KR102643723B1 - A prefabricated incubator equipped with detachable type constant temperature maintenance means - Google Patents

Abstract

The present invention relates to a prefabricated incubator equipped with a removable constant temperature maintenance means, which is made in the shape of a plate and is seated on the ground. The upper surface is formed to protrude along the circumference, and a plurality of receiving protrusions are formed in parallel and spaced apart inward to form a mounting space. a support plate, an outer side plate made of an insulating material that is inserted into the mounting space of the support plate, and an inner side of a heat-conducting material that is inserted into the mounting space of the support plate and is spaced apart from the inside of the outer side plate to form a receiving space therebetween. A plate, a heat source member that is detachably provided on the receiving space and has a heating wire formed therein, and a light source that is in close contact with the top of the outer and inner side plates to seal the interior and provide light to the lower surface are formed. , It is characterized by including a cover equipped with a fan for circulating air between inside and outside air and a cooling means for cooling the inside air.
Through this configuration, a prefabricated incubator is provided using recycled insulation, allowing the growth environment, such as size adjustment, to be adjusted as needed, and a heat source member that can supply heat through conduction to maintain a constant temperature inside the incubator. The technical feature is to block unintended variables that may affect the culture by providing a .

Description

Prefabricated incubator with removable constant temperature maintenance means {A PREFABRICATED INCUBATOR EQUIPPED WITH DETACHABLE TYPE CONSTANT TEMPERATURE MAINTENANCE MEANS}

The present invention relates to a prefabricated incubator equipped with a removable constant temperature maintaining means.

In general, incubators are used for a variety of purposes, including incubators for premature babies that artificially grow babies until they develop an immune system to fight pathogens, animal incubators that provide the optimal environment for raising animals, and plants. There are incubators for various purposes, such as plant incubators to help grow plants, incubators used to cultivate microorganisms, or incubators for cell culture.

However, it is important for the incubator to maintain a constant temperature at the optimal temperature for its intended use.

A typical incubator is equipped with a fan that circulates the air inside and outside the incubator, a cooling means to cool the inside, and a heat source means to raise the temperature by providing heat. It maintains the internal temperature constant and provides the optimal temperature for the purpose of use. make it possible

However, structures for maintaining constant temperature and circulating internal and external air are generally distributed as finished products mounted in incubators and are therefore expensive.

And, since it is impossible to change the size of the incubator, it is impossible to change its use depending on the purpose.

For example, the culture environment, that is, size, temperature, and type of light, must vary depending on the type of culture group, such as plants, animals, microorganisms, or cells. Incubators are provided for the purpose of specific culture groups and are used for the purpose of observing students' learning. There is a problem that when using it, an incubator must be provided for each culture group.

In addition, insulation materials such as Styrofoam, which are routinely used as packaging containers, are discarded after use. There is a need to recycle them and use them in incubators that require insulation, thereby lowering the unit cost of incubators and reducing environmental pollution through recycling of insulation materials. there is.

Additionally, in the past, when providing heat to the inside of an incubator, the internal temperature was raised by blowing warm air directly into the incubator, which had the potential to become a variable that could affect the culture.

Republic of Korea Patent Publication No. 10-2015-0001202 (published on January 6, 2015)

The present invention is intended to solve the above-described problems, and its purpose is to provide a prefabricated incubator using recycled insulation, thereby enabling the growth environment, such as size adjustment, to be adjusted as needed.

In addition, another purpose is to block unintended variables that may affect the culture by providing a heat source member that can supply heat through conduction to maintain a constant temperature inside the incubator.

In addition, another purpose is to enable repair or replacement of only the components that make up the incubator when some of the components that make up the incubator are broken or damaged.

The purpose of the present invention is not limited to the purposes mentioned above, and other purposes not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention is made of a plate-shaped, seated on the ground, the upper surface is formed to protrude along the circumference, a plurality of parallel spaced apart inward support plate is formed to form a mounting space, and a support plate; An outer side plate made of an insulating material and inserted into the mounting space of the support plate, an inner side plate made of a heat-conducting material inserted into the mounting space of the support plate and spaced apart from each other on the inside of the outer side plate to form a receiving space therebetween, and A heat source member is detachably provided in the receiving space and has a heating wire formed therein, and is in close contact with the upper ends of the outer and inner side plates to seal the interior, and a light source that provides light is formed on the lower surface, and the inside and outside air are formed. It is characterized by comprising a cover equipped with a fan for air circulation and a cooling means for cooling the air inside.

