CN210580377U - A full-automatic watering device for it is cultivated in a pot - Google Patents

Abstract

The utility model discloses a full-automatic watering device for potted plants, which comprises a device main body, a water transporting mechanism, a water storage mechanism and a control mechanism, wherein the water transporting mechanism is arranged in the device main body; the device main part includes the device shell, first motor inlays to be established on the device shell, first water pump inlays to be established on the device shell, the rotor of first water pump directly links with the pivot of first motor, first water pump sets up in first motor below, the top of first inlet tube is fixed with the water absorption hole of first water pump, the top of first outlet pipe is fixed with the apopore of first water pump, the stagnant water valve sets up the bottom at first outlet pipe, the second motor inlays to be established on the device shell, the second water pump sets up in second motor below, the atomizer sets up the bottom at the second outlet pipe.

Description

A full-automatic watering device for it is cultivated in a pot

Technical Field

The utility model relates to a horticulture field of planting, like the cultivation of flowers and trees cultivated in a pot, the planting of flowers and trees cultivated in a pot, concretely relates to a full-automatic watering device for it is cultivated in a pot.

Background

In the modern society, various devices and systems, such as a semi-automatic device, an automatic device and an intelligent device, are rapidly developed, and gradually merged into the lives of people. The plants which we enjoy and grow can be supplemented with sufficient water when we are managing without time. There is a need for an automatic control system that is human-invented. However, among the devices of many automatic control systems, the control core is the most basic, important and decisive, so people are constantly developing more accurate, faster, more comprehensive and more intelligent control cores. People pay more attention to design and research related products by using the knowledge of mechanical principle.

Along with the improvement of living standard of people, people enjoy and plant green plants such as flowers and trees more and more, however, the work of watering, fertilizing and the like of flowers and trees needs to be realized manually in the past, due to the acceleration of the rhythm of modern life, people often forget to supplement water and nutrients for the flowers regularly and timely in busy work, or the flowers are placed in offices and the like without management due to leaving home, so that the flowers and the trees die. Water is the most basic requirement of plant survival and growth, so an automatic control flower watering system capable of being under the condition of unattended management is designed, and withering of flowers and trees under the condition can be effectively prevented.

The potted flowers can be cultivated at home to enrich life. Meanwhile, the potted flowers can absorb carbon dioxide through photosynthesis to purify indoor air, and more anions are gathered in the air in places with flowers and trees, so that the air is particularly fresh, and a plurality of flowers and trees can absorb harmful gases in the air, so that the potted flowers are popular with many people nowadays.

Whether the watering amount of pot flowers can be properly adjusted in time or not is the key for the success or failure of flower cultivation. However, people always have time in life, such as too busy work, business trip, travel, etc. More than 80% of the problems of flower and grass growth are caused by the problem of flower watering. Although automatic watering devices for selling potted flowers exist in the market, the price is very high, and most of the devices can only set a fixed watering time, so that the devices are difficult to water the potted flowers in proper time automatically. An economical potted flower water shortage alarm is arranged at night, and people can be reminded of watering potted flowers in time. However, the alarm can only give an alarm, and people are required to manually water the water. When no person is in the house, no person waters even if the alarm is given, and the function cannot be played.

Therefore, a full-automatic watering device for potted plants is needed to timely and properly water potted flowers when people are free.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: through using power supply unit as few as possible, form small, with low costs, the full-automatic watering device that consumes energy fewly, it not only can control the time of watering volume and watering, and need not manual control after the installation, just can realize the watering function automatically.

The utility model adopts the technical scheme as follows:

a full-automatic watering device for potted plants comprises a device main body, a water transporting mechanism, a water storage mechanism and a control mechanism, wherein the water transporting mechanism is arranged in the device main body;

the device body includes a device housing.

