KR102533574B1 - Condensation prevention lid openable terrarium - Google Patents

Abstract

The present invention relates to an open/closed terrarium with an anti-condensation lid capable of preventing condensation by opening and closing a lid to prevent condensation, determining whether a condensation-probable condition corresponds to a value detected by a sensor, and preventing condensation. It relates to a terrarium capable of preventing or removing condensation, which includes a body portion supporting the entire terrarium; A protective tube for isolating the inside of the terrarium from the outside on the top of the main body; a support portion protruding from an upper portion of the main body portion to support the protective tube; a sensor unit for sensing internal and external temperature and humidity of the terrarium; and a controller configured to open and close the protective tube based on the temperature and humidity values sensed by the sensor unit.

Description

Anti-condensation lid openable terrarium {CONDENSATION PREVENTION LID OPENABLE TERRARIUM}

The present invention relates to an open/closed terrarium with an anti-condensation lid capable of preventing condensation by opening and closing a lid to prevent condensation, determining whether a condensation-probable condition corresponds to a value detected by a sensor, and preventing condensation. It relates to a terrarium that can prevent or remove condensation.

In general, terrarium in English has the meaning of an animal breeding ground for breeding small terrestrial animals. However, in horticultural terms, it is also called bottle garden because the main container is a bottle type. A terrarium is a gardening practice that serves as an indoor decoration by planting three or four types of plants in a container for viewing.

The plant transplanted into the container grows with almost no water and fertilizer other than light from the outside. In other words, it photosynthesizes and breathes under the weak sunlight indoors, absorbs nutrients from the soil in the container along with moisture, and the water evaporates and returns to the soil. will achieve Therefore, like regular bonsai, there is much less concern about watering every day, fertilizer, pests, etc. during growth, so the cost and effort to grow is reduced, but care must be taken with the place and lighting. If you place it in a place exposed to direct sunlight or in a dark place, the inside of the container will become hot and cause the plant to dry out or yellow the leaves due to lack of photosynthesis.

However, since the terrarium forms a closed ecosystem, the internal and external environments are different, and condensation occurs inside depending on the temperature difference and humidity, which can ruin the growth environment or lose the original purpose of the ornamental function. Therefore, there is a need for a terrarium capable of solving these problems.

Accordingly, the present invention is to solve the above problems, to provide a condensation-preventing lid opening and closing type terrarium capable of preventing and removing condensation by detecting an environment in which condensation occurs in advance and opening the lid.

The present invention is to provide an anti-condensation lid opening and closing terrarium capable of detecting a condensation environment inside the terrarium in advance, removing the condensation environment by circulating air to remove the condensation, and quickly removing the condensation.

An openable terrarium with an anti-condensation lid according to an embodiment of the present invention for solving the above problem includes a body portion supporting the entire terrarium; A protective tube for isolating the inside of the terrarium from the outside on the top of the main body; a support portion protruding from an upper portion of the main body portion to support the protective tube; a sensor unit for sensing internal and external temperature and humidity of the terrarium; and a controller configured to open and close the protective tube based on the temperature and humidity values sensed by the sensor unit.

According to one embodiment of the present invention, the protective tube is an upper protective tube; and a lower protective pipe, wherein the control unit determines whether or not a condensation generating condition is satisfied by using the inside/outside temperature and humidity data of the terrarium detected by the sensor unit, and if the condensation generating condition is met, the support unit removes the upper protective tube. By pushing up, the upper protective tube is spaced apart from the lower protective tube to open the inside of the terrarium.

According to one embodiment of the present invention, the blower for supplying external air through the inside of the support; The control unit may cause the blowing unit to supply air to the inside of the terrarium when the condensation generation condition is met.

According to one embodiment of the present invention, the upper protective pipe has a streamlined shape for inducing a flow of air supplied from the blowing unit, and has a wider lower part than the upper part, and the upper end of the support part pushes up the upper protective tube. It may further include a guide part spaced apart from the support body and having a discharge port through which air supplied from the blower is supplied, located below an upper end of the support portion, and guiding a flow of air supplied from the discharge port.

