston pump is positioned right below the water storage bin and comprises a horizontally arranged cylinder body arranged along the left-right direction; the top of the left end of the cylinder body is communicated with the bottom of the water storage bin through a vertically arranged left liquid inlet pipe, and a left liquid inlet electromagnetic valve is arranged on the left liquid inlet pipe; the top of the right end of the cylinder body is communicated with the bottom of the water storage bin through a vertically arranged right liquid inlet pipe, and a right liquid inlet electromagnetic valve is arranged on the right liquid inlet pipe; a horizontally arranged liquid supply pipe arranged along the left-right direction is arranged right below the piston pump; the bottom of the left end of the cylinder body is communicated with a liquid supply pipe through a vertically arranged left liquid outlet pipe, and a left liquid outlet electromagnetic valve is arranged on the left liquid outlet pipe; the bottom of the right end of the cylinder body is communicated with the liquid supply pipe through a vertically arranged right liquid outlet pipe, and a right liquid outlet electromagnetic valve is arranged on the right liquid outlet pipe; the cylinder body is internally provided with a pair of pistons: a left piston facing the left end of the cylinder body and a right piston facing the right end of the cylinder body; the pistons are connected through a horizontally arranged rack arranged along the left-right direction, and the length of the rack is half of the length of the inner cavity of the cylinder body; the inside of the cylinder body is also provided with a gear meshed with the rack, and the gear is positioned at the center of the length direction of the inner cavity of the cylinder body; the gear is provided with a motor for driving the gear to rotate, the motor is positioned outside the cylinder body, and an output shaft of the motor extends into the cylinder body and is connected with the gear; the inside still is equipped with of cylinder body: the left limit sensor is positioned between the left piston and the gear and can be triggered by the left piston, and the right limit sensor is positioned between the right piston and the gear and can be triggered by the right piston; the left limit inductor and the right limit inductor are symmetrically arranged by a gear, and are close to the gear; the left limiting sensor outputs a left piston sensing signal outwards when being triggered by the left piston; the right limit sensor outputs a right piston sensing signal outwards when being triggered by the right piston;

the syringe needle subassembly is located trap left side, and the syringe needle subassembly includes: the vertical needle head, the needle head seat arranged at the bottom end of the needle head and the vertical supporting barrel arranged at the bottom end of the needle head seat; the bottom end of the supporting cylinder is closed, and the top end of the supporting cylinder is communicated with the needle head through the needle head seat; the side wall of the supporting cylinder is also externally connected with a liquid supply hose, and the supporting cylinder is communicated with the liquid supply pipe through the liquid supply hose;

the needle head passing hole is a vertical through hole and is positioned right above the needle head; the lifting electric cylinder is vertically arranged right below the supporting cylinder, a telescopic rod of the lifting electric cylinder is arranged upwards, the top end of the telescopic rod is connected with the bottom end of the supporting cylinder, and the lifting electric cylinder is used for driving the needle head to extend out of the needle head passing hole and pierce the self-sealing rubber plug;

each contact switch, the charging connector, the data line connector, the water storage liquid level sensor, the water replenishing electromagnetic valve, the left liquid inlet electromagnetic valve, the right liquid inlet electromagnetic valve, the left liquid outlet electromagnetic valve, the right liquid outlet electromagnetic valve, the motor, the left limit inductor, the right limit inductor and the lifting electric cylinder are electrically connected with the main control device;

the main control device is internally provided with a power supply module and is connected with an external power supply line, the external power supply line extends out of the main shell from the bottom of the outer wall of the right side of the main shell, and an electric wire plug is arranged at the outer end of the external power supply line.

Preferably, the outer wall of the main pot body is also provided with a temperature and humidity detection device, and the temperature and humidity detection device is used for detecting and displaying the ambient temperature and humidity; the temperature and humidity detection device is powered by a battery.

Preferably, the water replenishing quick connector is externally connected with a water source.

Preferably, the wire plug is externally connected with an external power supply.

The invention has the advantages and beneficial effects that: the supply seat of the flowerpot for purifying the air can charge and inject water into the flowerpot for purifying the air.