The heat source member includes a tarpaulin having a mounting groove formed in the longitudinal direction and a receiving space filled with fluid formed in front of the mounting groove, and the fluid being inserted into the mounting groove through heat radiated from an internal heat ray. It is characterized in that it includes a heat supply port that heats and provides conducted heat to the interior.

The heat supply port includes a body member made of a flexible material in which the upper cloth and the lower cloth are combined to form a space inside, a first guide member arranged to be spaced apart in the horizontal direction at the lower part of the upper cloth, and inside which the heating wire is wired; , a second guide member arranged to be spaced apart in the vertical direction on the upper part of the lower cloth, inside which the heating wire is wired, and the first guide member and the second guide member intersecting in a state in which the upper cloth and the lower cloth are joined. It is characterized by including a heat conduction device disposed in the formed grid space.

An elastic body provided inside the receiving protrusion, and elastically supporting and fixing both sides of the outer side plate and the inner side plate that are coupled to the elastic body and part of which is exposed on the mounting space and are inserted into the mounting space. It is characterized by including an elastic fixture.

It is located at a corner of the support plate, and a receiving groove corresponding to the end of the outer side plate and the inner side plate is formed to accommodate the ends of the outer side plate and the inner side plate and further comprises a support bar that is in close contact with the end.

The present invention with the above configuration can expect the following effects.

First, the purpose is to provide a prefabricated incubator using recycled insulation so that the growth environment, such as size adjustment, can be adjusted to suit needs.

In addition, the insulating material has the effect of enabling recycling of waste as it can be used by cutting the Styrofoam used as a packaging container.

In addition, by providing a heat source member capable of supplying heat through conduction in order to maintain a constant temperature inside the incubator, there is an effect of blocking unintended variables that may affect the culture.

In addition, another purpose is to enable repair or replacement of only the components that make up the incubator when some of the components that make up the incubator are broken or damaged.

Figure 1 is an exploded view of a prefabricated incubator equipped with a removable constant temperature maintaining means according to the present invention.
Figure 2 is a cross-sectional view illustrating the elastic body and elastic fixture to correspond to the width upon insertion of the inner and outer side plates of the present invention.
Figure 3 is a conceptual diagram showing the heat source member of the present invention.
Figure 4 is a combined cross-sectional view of the heat source member of the present invention.
Figure 5 is an exploded view for explaining the heat supply port of the present invention.
Figure 6 is a conceptual diagram showing the overall appearance of the heat supply port of the present invention.
Figure 7 is a diagram for explaining the shape of the support bar of the present invention.

The present invention relates to a prefabricated incubator equipped with a removable constant temperature maintaining means.

In particular, by providing a prefabricated incubator using recycled insulation, it is possible to adjust the growth environment, such as size adjustment, to suit needs, and by providing a heat source member that can supply heat through conduction to maintain a constant temperature inside the incubator. Its technical feature is to block unintended variables that may affect the culture.

Figure 1 is an exploded view of a prefabricated incubator equipped with a removable constant temperature maintaining means according to the present invention, and Figure 2 is a cross-sectional view illustrating the elastic body and elastic fixture to correspond to the width when inserted into the inner and outer side plates of the present invention. , Figure 3 is a conceptual diagram showing the heat source member of the present invention, Figure 4 is a combined cross-sectional view of the heat source member of the present invention, Figure 5 is an exploded view for explaining the heat supply port of the present invention, and Figure 6 is a heat hole of the present invention. It is a conceptual diagram showing the overall appearance of the rapid ball, and Figure 7 is a diagram for explaining the shape of the support bar of the present invention.

Hereinafter, a prefabricated incubator equipped with a removable constant temperature maintaining means according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

The prefabricated incubator equipped with a detachable constant temperature maintaining means of the present invention largely includes a support plate 100, an outer side plate 200, an inner side plate 300, a heat source member 400, and a cover 500.

First, the support plate 100 is made of a plate shape and is seated on the ground. The upper surface is formed to protrude along the circumference, and a plurality of receiving protrusions 110 are formed in parallel and spaced apart inward to form a mounting space.