According to one embodiment of the present invention, the blowing unit guides the sucked external air to the discharge port, and the blow pipe narrows in width toward the discharge port; and a heating unit for heating the air sucked into the blower pipe.

According to an embodiment of the present invention, the control unit may adjust the heating temperature of the heating unit based on the difference between the inside and outside temperatures detected by the sensor unit.

According to an embodiment of the present invention, the control unit may control an operating time of the blower unit based on internal and external temperature and humidity data detected by the sensor unit.

According to an embodiment of the present invention, the controller opens the terrarium by pushing up the upper protective tube when the condensation generation condition is met, and controls the opening time of the terrarium based on the growth temperature range inside the terrarium. can

According to an embodiment of the present invention, the control unit may determine whether condensation conditions are applicable to the inside and outside of the terrarium by calculating Equation 1 below, and control the opening of the terrarium and the operation of the blower.

[Equation 1]

는 테라리움 내부온도,

는 테라리움 외부온도,

는 테라리움 내부습도,

는 테라리움 외부습도,

는 결로 발생 조건 값이다.)(here,

is the temperature inside the terrarium,

is the outside temperature of the terrarium,

is the humidity inside the terrarium,

is the external humidity of the terrarium,

is the condensation condition value.)

According to the present invention, it is possible to prevent and remove condensation by detecting an environment in which condensation occurs in advance and opening the lid.

In addition, it is possible to detect the condensation environment inside the terrarium in advance, remove the condensation environment by circulating air to remove the condensation, and quickly remove the condensation.

On the other hand, the effects of the present invention are not limited to the effects mentioned above, and various effects may be included within a range apparent to those skilled in the art from the contents to be described below.

1 is a cross-sectional view of an openable terrarium with an anti-condensation lid according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of the internal structure of the anti-condensation lid opening and closing terrarium according to an embodiment of the present invention.
3 is an example of an air outlet of an openable terrarium with an anti-condensation lid according to an embodiment of the present invention.
4 is a table investigating condensation generating conditions.
5 is a graph of condensation generating conditions.

Hereinafter, a 'condensation-preventing lid openable terrarium' according to the present invention will be described in detail with reference to the accompanying drawings. The described embodiments are provided so that those skilled in the art can easily understand the technical idea of the present invention, and the present invention is not limited thereby. In addition, matters represented in the accompanying drawings may be different from those actually implemented in the drawings schematically illustrated to easily explain the embodiments of the present invention.

On the other hand, each component expressed below is only an example for implementing the present invention. Accordingly, other components may be used in other implementations of the present invention without departing from the spirit and scope of the present invention.

In addition, each component may be implemented purely with hardware or software configurations, but may also be implemented with a combination of various hardware and software configurations that perform the same function. In addition, two or more components may be implemented together by a single piece of hardware or software.

In addition, the expression 'including' certain components simply refers to the existence of the corresponding components as an expression of 'open type', and should not be understood as excluding additional components.

1 is a cross-sectional view of a terrarium with an openable and closed lid with an anti-condensation lid according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of an internal structure of a terrarium with an open and closed anti-condensation lid according to an embodiment of the present invention, and FIG. An example of an air discharge port of an open/closed terrarium with an anti-condensation lid according to an embodiment, FIG. 4 is a table examining conditions for condensation, and FIG. 5 is a graph of conditions for condensation.

1 to 5, the anti-condensation lid opening and closing terrarium 10 according to an embodiment of the present invention includes a body part 100, a support part 200, a blowing part 300, a protective tube 400, and a sensor part. 500 and a control unit 600.

The main body portion 100 may support the entire terrarium 10 with the anti-condensation lid openable. The body portion 100 may be made of a hard material that maintains its shape. The body part 100 may be set on a flat bottom and may include a part of the blowing part 300, a part of the sensor part 500, and the control part 600 therein. At least a part of the upper surface of the body part 100 has a flat structure, and soil for plant growth inside the terrarium may be laid or plants may be placed on the upper surface. A part of the support part 200, a part of the blower part 300, and a part of the sensor part 500 may be coupled or connected to an upper surface of the main body part 100.

