KR102052357B1 - Apartment extend arae insulate structure - Google Patents

Abstract

The present invention provides an apartment building extended space insulation structure, which comprises: an opening and closing unit (100) rotationally installed in an installation groove (11) formed in an extended space (10) of an apartment building to open and close the installation groove (11); an insulation unit (200) inserted into the installation groove (11) and circulating water having a set temperature through a circulation pipe (211) embedded therein; a driving control unit (300) for driving the heat insulation unit (200) such that a temperature difference between an indoor temperature and an outdoor temperature where the extended space (10) is located reaches a set temperature difference range; and a temperature control unit (400) installed at a bottom of the installation groove (11) and contacting the heat insulation unit (200) formed of metal to heat or cool the heat insulation unit (200) to a predetermined temperature.

Description

Insulation Structure for Apartment Building Expansion Space {APARTMENT EXTEND ARAE INSULATE STRUCTURE}

The present invention relates to a multi-unit housing expansion space insulation structure.

Conventional balconies in multi-unit houses are generally considered to be outdoor spaces under the Building Act, so it is not common to insulate them. However, the occupants of the apartment can be seen that by installing a window (chassis) on the balcony wall to expand the living space, the balcony space is incorporated into the interior space to expand the residential space.

Conventional apartment dwellers do not insulate the balcony wall while constructing windows (chassis) on the balcony wall after moving in, so the hot air is transferred from the balcony wall without heat insulation in summer to the cold cold air in winter. Consumption of heat energy required for heating has been generated a lot, and especially in winter, condensation can be seen when condensation occurs on the balcony walls of hot indoor air, which creates an unsanitary environment such as mold generation.

In order to solve this problem, the application number 2004-15327 was intended to solve the invention by improving the balcony insulation, but to insulate the inner wall of the balcony of a high-rise residential building, such as an apartment to reduce the heat energy consumption, especially in the winter balcony wall It provides a comfortable living environment by preventing condensation that occurs, but it does not have excellent incombustibility, and the surface is not smooth and rough, which requires surface finishing work (interior construction), and the surface breaks or dents when a large impact is applied. Have In addition, there is a problem that dew condensation occurs continuously due to the temperature difference with the outdoors in the rainy season or winter season through the windows near the balcony.

In addition, the conventional expansion space also has a problem that can not be replaced by the insulation device for continuous insulation.

It is an object of the present invention to form a groove in the bottom of the expansion space of the veranda, to provide independent heating and heating, and to provide a multi-unit housing expansion space insulation structure that allows continuous insulation until replaced in case of emergency.

In addition, another object of the present invention is to provide a multi-unit housing expansion space insulation structure that can be easily installed in the expansion space floor groove and after the installation automatically forms a vacuum in the device outer space to form a heat insulation layer. will be.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention, which are not mentioned above, can be understood by the following description, and more clearly by the embodiments of the present invention. It will also be readily appreciated that the objects and advantages of the invention may be realized by the means and combinations thereof indicated in the claims.

In order to achieve the above object, the present invention is rotatably installed in the installation groove 11 is formed in the expansion space 10 of the multi-unit housing opening and closing portion 100 for opening and closing the installation groove (11); An insulation unit 200 inserted into the installation groove 11 and circulating water having a set temperature through a circulation pipe 211 embedded therein; A driving control unit 300 for driving the thermal insulation unit 200 such that a temperature difference between an indoor temperature and an outdoor temperature where the expansion space 10 is located reaches a set temperature difference range; And a temperature controller 400 installed at the bottom of the installation groove 11 to be in contact with the heat insulation part 200 formed of metal to heat or cool the heat insulation part 200 to a predetermined temperature. Providing insulation structure for the expansion space of apartments.