As a further description of the above technical solution:

the water conveying mechanism comprises a first motor, a first water pump, a first water inlet pipe, a first water outlet pipe, a water stop valve, a second motor, a second water pump, a second water inlet pipe, a second water outlet pipe and an atomizer, wherein the first motor is embedded on the device shell, the first water pump is embedded on the device shell, a rotor of the first water pump is directly connected with a rotating shaft of the first motor, the first water pump is arranged below the first motor, the top end of the first water inlet pipe is fixed with a water suction hole of the first water pump, the top end of the first water outlet pipe is fixed with a water outlet hole of the first water pump, the water stop valve is arranged at the bottom end of the first water outlet pipe, the second motor is embedded on the device shell, the second water pump is embedded on the device shell, the rotor of the second water pump is directly connected with a rotating shaft of the second motor, the second water pump is arranged below the second motor, and the top end of the second water inlet pipe is fixed with a water suction hole of the second water pump, the top of second outlet pipe is fixed with the apopore of second water pump, the atomizer sets up the bottom at the second outlet pipe.

As a further description of the above technical solution:

the water storage mechanism comprises a water storage tank, a water injection pipe and a threaded plug, the water storage tank is arranged at the bottom end of the device shell, the bottom end of the water injection pipe is embedded in the middle of the top end of the water storage tank, the bottom end of the water injection pipe is communicated with the water storage tank, the water injection pipe penetrates through the device shell and extends out of the middle of the top end of the device shell, and the threaded plug is arranged at the top end of the water injection pipe.

As a further description of the above technical solution:

the control mechanism comprises a power supply, a first controller, a second controller, a soil humidity sensor, a temperature sensor and a display screen, wherein the power supply is connected with a first motor, the power supply is connected with a second motor, the power supply is connected with the first controller, the power supply is connected with the second controller, the power supply is connected with an atomizer, the first motor is connected with the first controller, the second motor is connected with the second controller, the first controller is connected with a water stop valve, the first controller is connected with the soil humidity sensor, the second controller is connected with the atomizer, and the second controller is connected with the temperature sensor.

As a further description of the above technical solution:

the first controller receives a soil humidity value detected by the soil humidity sensor, and controls the opening and closing of the first motor according to the soil humidity value, so that the opening and closing of the first water pump are controlled, the second controller receives an air temperature value detected by the temperature sensor, controls the opening and closing of the second motor according to the air temperature value, controls the opening and closing of the second water pump, and controls the opening and closing of the atomizer according to the air temperature value.

As a further description of the above technical solution:

soil moisture sensor is pre-buried in potted plant's soil, soil moisture sensor sets up different pre-buried degree of depth according to different plant species, soil moisture sensor sets up according to specific quantity demand cultivated in a pot.

As a further description of the above technical solution:

the temperature sensor is arranged above the potted plant, the temperature sensor is set according to different plant varieties, and the temperature sensor is set according to the specific potted plant quantity requirement.

As a further description of the above technical solution:

the water stop valve is a pressure valve.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model utilizes the water transporting mechanism to screw the screw plug out, the water storage tank is filled with water through the water injection pipe, the soil humidity sensor is pre-embedded in soil of potted flowers, the temperature sensor is arranged above the potted flowers, the first controller receives the soil humidity value detected by the soil humidity sensor, when the set soil humidity value is reached, the controller controls the first motor to be started, so that the water in the water storage tank is sucked into the first water pump through the first water suction pipe, the water sucked into the first water pump is pressed out from the first water outlet pipe through the piston motion in the first water pump, the water stop valve is opened under the impact of water pressure, thereby the potted plants are watered, the second controller receives the air temperature value detected by the temperature sensor, when the set temperature value is reached, the second controller controls the second motor to be started, thereby will the water in the water storage tank absorbs water through the second and inhales the pipe and inhale the second water pump, through the piston motion in the second water pump, will inhale the water in the second water pump and extrude from the second outlet pipe, the atomizer start is controlled simultaneously to the second controller, atomizes the water in the second outlet pipe when the blowout to adjust the temperature to potted plant's growing environment. Through using power supply unit as few as possible, form small, with low costs, the full-automatic watering device that consumes energy fewly, it not only can control the time of watering volume and watering, and need not manual control after the installation, just can realize the watering function automatically.