The supply method of the flowerpot for purifying air comprises the following steps:

the air purification flowerpot is placed on the supply seat, the supporting legs are inserted into the corresponding positioning blind holes respectively, the charging interface is connected with the charging connector in an inserting mode, the data line interface is connected with the data line connector in an inserting mode, the needle head passing hole is located right below the water injection port, and the contact switches are pressed downwards by the corresponding supporting legs to trigger and output supporting leg induction signals outwards;

after the charging interface is plugged with the charging connector, the main control device controls the power supply module to charge the battery of the air purifying flowerpot; the main control device judges the residual electric quantity of the battery according to the residual electric quantity signal of the flowerpot battery, and controls the power supply module to stop charging the battery if the residual electric quantity of the battery reaches the preset electric quantity;

when the main control device receives the supporting foot sensing signals output by all the contact switches, the main control device controls the telescopic rod of the lifting electric cylinder to extend out, drives the needle head to extend out of the needle head passing hole and pierces the self-sealing rubber plug; after the needle head extends out of the needle head passing hole and pierces the self-sealing rubber plug, the main control device controls the piston pump to inject water into the water storage bin of the air-purifying flowerpot; in the process of filling water into the water storage bin, the main control device judges the liquid level of the water storage bin according to the water storage liquid level signal of the replenishment seat, and if the liquid level of the water storage bin is lower than the preset water storage liquid level, the main control device controls the water replenishing electromagnetic valve to be opened to replenish water to the water storage bin; the main control device judges the liquid level of the water storage bin according to the water storage liquid level signal of the flowerpot, and controls the piston pump to stop injecting water into the water storage bin if the liquid level of the water storage bin reaches a preset water storage liquid level; after the water storage bin is stopped being filled with water, the main control device controls the telescopic rod of the lifting electric cylinder to retract, and drives the needle head to retract into the main shell;

the main control device controls the piston pump to inject water into the water storage bin as follows:

1) the master control device controls the left liquid inlet electromagnetic valve to be closed, the right liquid inlet electromagnetic valve to be opened, the left liquid outlet electromagnetic valve to be opened and the right liquid outlet electromagnetic valve to be closed, and controls the motor to rotate forwards to drive the gear to rotate forwards, and the gear rotates forwards to drive the rack, the left piston and the right piston to move towards the left end of the cylinder body until the right limit sensor is triggered by the right piston and outputs a right piston sensing signal;

2) when the master control device receives a right piston sensing signal, the master control device controls the left liquid inlet electromagnetic valve to be opened, the right liquid inlet electromagnetic valve to be closed, the left liquid outlet electromagnetic valve to be closed and the right liquid outlet electromagnetic valve to be opened, the master control device controls the motor to rotate reversely, the motor drives the gear to rotate reversely, the gear drives the rack, the left piston and the right piston to move towards the right end of the cylinder body in a reverse rotation mode until the left limiting sensor is triggered by the left piston and outputs a left piston sensing signal;

3) when the master control device receives a left piston sensing signal, the master control device controls the left liquid inlet electromagnetic valve to be closed, the right liquid inlet electromagnetic valve to be opened, the left liquid outlet electromagnetic valve to be opened and the right liquid outlet electromagnetic valve to be closed, and the master control device controls the motor to rotate forwards, the motor rotates forwards to drive the gear to rotate forwards, the gear rotates forwards to drive the rack, the left piston and the right piston to move towards the left end of the cylinder body until the right limit sensor is triggered by the right piston and outputs a right piston sensing signal;

4) repeating steps 2) and 3).

The space inside the cylinder body and positioned on the left side of the left piston is taken as an inner cavity on the left side of the cylinder body, and the space inside the cylinder body and positioned on the right side of the right piston is taken as an inner cavity on the right side of the cylinder body;

in the process of forward rotation of the motor, the left piston and the right piston move towards the left end of the cylinder body, and because the left liquid inlet electromagnetic valve is closed, the right liquid inlet electromagnetic valve is opened, the left liquid outlet electromagnetic valve is opened, and the right liquid outlet electromagnetic valve is closed, liquid in the inner cavity at the left side of the cylinder body is pressed into the liquid supply pipe by the left piston (through the left liquid outlet pipe), and liquid in the water storage bin is replenished into the inner cavity at the right side of the cylinder body through the right liquid inlet;

in the process of motor reversal, the left piston and the right piston move to the right end of the cylinder body, and as the left liquid inlet electromagnetic valve is opened, the right liquid inlet electromagnetic valve is closed, the left liquid outlet electromagnetic valve is closed and the right liquid outlet electromagnetic valve is opened, liquid in the inner cavity at the right side of the cylinder body is pressed into the liquid supply pipe by the right piston (through the right liquid outlet pipe), and liquid in the water storage bin is replenished into the inner cavity at the left side of the cylinder body through the left liquid inlet pipe;

along with the repeated positive rotation and negative rotation of the motor, the liquid in the water storage bin is continuously pressed into the liquid supply pipe, and then enters the water storage bin of the air purifying flowerpot through the liquid supply hose, the support cylinder, the needle head seat and the needle head.