Here, the heat insulating part 200,

Insulation body 210 and the circulation pipe 211 is embedded;

A heat insulation member 220 filled in the heat insulation body 210 and surrounding the circulation pipe 211;

A lower body 230 detachably installed at a lower end of the heat insulating part body 210;

Is installed inside the lower body 230 and includes a circulation portion 240 for circulating water to the circulation pipe 211,

The circulation unit 240 is preferably driven by the control of the drive control unit.

And inside the heat insulation body 210,

Cooling coil 201 and heating coil 202 is embedded,

The cooling coil 201 receives a current from the first current provider and is cooled to a predetermined temperature,

The heating coil 202 receives a current from the second current provider is heated to a predetermined temperature,

The cooling coil 201 and the heating coil 202,

It is preferable to partition each other through the insulating wall (W) formed in the heat insulating body 210.

In addition, the temperature control unit 400,

Heating pins 410 and cooling fins 420 are installed to protrude from the bottom of the installation groove 11,

The heating fins 410 is supplied with a current from the third current provider is heated to a predetermined temperature,

The cooling fins 420 are supplied with a current from the fourth current provider is cooled to a predetermined temperature,

At the bottom of the lower body 230,

It is preferable that insertion grooves 231 into which the upper ends of the heating fins 410 and cooling fins 420 are inserted are formed.

In particular, the installation groove 11,

When closed by the opening and closing part 100, the vacuum sensor 20 for measuring the vacuum degree of the installation groove 11, and transmits to the drive control unit 300 is installed,

The installation groove 11 is connected to the vacuum providing unit 500 and the tube,

The drive control unit 300,

It is preferable to provide a vacuum to the inside of the installation groove 11 by using the vacuum providing unit 500 so that the measured vacuum degree reaches a preset reference vacuum degree.

In addition, the gear teeth 12 along the top and bottom are formed on both inner side walls of the installation groove 11,

On both sides of the heat insulation body 210,

The pair of gears 212 are rotatably installed,

The pair of gears 212 are driven by the drive of the rotary motor 213,

The rotary motor 213 is,

It is preferable to be driven by the drive of the drive control unit 300.

In addition, the drive control unit 300,

A first temperature sensor 310 and a second temperature sensor 320,

The first temperature sensor 310,

Measure the room temperature where the expansion space 10 is located,

The second temperature sensor 320 preferably measures the outdoor temperature.

In addition, it is preferable that an airtight member formed of a metal is further interposed between the heat insulating part body and the lower body.

In addition, the opening and closing part 100,

Rotating shaft 110 is formed on one side of the upper end of the installation groove 11,

One end is rotatably connected to the rotating shaft 110, the cover 120 for opening and closing the installation groove 11 as it is rotated,

Is provided with a motor 130 for rotating the rotary shaft 110 under the control of the drive control unit 300,

A step is formed at the top of the installation groove 11,

The edge of the cover 120 is coupled to the step, it is preferable to have a sealing member for hermetically sealing the installation groove.

In addition, a vacuum flow passage 121 is formed, and the vacuum flow passage 121 is preferably connected to a tube of another vacuum providing unit to form a constant vacuum.

Multi-unit housing expansion space insulation structure according to the present invention, but forming a groove on the floor of the expansion space of the veranda, can be installed to enable independent cooling and heating, it can have the effect that the continuous insulation can be made until the replacement in an emergency. .

In addition, the multi-unit housing expansion space insulation structure according to the present invention can have an effect that can be easily installed in the bottom of the expansion space and to form a heat insulation layer by automatically forming a vacuum in the outside space of the device after installation. have.

In addition, the multi-unit housing expansion space insulation structure according to the present invention can be installed locally in the veranda expansion space to control the temperature of the expansion space portion facing the outside can dramatically reduce the heating and cooling energy for cooling or heating the entire interior space It has an effect.

In addition to the effects described above, the specific effects of the present invention will be described together with the following description of specifics for carrying out the invention.