The protective tube 400 may be located above the body part 100 . The protective tube 400 may isolate the inside of the anti-condensation cover type terrarium 10 from the outside. The protective tube 400 may form an airtight space by sealing the inside of the anti-condensation lid openable terrarium 10 . The protective tube 400 may be made of a transparent material. The protective tube 400 may be made of a hard material that maintains its shape. The protective tube 400 may be made of transparent glass or transparent plastic material, but is not limited thereto and may include all transparent hard materials.

According to an embodiment of the present invention, the protective tube 400 may include an upper protective tube 410 and a lower protective tube 420 . The upper protective tube 410 and the lower protective tube 420 are coupled to isolate the inside of the anti-condensation cover type terrarium 10 from the outside. The upper protective tube 410 and the lower protective tube 420 may be separated by moving the upper protective tube 410 to be separated from the lower protective tube 420 . When the upper protective tube 410 and the lower protective tube 420 are separated, the anti-condensation cover openable terrarium 10 is opened so that air can be exchanged between the inside and the outside of the condensation preventive lid openable terrarium 10. The lower protective tube 420 may be coupled to the body part 100 . The lower protective tube 420 may be fixed to the main body 100 to limit an area of soil or plants inside the openable terrarium 10 with an anti-condensation cover.

The upper protective pipe 410 may have a streamlined shape for inducing a flow of air supplied from the blowing unit 300 . The upper protective tube 410 may have a shape in which a lower portion is wider than an upper portion. In the upper protective pipe 410, the air supplied through the blower 300 flows through the upper protective pipe 410 toward the lower protective pipe 420 or to the outside of the anti-condensation lid openable terrarium 10. can be ejected.

The support part 200 may protrude from the top of the main body part 100 to support the protective tube 400 . The support part 200 may protrude above the main body part 100 to support the upper protective tube 410 . The support part 200 may be made of a hard material that maintains its shape. The support part 200 may be made of a material such as plastic, ceramic, or metal, but is not limited thereto and may include all hard materials.

The support part 200 may include a support part body 210, a moving member 220, an induction part 230, and a discharge port 240.

The support body 210 may protrude from the top of the main body 100 and be formed in a long bar shape. The upper end of the support body 210 may be coupled to the protective tube 400 or the upper protective tube 410 . The upper end of the support body 210 may be separated. The support body 210 may be made of a hard material that maintains its shape. The support body 210 may be made of a material such as plastic, ceramic, or metal, and may include all hard materials without being limited thereto. The support body 210 may include a part of the blower 300 therein. The support body 210 may include the blowing pipe 310 therein. The inside of the support body 210 may be empty. Since the inside of the support body 210 is empty, air supplied from the blower 300 can be blown into the terrarium 10 with an open/closed lid preventing condensation. The inner space of the support body 210 forms one tube, and the blower 300 is included therein and may be connected to the outside through the main body 100 . The space inside the support body 210 is connected to the outside through a through-hole formed on one surface of the main body 100 so that the blower 300 blows outside air into the protective tube 400 or the anti-condensation lid opening and closing type. It can be supplied to the inside of the terrarium (10).

The movable member 220 may be located in an internal space of the support body 210 . The movable member 220 may be connected to and fixed to an upper end of the support body 210 . The movable member 220 is coupled to the upper end of the support body 210, and when the movable member 220 moves, the upper end of the support body 210 moves while the protective tube 400 or the upper protective tube 410 can make this move. The discharge port 240 may be formed below the upper end of the support body 210 . When the movable member 220 rises, the upper end of the support body 210 rises and the protective tube 400 or the upper protective tube 410 rises, and the inside of the anti-condensation lid openable terrarium 10 is opened to the outside. and air exchange can occur. The movable member 220 may be made of a hard material that maintains its shape. The movable member 220 may be made of a material such as plastic, ceramic, or metal, but is not limited thereto and may include all hard materials.

The induction part 230 may be formed in the form of an inclined plane on the lower surface of the upper end of the support part body 210 . The induction part 230 may be located inside the support body 210 when the upper end of the support body 210 is coupled with the support body 210 . The guide part 230 is located below the upper end of the support part 200 and can induce a flow of air supplied from the discharge port. The induction part 230 may have a parabolic cross section so that air flows along the protective tube 400 . The induction unit 230 may guide air in a vertical upward direction to be supplied toward the protective pipe 400 in a horizontal or upward diagonal direction.