Drawings

FIG. 1 is a schematic of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

The invention aims to charge and inject water into a flowerpot 1 for purifying air, wherein the flowerpot 1 for purifying air comprises a main flowerpot body 100; the top of the main pot body 100 is provided with: a soil storage bin 110 for planting plants; store up and have ventilative and adsorbable solid-state particulate matter's soil in the soil storehouse 110, still contain in the soil: a formaldehyde-adsorbable component, and a benzene-adsorbable component; in order to improve the efficiency of plants and soil absorbing indoor air pollutants, an air inlet 121 is further arranged at the bottom of the main pot body 100, an air inlet channel 120 for communicating the soil storage bin 110 with the air inlet 121 is arranged inside the main pot body 100, an air blower 122 is arranged in the air inlet channel 120, the air blower 122 conveys air to the soil storage bin 110, the circulation of the air in the flowerpot is accelerated, and the efficiency of plants and soil absorbing indoor air pollutants can be further improved; in order to supply power to the blower 122, a battery 140 is also arranged inside the main basin 100, and the blower 122 is supplied with power by the battery 140; in order to keep the soil in the soil storage bin 110 at a certain humidity, a water storage bin 130 is further arranged at the bottom of the main basin body 100, a water absorbing strip 131 is arranged in the water storage bin 130, the water absorbing strip 131 extends into the soil storage bin 110, the water absorbing strip 131 can absorb the water in the water storage bin 130 into the soil in the soil storage bin 110, and the soil in the soil storage bin 110 is kept at a certain humidity;

the water storage bin 130 is provided with a water storage liquid level sensor 132, and the water storage liquid level sensor 132 is used for detecting the liquid level of the water storage bin 130 and outputting a flowerpot water storage liquid level signal outwards; the battery 140 is provided with an electric quantity detection device, and the electric quantity detection device is used for detecting the residual electric quantity of the battery 140 and outputting a signal of the residual electric quantity of the flowerpot battery to the outside; the bottom surface of the main pot body 1 is provided with: a water filling port for filling water into the water storage bin 130, a charging port 161 for charging the battery 140, a data line port 162, and a plurality of vertical support legs 170; the water injection port is positioned on the left side of the bottom surface of the main pot body 1 and is sealed by a self-sealing rubber plug 150; the charging interface 161 is positioned at the right side of the bottom surface of the main pot body 1; the data line interface 162 is close to the charging interface 161, the water storage level sensor 132 and the electric quantity detection device are respectively electrically connected with the data line interface 162, and the data line interface 162 is used for outputting a flowerpot water storage level signal and a flowerpot battery residual electric quantity signal; the supporting feet 170 are uniformly distributed along the circumferential direction of the bottom surface of the main pot body 1; the outer wall of the main pot body 100 is also provided with a temperature and humidity detection device which is used for detecting and displaying the ambient temperature and humidity; the temperature and humidity detection device is powered by a battery 140.

In order to charge and fill water into the flowerpot 1 for purifying air, the invention provides a supply seat 2 of the flowerpot 1 for purifying air, wherein the supply seat 2 comprises a flat main shell 200, and the top surface of the main shell 200 is provided with: a needle passing hole 234 corresponding to the water filling port, a charging connector 271 corresponding to the charging interface 161 and capable of being in plugging fit with the charging interface 161, a data line connector 272 corresponding to the data line interface 162 and capable of being in plugging fit with the data line interface 162, and a plurality of positioning blind holes 280 in one-to-one corresponding fit with the supporting legs 170; the main shell 200 is internally provided with a water storage bin 210, a piston pump 220, a needle assembly, a lifting electric cylinder 240 and a main control device 250;