2. The utility model discloses utilize the atomizer because the respiration of plant does not need illumination, and the plant also can breathe evening. The lower the temperature, the weaker the respiration and on the contrary the higher the respiration, since too strong the plant closes its stomata to prevent water loss. Therefore photosynthesis can strengthen along with the improvement photosynthesis of temperature, and not the temperature is higher yet, and photosynthesis does more, but under the temperature of adaptation, a single temperature superelevation, so the plant can be hot, also can close the valve and stop photosynthesis, prevents the loss of water, through temperature sensor monitors potted plant's growth ambient temperature, when the temperature surpassed normal growth's ambient temperature, through the atomizer is started to the second controller to carry out timely cooling to potted plant, thereby guarantee potted plant's photosynthesis efficiency, make its better growth.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of a full-automatic watering device for potted plants according to the present invention;

FIG. 2 is a flow chart of the control mechanism implementation.

The labels in the figure are: 1-device body, 2-water conveying mechanism, 3-water storage mechanism, 4-control mechanism, 1.1-device shell, 2.1-first motor, 2.2-first water pump, 2.3-first water inlet pipe, 2.4-first water outlet pipe, 2.5-water stop valve, 2.6-second motor, 2.7-second water pump, 2.8-second water inlet pipe, 2.9-second water outlet pipe, 2.10-atomizer, 3.1-water storage tank, 3.2-water injection pipe, 3.3-screw plug, 4.1-power supply, 4.2-first controller, 4.3-second controller, 4.4-soil humidity sensor, 4.5-temperature sensor, 4.6-display screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention, i.e., the described embodiments are only some, but not all embodiments of the invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by the person skilled in the art without creative work belong to the protection scope of the present invention.

It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The features and properties of the present invention are described in further detail below with reference to examples.

Example 1

As shown in the figure, the full-automatic watering device for the potted plants comprises a device body 1, a water transporting mechanism 2, a water storage mechanism 3 and a control mechanism 4, wherein the water transporting mechanism 2 is installed in the device body 1, the water storage mechanism 3 is arranged at the lower part of the device body 1, and the control mechanism 4 is arranged in the device body 1; the device body 1 comprises a device housing 1.1. The water transporting mechanism 2 comprises a first motor 2.1, a first water pump 2.2, a first water inlet pipe 2.3, a first water outlet pipe 2.4, a water stop valve 2.5, a second motor 2.6, a second water pump 2.7, a second water inlet pipe 2.8, a second water outlet pipe 2.9, an atomizer 2.10, a first motor 2.1 is embedded on the device shell 1.1, a first water pump 2.2 is embedded on the device shell 1.1, a rotor of the first water pump 2.2 is directly connected with a rotating shaft of the first motor 2.1, the first water pump 2.2 is arranged below the first motor 2.1, the top end of the first water inlet pipe 2.3 is fixed with a water suction hole of the first water pump 2.2, the top end of the first water outlet pipe 2.4 is fixed with the rotating shaft of the first water pump 2.2, the water stop valve 2.5 is arranged at the bottom end of the first water outlet pipe 2.4, the second motor 2.6 is embedded on the device shell 1.1, the second water pump 2.7 is embedded on the second water pump shell 1.2.2, and the second water pump 2.2.1.2.1 is directly connected with the rotating shaft of the second motor, the second water pump 2.7 is arranged below the second motor 2.6, the top end of the second water inlet pipe 2.8 is fixed with the water suction hole of the second water pump 2.7, the top end of the second water outlet pipe 2.9 is fixed with the water outlet hole of the second water pump 2.7, and the atomizer 2.10 is arranged at the bottom end of the second water outlet pipe 2.9. The water storage mechanism 3 includes storage water tank 3.1, water injection pipe 3.2, screw plug 3.3, storage water tank 3.1 sets up in device shell 1.1 bottom, the inlay of 3.2 bottoms of water injection pipe is established at storage water tank 3.1 top middle part, 3.2 bottoms of water injection pipe and 3.1 intercommunication settings of storage water tank, water injection pipe 3.2 runs through the setting in device shell 1.1, the top of 3.2 top of water injection pipe extends device shell 1.1 top middle part, screw plug 3.3 sets up on 3.2 tops of water injection pipe. Control mechanism 4 includes power 4.1, first controller 4.2, second controller 4.3, soil moisture sensor 4.4, temperature sensor 4.5, display screen 4.6, power 4.1 is connected with first motor 2.1, power 4.1 is connected with second motor 2.6, power 4.1 is connected with first controller 4.2, power 4.1 is connected with second controller 4.3, power 4.1 is connected with atomizer 2.10, first motor 2.1 is connected with first controller 4.2, second motor 2.6 is connected with second controller 4.3, first controller 4.2 is connected with stagnant water valve 2.5, first controller 4.2 is connected with soil moisture sensor 4.4, second controller 4.3 is connected with atomizer 2.10, second controller 4.3 is connected with temperature sensor 4.5. The first controller 4.2 receives a soil humidity value detected by the soil humidity sensor 4.4, controls the first motor 2.1 to be turned on and off according to the soil humidity value, so as to control the first water pump 2.2 to be turned on and off, the second controller 4.3 receives an air temperature value detected by the temperature sensor 4.5, controls the second motor 2.6 to be turned on and off according to the air temperature value, so as to control the second water pump 2.7 to be turned on and off, and controls the atomizer 2.10 to be turned on and off according to the air temperature value. Soil moisture sensor 4.4 is pre-buried in potted plant's soil, soil moisture sensor 4.4 sets up different pre-buried degree of depth according to different plant species, soil moisture sensor 4.4 sets up according to specific quantity demand cultivated in a pot. Temperature sensor 4.5 sets up in the top cultivated in a pot, temperature sensor 4.5 is according to different plant species set values, temperature sensor 4.5 sets up according to concrete quantity demand cultivated in a pot. The water stop valve 2.5 is a pressure valve.