The discharge port 240 may be formed below the upper end of the support body 210 . Air supplied through the air blower 300 may be supplied to the inside of the openable terrarium 10 with an anti-condensation lid from the outlet 240 . When the air outlet 240 or the air blower 310 included in the support body 210 does not operate, air flow may be blocked.

The sensor unit 500 may include a temperature sensor and a humidity sensor. The sensor unit 500 may detect the temperature and humidity inside and outside the condensation-preventing lid openable terrarium 10 . The sensor unit 500 may include an internal temperature sensor, an internal humidity sensor, an external temperature sensor, and an external humidity sensor.

The sensor unit 500 may sense the temperature and humidity of the inner space of the terrarium inside the protective tube 400 of the terrarium 10 with the anti-condensation cover openable. The sensor unit 500 may include an external sensor 1 protruding outside the body unit 100 . The external sensor 1 may include an external temperature sensor and an external humidity sensor. The sensor unit 500 may detect temperature and humidity outside the protective tube 400 of the terrarium 10 with an open/closed lid preventing condensation.

The sensor unit 500 may detect values of the terrarium internal temperature, terrarium external temperature, terrarium internal humidity, and terrarium external humidity.

The control unit 600 may open and close the protective tube 400 based on the temperature and humidity values sensed by the sensor unit 500 . The control unit 600 raises or lowers the movable member 220 of the support unit 200 based on the temperature and humidity values sensed by the sensor unit 500 so that the protective tube 400 or the upper protective tube 410 ) may be raised or lowered to open and close the terrarium.

The control unit 600 determines whether or not the condensation generating condition is satisfied by using the internal and external temperature and humidity data of the terrarium 10 detected by the sensor unit 500, and if the condensation generating condition is met, the support unit 600 determines whether the upper protective tube By pushing up, the upper protective tube is spaced apart from the lower protective tube to open the inside of the terrarium.

The blowing unit 300 may supply external air through the inside of the support unit 200 .

The controller 600 may allow the blower 300 to supply air to the inside of the terrarium 10 when the condensation generation condition is met.

The blower 300 may further include a blower pipe 310 that guides sucked external air to the discharge port and narrows in width toward the discharge port, and a heating unit 320 that heats the air sucked into the blower pipe. .

The control unit 600 may adjust the heating temperature of the heating unit 320 based on the difference between the inside and outside temperatures detected by the sensor unit 500 . The heating unit 320 may include a variable resistor. The amount of heat generated by the heating unit 320 may vary according to a change in the resistance value of the variable resistor. The control unit 600 may adjust the temperature of the air supplied through the outlet 240 by adjusting the value of the variable resistor according to the difference between the internal temperature of the terrarium and the external temperature of the terrarium. The control unit 600 may lower the value of the variable resistor as the difference between the internal temperature of the terrarium and the external temperature of the terrarium increases, and increase the value of the variable resistor as the difference decreases. The control unit 600 may not operate the heating unit 320 when the internal temperature of the terrarium is higher than the external temperature of the terrarium. The control unit 600 may increase the value of the variable resistance of the heating unit 320 when the difference between the internal temperature of the terrarium and the external temperature of the terrarium decreases. When the internal condition of the terrarium 10 corresponds to the condensation generating condition, the control unit 600 may maintain the value of the variable resistance of the heating unit at the lowest value regardless of the difference between the internal temperature of the terrarium and the external temperature of the terrarium.

The control unit 600 may control the operation time of the blower unit 300 based on the data of internal and external temperature and humidity sensed by the sensor unit 500 . The control unit 600 may be operated for about 2 to 5 minutes to remove condensation generated inside the terrarium 10 based on the internal and external temperature and humidity data detected by the sensor unit 500 .

The control unit 600 may determine whether condensation conditions are achieved inside or outside the protective tube 400 according to the internal and external temperature and humidity data sensed by the sensor unit 500 . The control unit 600 may maintain the value of the variable resistance of the heating unit at a minimum value regardless of the difference between the internal temperature of the terrarium and the external temperature of the terrarium when a condensation generating condition is achieved inside the protective tube 400.

