KR200454774Y1 - Multifunctional flowerpot - Google Patents

Abstract

Multifunctional pots are disclosed.
The pollen disclosed is a pollen body; A control box installed at one side of the flower pot body; A water tank installed above the pot body and storing water; A nutrient solution tank installed at an upper side of the pot body and storing nutrient solution; A planar heating element installed on the pot body; It is installed to be connected to the water tank or the nutrient solution tank, and provided with a plurality of discharge holes in communication with the inside of the pot body to discharge the water or nutrient solution supplied from the water tank or the nutrient solution tank to the inside of the pot body. Tube member; First and second open / close valves disposed between the water tank and the nutrient solution tank and the tube member to control the flow of the water or the nutrient solution; A photovoltaic panel installed on three sides of the control box except for the surface in contact with the flower pot body, the upper side being rotatably installed with respect to the control box, and generating electricity from sunlight; A motor having a motor rotating shaft connected to the rotating shaft of the solar panel by gear coupling to rotate the solar panel; A battery unit installed in the control box and charged with electric energy generated from the solar panel; A control unit which is built in the control box and supplies power to the planar heating element so that the planar heating element generates heat, or selectively opens and closes the first and second opening / closing valves so that the water or the nutrient solution is supplied into the plant pot body; It is characterized by including.

Description

Multifunctional Flowerpot {MULTI-FUNCTION FLOWERPOT}

The present invention relates to a flowerpot for planting flowers, and more particularly, to a flowerpot capable of preventing the East Sea and supplying nutrient solution and water.

Generally, a pot is a bowl in which flowers are planted.

When planting flowers in these pots, there was the hassle of bringing flowers into the house when the weather was cold and ovulation or bringing it outside when the weather was cold, in order to prevent the East Sea or cold sea in winter.

In addition, even if there is no person in the house and it is not necessary to operate the boiler, it is necessary to operate the boiler on purpose to prevent freezing of the flowers and freezing of flowers that have been brought into the house. There was a problem.

On the other hand, in the case of watering the potted plant, it was cumbersome to water the pot by putting water directly in the bucket, and in particular, it was not remembered well to periodically water the plant, which caused the plant to die. A case also occurred.

The present invention has been made to solve the conventional problems as described above, it is an object to provide a multifunctional pot with improved structure to have the function of preventing the sea and the supply of nutrient solution and water.

In addition, it is possible to provide power by itself by generating power using solar energy, and the purpose is to provide a multifunctional pot that can reduce the size of the product by periodically converting the position of the solar panel for the photovoltaic power generation.

In addition, it is an object of the present invention to provide a multifunctional pot that can be supplied evenly and more efficiently to the nutrient solution and water supplied to the pot.

Multifunctional flowerpot of the present invention for achieving the above object is a flowerpot body; A control box installed at one side of the flower pot body; A water tank installed above the pot body and storing water; A nutrient solution tank installed at an upper side of the flower pot body to store a medicinal solution; A planar heating element installed on the pot body; It is installed to be connected to the water tank or the nutrient solution tank, and provided with a plurality of discharge holes in communication with the inside of the pot body to discharge the water or nutrient solution supplied from the water tank or the nutrient solution tank to the inside of the pot body. Tube member; First and second open / close valves disposed between the water tank and the nutrient solution tank and the tube member to control the flow of the water or the nutrient solution; A photovoltaic panel installed on three sides of the control box except for the surface in contact with the flower pot body, the upper side being rotatably installed with respect to the control box, and generating electricity from sunlight; A motor having a motor rotating shaft connected to the rotating shaft of the solar panel by gear coupling to rotate the solar panel; A battery unit installed in the control box and charged with electric energy generated from the solar panel; A temperature sensor and a humidity sensor installed in the pot body and detecting temperature and humidity of soil contained in the pot body, respectively; And supplying power to the planar heating element so that the planar heating element generates heat in the control box, or selectively opening and closing the first and second opening / closing valves so that the water or the nutrient solution is supplied into the pot body. And a controller electrically connected to the temperature sensor and the humidity sensor to open the first opening / closing valve and supply water from the water tank to the pot body according to the humidity value detected by the humidity sensor. .
The tube member is a spiral shape that narrows the central axis is narrowed toward the downward direction, the tube member is installed in a mounting space formed to surround the inside of the pot body, the planar heating element to surround the inside of the pot body It may be installed in the mounting space.
A display unit installed in the control box and displaying a temperature value detected by the temperature sensor, a humidity value detected by the humidity sensor, and an amount of electricity charged in the battery unit; And an operation unit installed in the control box and operating the control unit according to a user's operation.