The outer side plate 200 is inserted into the mounting space of the support plate 100 and is made of an insulating material, preferably using Styrofoam. In other words, Styrofoam is mainly used as an insulated packaging box, but after use, it is separated or discarded as recycling, which has a very negative impact on the environment and incurs costs during disposal. Therefore, it is possible to use discarded Styrofoam by cutting it into a square shape of the desired size, and by using Styrofoam, the internal temperature can be kept constant and rapid changes in temperature can be prevented.

The inner side plate 300 is inserted into the mounting space of the support plate 100 and is made of a heat-conducting material that is spaced apart from the inner side of the outer side plate 200 to form a receiving space P1 therebetween. In other words, it is possible to use metal plates with high thermal conductivity, such as aluminum and copper, and it is also possible to use non-metallic plates that can conduct heat.

The heat source member 400 is detachably provided on the receiving space P1, and a heating wire 410 is formed therein.

The cover 500 is in close contact with the top of the outer side plate 200 and the inner side plate 300 to seal the inside, and a light source 510 that provides light is formed on the lower side, and air circulation between inside and outside air is formed. A fan 520 for cooling and a cooling means 530 for cooling the internal air are installed.

As described above, the support plate 100, the outer side plate 200, the inner side plate 300, the heat source member 400, and the cover 500 are all assembled to complete the incubator, and the outer side plate 200 and The inner side plate 300 can be used by cutting it into a plate shape, which was previously used for other purposes.

Meanwhile, the heat source member 400 is detachable and provides conducted heat rather than directly emitting heat, and includes a waterproof cloth 420 and a heat supply port 430.

The tarpaulin 420 has a mounting groove 421 formed in the longitudinal direction, and a receiving space P2 filled with fluid is formed in front of the mounting groove 421.

The heat supply port 430 is inserted into the mounting groove 421 and heats the fluid through heat radiated from the internal heating wire 410 to provide conducted heat to the inside. For this reason, when the heating wire 410 is turned on/off, it is difficult to maintain a constant temperature inside due to a rapid temperature change. However, there is an advantage in maintaining a constant temperature due to the method in which heat is transferred from the heated fluid by heating the fluid. .

Here, the heat supply port 430 includes a body member 431, a first guide member 432, a second guide member 433, and a heat conduction member 434 to enable heat to be dissipated evenly over the entire area. .

The body member 431 is made of a flexible material in which the upper fabric 4311 and the lower fabric 4312 are joined to form a space inside.

The first guide member 432 is arranged to be spaced apart in the horizontal direction at the lower part of the upper cloth 4311, and the heating wire 410 is wired therein.

The second guide member 433 is arranged to be vertically spaced apart from the upper part of the lower cloth 4312, and the heating wire 410 is wired therein.

The heat conduction device 434 is a grid space (C) formed by crossing the first guide member 432 and the second guide member 433 in a state in which the upper fabric 4311 and the lower fabric 4312 are combined. is placed in

That is, as the first guide member 432 and the second guide member 433 are formed to alternate in orthogonal directions and the heating wire 410 is wired therein, heat can be provided to the entire area, and also the grid space. By placing the heat conductor 434 in (C), heat provided from the heat source is absorbed and the heat is discharged through the heat conductor 434, thereby allowing heat to be generated evenly over the entire area.

In addition, the heat conduction device 434 can generate heat for a certain period of time to prevent rapid temperature changes due to turning on/off of the heating wire 410, thereby enabling response to rapid temperature changes.

Meanwhile, an elastic body 600 and an elastic fixture 700 may be further provided to correspond to the thickness of the outer side plate 200 and the inner side plate 300 inserted into the receiving space (P1).

The elastic body 600 is provided inside the receiving protrusion 110.

The elastic fixture 700 is combined with the elastic body 600 and a portion is exposed on the mounting space to provide elasticity to both sides of the outer side plate 200 and the inner side plate 300 inserted into the mounting space. Support and secure it.

That is, the receiving protrusion 110 is formed with a slot 111 cut in the longitudinal direction toward the receiving space P1 into which the outer side plate 200 and the inner side plate 300 are inserted, and an elastic body is formed inside. The end is coupled to an elastic body to receive elastic support, and one side is exposed to the outside through the slot 111, so that the outer side plate 200 and the inner side plate 300 are smaller than the width of the receiving space (P1). Pressurize both sides so that it can be fixed.