The terrarium 10 may set a growth temperature range for plants growing therein. The growth temperature range may be directly set by the user. For example, when growing silk moss, the user may designate the growth temperature range between 18 degrees and 25 degrees. The control unit 600 opens the terrarium 10 by pushing up the upper protective tube 400 when the condensation generation condition is met, and the terrarium 10 is formed based on the growth temperature range inside the terrarium 10. opening time can be controlled.

The control unit 600 may determine whether or not condensation may occur inside and outside the terrarium by calculating Equation 1 below, and may control the opening of the terrarium and the operation of the blowing unit.

[Equation 1]

는 테라리움 내부온도,

는 테라리움 외부온도,

는 테라리움 내부습도,

는 테라리움 외부습도,

는 결로 발생 조건 값이다. here,

is the temperature inside the terrarium,

is the outside temperature of the terrarium,

is the humidity inside the terrarium,

is the external humidity of the terrarium,

is the condensation condition value.

와, 상기 테라리움 내부온도

와 상기 테라리움 외부온도

의 차이에 기반해 상기 테라리움(10)의 상기 보호관(400) 내부의 결로 발생 조건 해당 여부를 판단할 수 있다. 상기 제어부(600)는 상기 테라리움 내부습도

에서 상기 테라리움 내부온도

와 상기 테라리움 외부온도

의 차이의 절대값이 상기

보다 큰 경우 결로 발생 조건에 해당한다고 판단할 수 있다.The control unit 600 controls the humidity inside the terrarium.

And, the internal temperature of the terrarium

and the external temperature of the terrarium

Based on the difference in , it is possible to determine whether or not the condensation occurrence condition inside the protection pipe 400 of the terrarium 10 is applicable. The control unit 600 controls the humidity inside the terrarium.

In the terrarium internal temperature

and the external temperature of the terrarium

The absolute value of the difference in

If it is larger than that, it can be determined that it corresponds to the condensation occurrence condition.

와, 상기 테라리움 내부온도

와 상기 테라리움 외부온도

의 차이에 기반해 상기 테라리움(10)의 상기 보호관(400) 외부의 결로 발생 조건 해당 여부를 판단할 수 있다. 상기 제어부(600)는 상기 테라리움 외부습도

에서 상기 테라리움 내부온도

와 상기 테라리움 외부온도

의 차이의 절대값이 상기

보다 큰 경우 결로 발생 조건에 해당한다고 판단할 수 있다. The control unit 600 controls the external humidity of the terrarium.

And, the internal temperature of the terrarium

and the external temperature of the terrarium

Based on the difference in , it is possible to determine whether the terrarium 10 corresponds to the condensation occurrence condition outside the protective tube 400 . The control unit 600 controls the external humidity of the terrarium.

In the terrarium internal temperature

and the external temperature of the terrarium

The absolute value of the difference in

If it is larger than that, it can be determined that it corresponds to the condensation occurrence condition.

의 값은 상기 테라리움 내부의 결로 발생 조건과 상기 테라리움 외부의 결로 발생 조건을 판단할 때 다른 값이 적용 될 수 있다. 상기

는 상대 습도 값에 따라 도 5의 그래프에 해당하는 값일 수 있다. remind

Different values may be applied to the value of when determining the conditions for condensation inside the terrarium and the conditions for condensation outside the terrarium. remind

may be a value corresponding to the graph of FIG. 5 according to the relative humidity value.

When the inside of the terrarium 10 corresponds to a condensation condition and the temperature inside the terrarium is lower than the outside temperature of the terrarium, the controller 600 does not open the terrarium and only blows air through the blower 300. It can be supplied to the inside of the terrarium (10). The control unit 600 may stop the operation of the heating unit 320 of the blowing unit 300 when the internal temperature of the terrarium 10 is out of the growth temperature range.

The control unit 600 opens the terrarium when the inside of the terrarium 10 corresponds to a condensation generating condition and the internal temperature of the terrarium is higher than the external temperature of the terrarium, and the heating unit ( Air may be supplied to the inside of the terrarium 10 without operating 320 . The control unit 600 may operate the heating unit 320 of the blowing unit 300 when the internal temperature of the terrarium 10 is out of the growth temperature range.