According to the above, the multi-functional pot of the present invention is to supply power to the surface heating element in accordance with the temperature value detected from the temperature sensor to maintain the temperature of the pot to a certain temperature to prevent the freeze or cold damage of flowers (plants) There is.

In addition, according to the humidity value detected from the humidity sensor, since the water is automatically supplied and the nutrient solution is automatically supplied periodically, it is possible to create the optimal environment for plant growth.

In addition, there is no restriction on the installation position of the flower pot because it supplies power by solar power generation using a solar panel, and also because it is a structure that receives the sunlight unfolded from the control box only during the time when the solar panel can be photovoltaic power generation, The effect is to make the product compact.

In addition, since the water or nutrient solution is supplied to the inside of the pot body while pivoting through the spiral tube, there is an effect that can be evenly supplied to the pot body.

1 is a perspective view of a multifunctional pot according to an embodiment of the present invention,
2 is a block diagram showing a control relationship of a multifunctional plant according to an embodiment of the present invention,
3 is a cross-sectional view showing only a potted body, a water tank, and a nutrient solution tank except for the control box in FIG.
4 is a perspective view schematically showing the tube member and the on-off valve in FIG. 3,
5 is a perspective view showing only a control box portion in the multifunctional plant pot according to an embodiment of the present invention, the solar panel is unfolded from the control box,
FIG. 6 is a view illustrating a state in which a solar panel installed in a control box in FIG. 5 is coupled to a motor.

Objects, features and advantages of the present invention will be readily understood through the following preferred embodiments associated with the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosed contents may be thorough and complete, and to fully convey the spirit of the present invention to those skilled in the art.

In this specification, when an element is referred to as being on another element, it may be directly formed on another element, or a third element may be interposed therebetween. In addition, in the drawings, the thickness of the components are exaggerated for the effective description of the technical content.

In describing the following specific embodiments, various specific details are set forth in order to more specifically explain and to help understand the invention. However, readers with knowledge in this field to the extent that they can understand the present invention can recognize that they can be used without these specific details. In some cases, it is noted that parts of the invention that are commonly known in the description of the invention and that are not highly related to the invention are not described in order to prevent confusion for no reason.

Hereinafter, with reference to the drawings will be described a multi-functional pot according to an embodiment of the present invention.

1 to 6, the multifunctional plant 100 is a pot body 111, water tank 121, nutrient solution tank 122, tube member 123, opening and closing valves (124a, 124b), planar heating element ( 125, temperature sensor 126, humidity sensor 127, control box 131, solar panel 133, battery unit 134, motor 136, display unit 137, operation unit 138 and And a control unit 139.

1 and 3, the pot body 111, the upper portion is open, is formed in the inverted cone shape of the ordinary light lower narrow. Inside the pot body 111 (S) is a space in which soil for planting flowers is contained by a certain height. The bottom surface of the pot body 111 is formed with a drain hole 113 for draining the water supplied to the inside (S).

The pollen body 111 of the present embodiment is composed of an inner cylinder 111a and an outer cylinder 111b spaced apart from the inner cylinder 111a, and an inner portion S of the main body 111 between the inner cylinder 111a and the outer cylinder 111b. The mounting space 112 is formed to surround. A plurality of outlet holes 114 are formed in the inner cylinder 111a, and are formed along a spiral shape.

The water tank 121 is a space in which water is stored, and is formed above the pot body 111 and is formed in a semi-circular ring shape.

The nutrient solution tank 122 is a space in which the nutrient solution is stored. The nutrient solution tank 122 is formed above the pollen body 111 and is formed in a semi-circular shape.

Both ends of the water tank 121 and both ends of the nutrient solution tank 122 are installed adjacent to each other, so that the water tank 121 and the nutrient solution tank 122 have a circular ring shape, and thus the upper side of the pot body 111. Is installed on. At this time, the water tank 121 and the nutrient solution tank 122 are provided with stoppers 121a and 122b, respectively, to open the stoppers 121a and 122b to replenish water in the water tank 121, or to the nutrient solution tank 122. Can replenish nutrients.