And, located at the corner of the support plate 100, a receiving groove 810 corresponding to the end of the outer side plate 200 and the inner side plate 300 is formed to form the outer side plate 200 and the inner side plate ( It further includes a support bar 800 that accommodates the end of 300 and is in close contact with it.

That is, the support bars 800 are formed in the form of a square pillar and are disposed at each corner of the support plate 100 in such a way that the surfaces face each other, and are arranged so that the receiving grooves 810 face each other, so that the outer side plates face each other. Both ends of (200) and the inner side plate 300 are inserted and fixed into the receiving groove 810 and are formed in close contact, thereby blocking a certain portion of heat from being discharged from the inside to the outside.

Meanwhile, a temperature sensor may be provided inside the incubator of the present invention, and a control means for controlling the fan 520, cooling means 530, and heat source may be further provided based on the temperature provided through the temperature sensor.

Here, the cooling means 530 can use a Felter element, and the light source 510 for emitting and supplying light to the interior uses a neopixel LED, so it is desirable to provide various colors and brightness. .

In addition, it is also possible to expand the internal space through coupling between the plurality of support plates 100.

For example, it is possible to form protrusions and grooves on the side of the support plate 100 and couple them using an interference fit method, and it is also possible to form slide-type shovels and sockets to couple them to each other.

As such, the present invention provides an assembly method using recycled plates and an incubator that provides heat through conduction to easily maintain a constant temperature state.

The above-described embodiments are merely illustrative, and various modifications thereof are possible for those skilled in the art.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also other variously modified embodiments according to the technical spirit of the invention described in the claims below.

C: grid space
P1, P2: Accommodation space
100: support plate
110: Receiving outlet
111: slot
200: Outer side plate
300: inner side plate
400: Heat source member
410: heated wire
420: Tarpaulin
421: Mounting groove
430: heat supply port
431: Body member
4311 : Upper gun
4312: Lower gun
432: First guide member
433: Second guide member
434: Heat conduction tool
500: Cover
510: light source
520: fan
530: Cooling means
600: elastic body
700: Elastic fixture
800: support bar
810: Acceptance home

Claims (5)

A support plate made of a plate shape and seated on the ground, the upper surface of which is formed to protrude along the circumference, and a plurality of spaced apart parallel support plates are formed inward to form a mounting space.
An outer side plate inserted into the mounting space of the support plate and made of an insulating material;
an inner side plate made of a heat-conducting material that is inserted into the mounting space of the support plate and is spaced apart from the inner side of the outer side plate to form a receiving space therebetween;
A heat source member detachably provided on the receiving space and having a heating wire formed therein; and
It is in close contact with the top of the outer and inner side plates to seal the interior, and a light source that provides light is formed on the lower surface, and a fan for circulating air between inside and outside air and a cooling means to cool the inside air are installed. Includes a cover;
The heat source member is,
A tarpaulin having a mounting groove formed in the longitudinal direction and a receiving space filled with fluid formed in front of the mounting groove; and
It includes a heat supply port that is inserted into the mounting groove and heats the fluid through heat radiated from an internal heat wire to provide conducted heat to the interior,
The heat supply port is,
A body member made of flexible material in which the upper fabric and the lower fabric are combined to form a space inside;
A first guide member arranged to be spaced apart in the horizontal direction at the bottom of the upper cloth, inside which the heating wire is wired;
A second guide member arranged to be vertically spaced apart from the upper part of the lower cloth, inside which the heating wire is wired; and
A prefabricated incubator equipped with a removable constant temperature maintaining means, comprising: a heat conductor disposed in a lattice space formed by crossing the first guide member and the second guide member in a state in which the upper fabric and the lower fabric are combined. delete delete According to paragraph 1,
An elastic body provided inside the receiving protrusion;
An elastic fixture that is coupled to the elastic body, a portion of which is exposed on the mounting space, and elastically supports and secures both sides of the outer and inner side plates that are inserted into the mounting space. A detachable device comprising a. A prefabricated incubator equipped with constant temperature maintenance means. According to paragraph 1,
A support bar located at a corner of the support plate and having receiving grooves corresponding to the ends of the outer and inner side plates is formed to accommodate the ends of the outer and inner side plates to come into close contact with them. A prefabricated incubator equipped with a removable constant temperature maintenance means.

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