each positioning blind hole 280 is respectively used for inserting a corresponding supporting leg 170, each positioning blind hole 280 is respectively provided with a contact switch 281 which can be pressed and triggered by the corresponding supporting leg 170, and each contact switch 281 is pressed and triggered to respectively output a supporting leg sensing signal outwards;

the water storage bin 210 is arranged along the left-right direction; the water storage bin 210 is provided with a water storage liquid level sensor 211, and the water storage liquid level sensor 211 is used for detecting the liquid level of the water storage bin 210 and outputting a water storage liquid level signal of a supply seat to the outside; the top of the outer wall of the right side of the main shell 200 is provided with a water replenishing quick joint 213, the top of the right side of the water storage bin 210 is communicated with the water replenishing quick joint 213 through a water replenishing pipe 212, and the water replenishing pipe 212 is provided with a water replenishing electromagnetic valve 214;

the piston pump 220 is positioned right below the water storage bin 210, and the piston pump 220 comprises a horizontally-arranged cylinder body 221 arranged along the left-right direction; the top of the left end of the cylinder body 221 is communicated with the bottom of the water storage bin 210 through a vertically arranged left liquid inlet pipe 291, and a left liquid inlet electromagnetic valve 295 is arranged on the left liquid inlet pipe 291; the top of the right end of the cylinder body 221 is communicated with the bottom of the water storage bin 210 through a vertically arranged right liquid inlet pipe 292, and a right liquid inlet electromagnetic valve 296 is arranged on the right liquid inlet pipe 292; a horizontally disposed liquid supply pipe 261 provided in the left-right direction is provided right below the piston pump 220; the bottom of the left end of the cylinder body 221 is communicated with a liquid supply pipe 261 through a vertically arranged left liquid outlet pipe 293, and a left liquid outlet electromagnetic valve 297 is arranged on the left liquid outlet pipe 293; the bottom of the right end of the cylinder body 221 is communicated with the liquid supply pipe 261 through a vertically arranged right liquid outlet pipe 294, and a right liquid outlet electromagnetic valve 298 is arranged on the right liquid outlet pipe 294; a pair of pistons are provided inside the cylinder 221: a left piston 222 toward the left end of the cylinder 221 and a right piston 223 toward the right end of the cylinder 221; the pistons are connected through a horizontal rack 224 arranged along the left-right direction, and the length of the rack 224 is half of the length of the inner cavity of the cylinder body 221; a gear 225 meshed with the rack 224 is further arranged inside the cylinder body 221, and the gear 225 is positioned in the center of the length direction of the inner cavity of the cylinder body 221; the gear 225 is provided with a motor for driving the gear to rotate, the motor is positioned outside the cylinder body 221, and an output shaft of the motor extends into the cylinder body 221 and is connected with the gear 225; the cylinder 221 is also provided with: a left limit sensor 226 located between left piston 222 and gear 225 and actuatable by left piston 222, and a right limit sensor 227 located between right piston 223 and gear 225 and actuatable by right piston 223; the left limit sensor 226 and the right limit sensor 227 are symmetrically arranged by a gear 225, and the left limit sensor 226 and the right limit sensor 227 are both close to the gear 225; the left limit sensor 226 outputs a left piston sensing signal outwards when triggered by the left piston 222; the right limit sensor 227 outputs a right piston sensing signal outwards when triggered by the right piston 223;

the needle subassembly is located and deposits water storehouse 210 left side, and the needle subassembly includes: a vertical needle 231, a needle seat 232 arranged at the bottom end of the needle 231, and a vertical support barrel 233 arranged at the bottom end of the needle seat 232; the bottom end of the support barrel 233 is closed, and the top end of the support barrel 233 is communicated with the needle 231 through the needle seat 232; the side wall of the support cylinder 233 is externally connected with a liquid supply hose 262, and the support cylinder 233 is communicated with a liquid supply pipe 261 through the liquid supply hose 262;

the needle passing hole 234 is a vertical through hole, and the needle passing hole 234 is positioned right above the needle 231; the lifting electric cylinder 240 is vertically arranged right below the supporting barrel 233, the telescopic rod 241 of the lifting electric cylinder 240 is arranged upwards, the top end of the telescopic rod 241 is connected with the bottom end of the supporting barrel 233, and the lifting electric cylinder 240 is used for driving the needle 231 to extend out of the needle passing hole 234 and pierce the self-sealing rubber plug 150;