Tube member 123 is formed of a synthetic plastic material with elasticity, one side end is divided into two, the first side end 123a is connected to the lower portion of the water tank 121, the second side end 123b is a nutrient solution tank Is connected to the lower portion of the 122.

As shown in FIG. 4, the tube member 123 has a spiral shape in which the central axis becomes narrower toward the lower direction, and is installed in the mounting space 112 to surround the outer circumferential surface of the inner cylinder 111a. The discharge member 123c is formed in the tube member 123 so as to communicate with the plurality of outlet holes 114 formed in the inner cylinder 111a. That is, the tube member 123 is adhered to the outer circumferential surface of the inner cylinder 111a so that the plurality of outlet holes 114 and the discharge holes 123c contact each other.

A first opening / closing valve 124a is installed between the water tank 121 and the tube member 123 so that the water stored in the water tank 121 opens and closes the flow of the fluid supplied to the tube member 123. A second opening / closing valve 124b is installed between the stock solution tank 122 and the tube member 123 so that the nutrient solution stored in the 122 opens and closes the flow of the fluid supplied to the tube member 123. The open / close valves 124a and 124b are electrically connected to the control unit 139 to be described later as an electronic valve, and the open / close valves 124a and 124b are controlled by the control unit 139.

With the above configuration, when the first on-off valve 124a is opened, the water in the water tank 121 flows into the tube member 123, and then moves to the lower end of the helical tube member 123 while moving the tube member 123. Water is supplied to the inside S of the pot body 111 through a plurality of outlet holes 114 of the discharge hole 123c and the pot body 111 formed in the).

Similarly, when the second opening / closing valve 124b is opened, the nutrient solution in the nutrient solution tank 122 flows into the tube member 123, and then moves to the lower end of the spiral tube member 123 to be formed in the tube member 123. The nutrient solution is supplied to the inside S of the pot body 111 through a plurality of outlet holes 114 of the discharge hole 123c and the pot body 111.

On the other hand, in the state in which the first on-off valve 124a and the second on-off valve 124b are opened together, water and nutrient solution flow into the tube member 123 together, and are pivoted through the spiral tube member 123 to be mixed. While moving to the lower end of the tube member 123, the mixed solution in this process is the pollen body through a plurality of outlet holes 114 of the discharge hole (123c) and the pot body 111 formed in the tube member 123 It is supplied to the inside S of 111.

The planar heating element 125 is coupled to the inner circumferential surface of the outer cylinder 111b so as to surround the inside S of the flower pot body 111 and installed in the mounting space 112 as shown in FIG. 3.

Since the planar heating element 125 is a known technique as a plate-shaped heating element that generates heat when electricity is supplied, a detailed description of the configuration of the planar heating element will be omitted.

The temperature sensor 126 detects the temperature of the inside S of the pot body 111. In particular, it is for detecting the temperature of the soil contained in the inner (S) of the pot body (111). To this end, the temperature sensor 126 is preferably installed on one side of the inner peripheral surface of the inner cylinder (111). Humidity sensor 127 is preferably installed on one side of the inner circumferential surface of the inner cylinder 111 as a means for detecting the humidity of the soil contained in the inner (S) of the pot body (111). At this time, the temperature sensor 126 and the humidity sensor 127 are electrically connected to the control unit 139, the control unit 139 according to the electrical signals generated from the temperature sensor 126 and the humidity sensor 127 is a temperature value And humidity can be measured.

The control box 131 is installed on one side of the plant pot body 111, three sides other than the contact with the planter body 111 is formed in a rectangular plate shape. As shown in FIG. 2, the control box 131 includes each electronic component, ie, the solar panel 133, except for the on / off valves 124a and 124b, the planar heating element 125, the temperature sensor 126, and the humidity sensor 127. The battery unit 134, the motor 136, the display unit 137, and the operation unit 138 are provided.

The solar panel 133 is for generating electricity from sunlight. Referring to FIGS. 1, 5, and 6, each of the three sides of the control box 131 except for the surface in contact with the flowerpot body 111 is provided. Three of them are installed. The rotating shaft 133a formed on the solar panel 133 is rotatably installed in the control box 131.

The battery unit 134 is built in the control box 131 and is electrically connected to the solar panel 133 to charge the electric energy generated by the solar panel.