The working principle of the embodiment is as follows:

screwing out the threaded plug 3.3, filling the water storage tank 3.1 with water through the water injection pipe 3.2, embedding the soil humidity sensor 4.4 in soil of potted flowers, arranging the temperature sensor 4.5 above the potted flowers, allowing the first controller 4.2 to receive a soil humidity value detected by the soil humidity sensor 4.4, allowing the controller to control the first motor 2.1 to start when the set soil humidity value is reached, allowing water in the water storage tank 3.1 to be sucked into the first water pump 2.2 through the first water suction pipe, allowing water sucked into the first water pump 2.2 to be pressed out from the first water outlet pipe 2.4 through piston movement in the first water pump 2.2, allowing the water stop valve 2.5 to open under impact of water pressure to water potted plants, allowing the second controller 4.3 to receive an air temperature value detected by the temperature sensor 4.5, and allowing the second controller 4.3 to control the second motor 2.6 to start when the set temperature value is reached, therefore, water in the water storage tank 3.1 is sucked into the second water pump 2.7 through the second water suction pipe, the water sucked into the second water pump 2.7 is pressed out from the second water outlet pipe 2.9 through the movement of the piston in the second water pump 2.7, the second controller 4.3 simultaneously controls the atomizer 2.10 to be started, and the water in the second water outlet pipe 2.9 is atomized when being sprayed out, so that the temperature of the growing environment of the potted plant is adjusted. Through using power supply unit as few as possible, form small, with low costs, the full-automatic watering device that consumes energy fewly, it not only can control the time of watering volume and watering, and need not manual control after the installation, just can realize the watering function automatically.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalent replacements, and improvements made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The utility model provides a full-automatic watering device for it is cultivated in a pot which characterized in that: the device comprises a device body (1), a water transporting mechanism (2), a water storage mechanism (3) and a control mechanism (4), wherein the water transporting mechanism (2) is arranged in the device body (1), the water storage mechanism (3) is arranged at the lower part of the device body (1), and the control mechanism (4) is arranged in the device body (1); the water transporting mechanism (2) comprises a first motor (2.1), a first water pump (2.2), a first water inlet pipe (2.3), a first water outlet pipe (2.4), a water stop valve (2.5), a second motor (2.6), a second water pump (2.7), a second water inlet pipe (2.8), a second water outlet pipe (2.9), an atomizer (2.10), a first motor (2.1) embedded on a device shell (1.1), a first water pump (2.2) embedded on the device shell (1.1), a rotor of the first water pump (2.2) is directly connected with a rotating shaft of the first motor (2.1), the first water pump (2.2) is arranged below the first motor (2.1), the top end of the first water inlet pipe (2.3) is fixed with a water suction hole of the first water pump (2.2), the top end of the first water outlet pipe (2.4) is fixed with the water stop valve (2.2), and a water outlet hole of the first water stop valve (2.5) is arranged at the bottom end of the first water outlet pipe (2.4), second motor (2.6) inlay and establish on device shell (1.1), second water pump (2.7) inlay and establish on device shell (1.1), the rotor of second water pump (2.7) directly links with the pivot of second motor (2.6), second water pump (2.7) set up in second motor (2.6) below, the top of second inlet tube (2.8) is fixed with the hole that absorbs water of second water pump (2.7), the top of second outlet pipe (2.9) is fixed with the apopore of second water pump (2.7), atomizer (2.10) set up the bottom at second outlet pipe (2.9).