each contact switch 281, the charging connector 271, the data line connector 272, the water storage liquid level sensor 211, the water replenishing electromagnetic valve 214, the left liquid inlet electromagnetic valve 295, the right liquid inlet electromagnetic valve 296, the left liquid outlet electromagnetic valve 297, the right liquid outlet electromagnetic valve 298, the motor, the left limit inductor 226, the right limit inductor 227 and the lifting electric cylinder 240 are electrically connected with the main control device 250;

the main control device 250 is internally provided with a power module, the main control device 250 is connected with an external power line 251, the external power line 251 extends out of the main housing 200 from the bottom of the outer wall of the right side of the main housing 200, and an electric wire plug is arranged at the outer end of the external power line 251.

The water supplementing quick joint 213 is externally connected with a water source.

The wire plug is externally connected with an external power supply.

The replenishment method of the flowerpot 1 for purifying air is as follows:

the air purification flowerpot 1 is placed on the supply base 2, each supporting leg 170 is inserted into the corresponding positioning blind hole 280, the charging connector 161 is connected with the charging connector 271 in an inserted mode, the data line connector 162 is connected with the data line connector 272 in an inserted mode, at the moment, the needle passing hole 234 is located right below the water injection port, and each contact switch 281 is pressed downwards by the corresponding supporting leg 170 to trigger and output a supporting leg induction signal outwards;

after the charging interface 161 is plugged with the charging connector 271, the main control device 250 controls the power module to charge the battery 140 of the air purifying flowerpot 1; the main control device 250 determines the remaining power of the battery 140 according to the signal of the remaining power of the flowerpot battery, and if the remaining power of the battery 140 reaches a predetermined power, the main control device 250 controls the power module to stop charging the battery 140;

after the main control device 250 receives the supporting foot sensing signals output by all the contact switches 281, the main control device 250 controls the extension rod 241 of the lifting electric cylinder 240 to extend, and drives the needle 231 to extend out of the needle passing hole 234 and pierce the self-sealing rubber plug 150; after the needle 231 extends out of the needle passing hole 234 and pierces the self-sealing rubber plug 150, the main control device 250 controls the piston pump 220 to inject water into the water storage bin 130 of the air-purifying flowerpot 1; in the process of filling water into the water storage bin 130, the main control device 250 judges the liquid level of the water storage bin 210 according to the water storage liquid level signal of the water supply base, and if the liquid level of the water storage bin 210 is lower than the preset water storage liquid level, the main control device 250 controls the water replenishing electromagnetic valve 214 to be opened to replenish water to the water storage bin 210; the main control device 250 determines the liquid level of the water storage bin 130 according to the flowerpot water storage liquid level signal, and if the liquid level of the water storage bin 130 reaches a predetermined water storage liquid level, the main control device 250 controls the piston pump 220 to stop injecting water into the water storage bin 130; after the water storage bin 130 stops being filled with water, the main control device 250 controls the telescopic rod 241 of the lifting electric cylinder 240 to retract, and drives the needle 231 to retract into the main shell 200;

the main control device 250 controls the piston pump 220 to fill the water storage bin 130 as follows:

1) the main control device 250 controls the left liquid inlet electromagnetic valve 295 to be closed, the right liquid inlet electromagnetic valve 296 to be opened, the left liquid outlet electromagnetic valve 297 to be opened and the right liquid outlet electromagnetic valve 298 to be closed, the main control device 250 controls the motor to rotate forwards, the motor rotates forwards to drive the gear 225 to rotate forwards, the gear 225 rotates forwards to drive the rack 224, the left piston 222 and the right piston 223 to move towards the left end of the cylinder body 221 until the right limit sensor 227 is triggered by the right piston 223 and outputs a right piston sensing signal;

2) when the main control device 250 receives a right piston sensing signal, the main control device 250 controls the left liquid inlet electromagnetic valve 295 to be opened, the right liquid inlet electromagnetic valve 296 to be closed, the left liquid outlet electromagnetic valve 297 to be closed and the right liquid outlet electromagnetic valve 298 to be opened, the main control device 250 controls the motor to rotate reversely, the motor rotates reversely to drive the gear 225 to rotate reversely to drive the rack 224, the left piston 222 and the right piston 223 to move towards the right end of the cylinder body 221 until the left limit sensor 226 is triggered by the left piston 222 and outputs a left piston sensing signal;