The motor 136 is for rotating the solar panel 133 with respect to the control box 131, and the gear g2 coupled to the rotation shaft of the motor 136 is connected to the rotation shaft 133a of the solar panel 133. The combined gear g1 is geared to each other so that the rotating shaft 133a of the solar panel 133 rotates as the motor 136 rotates so that the solar panel 133 rotates.

In the present embodiment, the motor 136 is installed on each of the three solar panels 133 and consists of three, and the gear coupling structure of the motor 136 and the solar panel 133 is the same in all three pairs. However, one motor may be configured, and a rotation force of the motor may include a power transmission means capable of rotating all three solar panels 133.

The display unit 137 is installed on one side of the upper surface of the flower pot body 111 and is electrically connected to the control unit 139, and the temperature value detected by the temperature sensor 126, the humidity value detected by the humidity sensor 127, and The amount of electricity charged in the battery unit 134 is displayed.

In addition, the display unit 137 may display a set temperature, a set humidity, etc. set by the user when the user manipulates the manipulation unit 138.

The operation unit 138 is installed at one side of the upper surface of the control box 131, and controls the control unit 139 according to the user's operation to manually operate the surface heating element 125, the opening / closing valves 124a and 125b, and the motor 136. Control means, or means for modifying or setting the set temperature, set humidity, and motor operation cycle recorded in the controller 139. In the present exemplary embodiment, the manipulation unit 138 is provided with a button-type keypad, but the manipulation unit 138 may be a screen touch method coupled to the display unit 139.

The control unit 139 includes on-off valves 124a and 124b, a planar heating element 125, a temperature sensor 126, a humidity sensor 127, a solar panel 133, a battery unit 134, a motor 136, and a display. It is electrically connected to the unit 137 and the operation unit 138 to control the respective components.

The control unit 139 stores the set temperature, and measures the detected temperature value according to the electrical signal detected by the temperature sensor 126, compares it with the set temperature, and automatically detects if the detected temperature value is less than the set temperature value. Power is supplied from the battery unit 134 to the heating element 125 to heat the planar heating element 125.

For example, when the East Sea or cold sea prevention temperature of a flower (plant) to be planted in the multifunctional flowerpot 100 of the present invention is 10 degrees or more, if the set temperature is set to the control unit 139 to 10 degrees or more, the control unit 10 is The planar heating element 125 is controlled such that the temperature of the pot is maintained at 10 degrees or more by comparing the temperature value detected from the temperature sensor 126 with the set temperature.

In addition, the control unit 139 stores the set humidity, and measures the detected humidity value according to the electrical signal detected by the humidity sensor 126. The open / close valve 111 is opened to supply the water of the water tank 121 to the inside S of the pot body 111. In addition, the control unit 139 records the set nutrient solution supply cycle, and opens the second open / close valve 111 according to the nutrient solution supply cycle to supply the nutrient solution of the nutrient solution tank 122 to the inside S of the pot body 111. do.

In addition, the control unit 139 extends the solar panel 133, the motor operating cycle is set so that the solar panel 133 can receive sunlight is stored, and can generate electricity from the sunlight according to the motor operating cycle During the day time, the motor 136 is driven to unfold the solar panel 133 at a right angle from the control box 131, and the solar panel 133 is the control box 131 in the evening or night time when the sun is not floating. The motor 136 is driven to overlap.

Hereinafter, with reference to the drawings will be described the operation of the multifunctional pot according to an embodiment of the present invention.

The multifunctional flowerpot 100 according to the present embodiment may include an automatic mode and a manual mode.

The control unit 139 compares the detected temperature value detected by the temperature sensor 126 with the set temperature value set in the control unit 139. If the detected temperature value is lower than the set temperature value, the power of the battery unit 134 is turned on. By supplying the temperature to the pot 125, the pot temperature can be automatically maintained at a constant temperature at which the potted water or cold sea is prevented.

In addition, the control unit 139 compares the detected humidity value detected by the humidity sensor 127 with the set humidity value set in the control unit 139, and if the detected humidity value is less than the set humidity value, the first opening / closing valve 124a is opened. By opening, the water in the water tank 121 is automatically supplied to the interior (S) of the pot body 111 to maintain a constant moisture state of the soil contained in the pot body 111. In this case, while the water of the water tank 121 is pivotally moved through the spiral tube member 123, the pollen body 111 through the plurality of discharge holes 123c and the plurality of outlet holes 114 of the pollen body 111. Since it is supplied to the inside (S), water is distributed evenly distributed throughout the inside (S) of the pot body 111 is more effective in the growth and development of flowers (plants).