2. A fully automatic watering device for a pot culture according to claim 1 further comprising: water storage mechanism (3) are including storage water tank (3.1), water injection pipe (3.2), screw plug (3.3), storage water tank (3.1) sets up in device shell (1.1) bottom, water injection pipe (3.2) bottom is inlayed and is established at storage water tank (3.1) top middle part, water injection pipe (3.2) bottom and storage water tank (3.1) intercommunication setting, water injection pipe (3.2) run through the setting in device shell (1.1), device shell (1.1) top middle part is extended on water injection pipe (3.2) top, screw plug (3.3) set up on water injection pipe (3.2) top.

3. A fully automatic watering device for a pot culture according to claim 1 further comprising: the control mechanism (4) comprises a power supply (4.1), a first controller (4.2), a second controller (4.3), a soil humidity sensor (4.4), a temperature sensor (4.5) and a display screen (4.6), wherein the power supply (4.1) is connected with a first motor (2.1), the power supply (4.1) is connected with a second motor (2.6), the power supply (4.1) is connected with the first controller (4.2), the power supply (4.1) is connected with the second controller (4.3), the power supply (4.1) is connected with an atomizer (2.10), the first motor (2.1) is connected with the first controller (4.2), the second motor (2.6) is connected with the second controller (4.3), the first controller (4.2) is connected with a water stop valve (2.5), the first controller (4.2) is connected with the soil humidity sensor (4.2), and the second controller (4.3) is connected with the atomizer (2.10), the second controller (4.3) is connected with a temperature sensor (4.5).

4. A fully automatic watering device for a pot culture according to claim 3 further comprising: the first controller (4.2) receives a soil humidity value detected by the soil humidity sensor (4.4), controls the opening and closing of the first motor (2.1) according to the soil humidity value so as to control the opening and closing of the first water pump (2.2), the second controller (4.3) receives an air temperature value detected by the temperature sensor (4.5), controls the opening and closing of the second motor (2.6) according to the air temperature value so as to control the opening and closing of the second water pump (2.7), and controls the opening and closing of the atomizer (2.10) according to the air temperature value.

5. A fully automatic watering device for a pot culture according to claim 3 further comprising: soil moisture sensor (4.4) are pre-buried in potted plant's soil, soil moisture sensor (4.4) set up different pre-buried degree of depth according to different plant species, soil moisture sensor (4.4) set up according to concrete quantity demand cultivated in a pot.

6. A fully automatic watering device for a pot culture according to claim 3 further comprising: temperature sensor (4.5) set up in potted plant top, temperature sensor (4.5) are according to different plant species set values, temperature sensor (4.5) are according to the quantity demand setting of concrete potted plant.

7. A fully automatic watering device for a pot culture according to claim 1 further comprising: the water stop valve (2.5) is a pressure valve.

Images