3) when the main control device 250 receives a left piston sensing signal, the main control device 250 controls the left liquid inlet electromagnetic valve 295 to be closed, the right liquid inlet electromagnetic valve 296 to be opened, the left liquid outlet electromagnetic valve 297 to be opened and the right liquid outlet electromagnetic valve 298 to be closed, the main control device 250 controls the motor to rotate forward, the motor rotates forward to drive the gear 225 to rotate forward, the gear 225 rotates forward to drive the rack 224, the left piston 222 and the right piston 223 to move towards the left end of the cylinder body 221 until the right limit sensor 227 is triggered by the right piston 223 and outputs a right piston sensing signal;

4) repeating steps 2) and 3).

The space inside the cylinder 221 and located on the left side of the left piston 222 is an inner cavity on the left side of the cylinder 221, and the space inside the cylinder 221 and located on the right side of the right piston 223 is an inner cavity on the right side of the cylinder 221;

in the process of forward rotation of the motor, the left piston 222 and the right piston 223 move towards the left end of the cylinder body 221, and as the left liquid inlet electromagnetic valve 295 is closed, the right liquid inlet electromagnetic valve 296 is opened, the left liquid outlet electromagnetic valve 297 is opened and the right liquid outlet electromagnetic valve 298 is closed, liquid in the inner cavity at the left side of the cylinder body 221 is pressed into the liquid supply pipe 261 by the left piston 222 (through the left liquid outlet pipe 293), and liquid in the water storage bin 210 is replenished into the inner cavity at the right side of the cylinder body 221 through the right liquid inlet pipe 292;

in the process of motor reverse rotation, the left piston 222 and the right piston 223 move towards the right end of the cylinder body 221, and as the left liquid inlet electromagnetic valve 295 is opened, the right liquid inlet electromagnetic valve 296 is closed, the left liquid outlet electromagnetic valve 297 is closed and the right liquid outlet electromagnetic valve 298 is opened, liquid in the inner cavity on the right side of the cylinder body 221 is pressed into the liquid supply pipe 261 by the right piston 223 (through the right liquid outlet pipe 294), and liquid in the water storage bin 210 is replenished into the inner cavity on the left side of the cylinder body 221 through the left liquid inlet pipe 291;

as the motor rotates forward and backward repeatedly, the liquid in the water storage tank 210 is continuously pressed into the liquid supply pipe 261, and then enters the water storage tank 130 of the air purification flowerpot 1 through the liquid supply hose 262, the support cylinder 233, the needle base 232 and the needle 231.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The supply seat of the air-purifying flowerpot comprises a main flowerpot body; a water storage bin and a battery are arranged inside the main pot body; the water storage bin is provided with a water storage liquid level sensor which is used for detecting the liquid level of the water storage bin and outputting a flowerpot water storage liquid level signal outwards; the battery is provided with an electric quantity detection device which is used for detecting the residual electric quantity of the battery and outputting a residual electric quantity signal of the flowerpot battery to the outside; the bottom surface of the main pot body is provided with: the water storage device comprises a water injection port for injecting water into a water storage bin, a charging interface for charging a battery, a data line interface and a plurality of vertically-arranged supporting legs; the water injection port is positioned on the left side of the bottom surface of the main pot body and is sealed by a self-sealing rubber plug; the charging interface is positioned on the right side of the bottom surface of the main pot body; the data line interface is close to the charging interface, the water storage liquid level sensor and the electric quantity detection device are respectively and electrically connected with the data line interface, and the data line interface is used for outputting a flowerpot water storage liquid level signal and a flowerpot battery residual electric quantity signal; all the supporting feet are uniformly distributed along the circumferential direction of the bottom surface of the main pot body; the method is characterized in that:

the main control device is internally provided with a power supply module and is connected with an external power line, the external power line extends out of the main shell from the bottom of the outer wall of the right side of the main shell, and an electric wire plug is arranged at the outer end of the external power line;

the outer wall of the main pot body is also provided with a temperature and humidity detection device which is used for detecting and displaying the ambient temperature and humidity; the temperature and humidity detection device is powered by a battery.

2. A supply stand of an air purifying flowerpot as claimed in claim 1, wherein the water supplement quick coupling is externally connected with a water source.

3. A supply holder for an air purifying flowerpot according to claim 1, wherein the cord plug is externally connected to an external power source.