In addition, the control unit 139 opens the second on-off valve 111 in accordance with the set nutrient solution supply cycle to automatically supply the nutrient solution of the nutrient solution tank 122 to the interior (S) of the potted plant body 111 to have a potted plant body 111. It helps to develop growth by supplying nutrients to the soil periodically. In this case, the nutrient solution of the nutrient solution tank 122 pivots through the spiral tube member 123 while passing through the plurality of discharge holes 123c and the plurality of outlet holes 114 of the potted body 111. Since it is supplied to the interior (S) of the), the nutrient solution is supplied to the interior (S) of the pot body 111 to be evenly distributed throughout.

In addition, the control unit 139 controls the motor 136 according to the motor operating cycle set to be unfolded from the control box 131 to the position where the solar panel 133 can receive sunlight only during the time when the sun is floating. During the day time, the motor 136 is driven to unfold the solar panel 133 at a right angle from the control box 131, and the solar panel 133 is the control box 131 in the evening or night time when the sun is not floating. The motor 136 is driven to overlap. As described above, since the multifunctional pot 100 according to the present embodiment uses the photovoltaic panel 133 to generate photovoltaic power and supplies power to itself, there is no limit to the installation position of the pot. In other words, when using an external commercial power source, there is a restriction on the installation position of the pot according to the length of the power cord, the present invention is not only need the power cord by using the solar panel 133 self-generated, installation location There is no limit.

In addition, even when compared to a power supply using a battery, the multifunctional flowerpot of the present invention has no need to change the battery frequently.

In addition, the solar panel 133 according to the present embodiment, the solar panel 133 is unfolded in the control box 131 only when the photovoltaic power generation according to the setting cycle, the control box 131 when the solar power generation is not Because it is folded closely) there is an effect that can be produced compactly multi-functional flower pot (100).

Meanwhile, the user may manually control the first on-off valve 124a, the second on-off valve 124b, and the motor 136 by manipulating the operation unit 138.

111 ... pot body
121 ... Water Tank
122.Nutrient Tank
124a, 124b ... Open / Close Valve
125.plane heating element
126.Temperature sensor
127 ... humidity sensor
131 Control Box
133 ... Solar Panel
134 Battery compartment
136 ... motor
137 Display unit
138.Control Panel
139.Control panel

Claims (3)

Pollen body;
A control box installed at one side of the flower pot body;
A water tank installed above the pot body and storing water;
A nutrient solution tank installed at an upper side of the pot body and storing nutrient solution;
A planar heating element installed on the pot body;
It is installed to be connected to the water tank or the nutrient solution tank, and provided with a plurality of discharge holes in communication with the inside of the pot body to discharge the water or nutrient solution supplied from the water tank or the nutrient solution tank to the inside of the pot body. Tube member;
First and second open / close valves disposed between the water tank and the nutrient solution tank and the tube member to control the flow of the water or the nutrient solution;
A photovoltaic panel installed on three sides of the control box except for the surface in contact with the flower pot body, the upper side being rotatably installed with respect to the control box, and generating electricity from sunlight;
A motor having a motor rotating shaft connected to the rotating shaft of the solar panel by gear coupling to rotate the solar panel;
A battery unit installed in the control box and charged with electric energy generated from the solar panel;
A temperature sensor and a humidity sensor installed in the pot body and detecting temperature and humidity of soil contained in the pot body, respectively; And,
Built in the control box to supply power to the planar heating element so that the planar heating element generates heat, or selectively open and close the first and second on-off valve so that the water or the nutrient solution is supplied into the pot body, And a controller electrically connected to a sensor and the humidity sensor to open the first opening / closing valve according to the humidity value detected by the humidity sensor to supply water from the water tank to the pot body. .
The method of claim 1,
The tube member is a spiral shape that narrows the central axis is narrowed toward the downward direction, the tube member is installed in a mounting space formed to surround the inside of the pot body,
The planar heating element is a multifunctional pot, characterized in that installed in the mounting space to surround the inside of the pot body.
The method of claim 1,
A display unit installed in the control box and displaying a temperature value detected by the temperature sensor, a humidity value detected by the humidity sensor, and an amount of electricity charged in the battery unit; And,
The control box is installed in the control box, the operation unit for operating the control unit in accordance with the user's operation.

Images