The control unit 600 opens the terrarium when the outside of the terrarium 10 corresponds to a condensation condition and the internal temperature of the terrarium is lower than the external temperature of the terrarium, and the heating unit ( 320 may be operated to supply heated air to the inside of the terrarium 10 . When the internal temperature of the terrarium 10 is out of the growth temperature range, the control unit 600 stops operating the heating unit 320 of the blower 300 and removes the protective tube 400 of the terrarium 10. It can be closed to shield the inside of the terrarium.

The control unit 600 opens the terrarium when the outside of the terrarium 10 corresponds to a condensation condition and the internal temperature of the terrarium is higher than the external temperature of the terrarium, and the heating unit ( Air may be supplied to the inside of the terrarium 10 without operating the 320 . When the internal temperature of the terrarium 10 is out of the growth temperature range, the control unit 600 operates the heating unit 320 of the blowing unit 300 and closes the protective tube 400 of the terrarium 10 to You can shield the inside of the terrarium.

So far, the present invention has been looked at with respect to its preferred embodiments. Those skilled in the art to which the present invention pertains will understand that the present invention can be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered from an illustrative rather than a limiting point of view. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the equivalent scope will be construed as being included in the present invention.

Claims (9)

A body portion supporting the entire terrarium;
A protective tube for isolating the inside of the terrarium from the outside on the upper part of the main body;
a support portion protruding from an upper portion of the main body portion to support the protective tube;
a sensor unit for sensing internal and external temperature and humidity of the terrarium; and
A control unit for opening and closing the protective tube based on the temperature and humidity values sensed by the sensor unit;
The protective tube is
upper protective tube; and
Including; lower protective tube;
The control unit,
Using the inside and outside temperature and humidity data of the terrarium detected by the sensor unit, it is determined whether the condensation condition is met, and when the condensation condition is met, the support unit pushes up the upper protective tube so that the upper protective tube is connected to the lower protective tube. An anti-condensation lid opening and closing terrarium, characterized in that spaced apart from the inside of the terrarium is opened.
delete According to claim 1,
a blower for supplying external air through the inside of the support;
The control unit,
The anti-condensation lid opening and closing terrarium, characterized in that the blower unit supplies air to the inside of the terrarium when the condensation generating condition is met.
According to claim 3,
The upper protective tube,
It has a streamlined shape that induces the flow of air supplied from the blower and has a wider lower part than the upper part,
the support,
An upper end of the support is spaced apart from the support body while pushing up the upper protective tube to form a discharge port through which air supplied from the blower is supplied,
The anti-condensation lid opening and closing terrarium, characterized in that it further comprises; an induction unit located below the upper end of the support unit and inducing a flow of air supplied from the outlet.
According to claim 4,
the blower,
a blower pipe which guides the sucked external air to the outlet and narrows in width toward the outlet; and
The anti-condensation lid opening and closing terrarium, characterized in that it further comprises; a heating unit for heating the air sucked into the blowing pipe.
According to claim 5,
The control unit,
An anti-condensation lid opening and closing terrarium, characterized in that for adjusting the heating temperature of the heating unit based on the difference between the inside and outside temperatures detected by the sensor unit.
According to claim 6,
The control unit,
An anti-condensation lid opening and closing terrarium, characterized in that for controlling the operating time of the blower based on the internal and external temperature and humidity data detected by the sensor unit.
According to claim 7,
The control unit,
When the condensation occurrence condition is met, the upper protective tube is pushed up to open the terrarium,
An anti-condensation lid opening and closing terrarium, characterized in that for controlling the opening time of the terrarium based on the growth temperature range inside the terrarium.
According to claim 8,
The control unit,
An anti-condensation lid opening and closing terrarium, characterized in that by calculating Equation 1 below, it is determined whether condensation conditions are applicable to the inside and outside of the terrarium, and the opening of the terrarium and the operation of the blower are controlled.
[Equation 1]

(here,

is the temperature inside the terrarium,

is the outside temperature of the terrarium,

is the humidity inside the terrarium,

is the external humidity of the terrarium,

is the condensation condition value.)

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