1 is a view showing a heat insulation structure of a multi-unit housing expansion space according to the present invention.
2 is a view showing a state in which the heat insulation is located in the installation groove.
3 is a view showing a state after the heat insulation is located in the installation groove.
4 is a partial cross-sectional view showing an example in which the cooling coil 201 and the heating coil 202 are partitioned by an insulating wall W formed in the heat insulation body 210.
5 is a view showing an example in which the curtain wall is further installed in the expansion space according to the present invention.
6 is a view showing a state that the curtain wall is lowered to form an additional gap in the space between the window and the window.

The above objects, features, and advantages will be described in detail with reference to the accompanying drawings, whereby those skilled in the art to which the present invention pertains may easily implement the technical idea of the present invention. In describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar components.

In the following, any configuration is arranged on the "top (or bottom)" of the component or "upper (or bottom)" of the component, that any configuration is disposed in contact with the top (or bottom) of the component. In addition, it may mean that another configuration may be interposed between the component and any configuration disposed on (or under) the component.

In addition, when a component is described as being "connected", "coupled" or "connected" to another component, the components may be directly connected or connected to each other, but other components may be "interposed" between each component. It is to be understood that each component may be "connected", "coupled" or "connected" through another component.

1 is a view showing a heat insulation structure of a multi-unit housing expansion space according to the present invention. 2 is a view showing a state in which the heat insulation is located in the installation groove. 3 is a view showing a state after the heat insulation is located in the installation groove. 4 is a partial cross-sectional view showing an example in which the cooling coil 201 and the heating coil 202 are partitioned by an insulating wall W formed in the heat insulation body 210.

1 to 4, the multi-unit housing expansion space insulation structure of the present invention is rotatably installed in the installation groove 11 formed in the expansion space 10 of the multi-unit housing to open and close the installation groove (11) Opening and closing part 100; An insulation unit 200 inserted into the installation groove 11 and circulating water having a set temperature through a circulation pipe 211 embedded therein; A driving control unit 300 for driving the thermal insulation unit 200 such that a temperature difference between an indoor temperature and an outdoor temperature where the expansion space 10 is located reaches a set temperature difference range; And a temperature controller 400 installed at the bottom of the installation groove 11 to be in contact with the heat insulation part 200 formed of metal to heat or cool the heat insulation part 200 to a predetermined temperature. .

Here, the heat insulating part 200 is filled with the heat insulating part body 210 in which the circulation pipe 211 is embedded, and the heat insulating member 220 filling the inside of the heat insulating part body 210 to surround the circulation pipe 211. And, the lower body 230 which is detachably installed at the lower end of the heat insulating part body 100, the circulation part 240 is installed in the lower body 230 and circulates water to the circulation pipe 211 ).

The circulation unit 240 may be driven by the control of the driving controller.

The cooling coil 201 and the heating coil 202 are embedded in the heat insulation body 210.

The cooling coil 201 receives a current from the first current provider and is cooled to a predetermined temperature.

The heating coil 202 receives a current from the second current provider and is heated to a predetermined temperature.

Here, the cooling coil 201 and the heating coil 202 may be partitioned from each other through an insulating wall (W) formed in the heat insulating body (210).

In addition, the temperature control unit 400 includes heating fins 410 and cooling fins 420 which are installed to protrude from the bottom of the installation groove 11.

The heating fins 410 are heated to a predetermined temperature by receiving a current from the third current provider.

The cooling fins 420 receive a current from the fourth current provider and are cooled to a predetermined temperature.

Here, insertion grooves 231 into which the upper ends of the heating fins 410 and the cooling fins 420 are inserted may be formed at the lower end of the lower body 230.

In particular, when the installation groove 11 is closed by the opening and closing part 100, a vacuum sensor 20 for measuring the degree of vacuum of the installation groove 11, and transmits to the drive control unit 300 is installed.

The installation groove 11 is connected to the vacuum providing unit 500 and the tube.

The driving controller 300 may provide a vacuum into the installation groove 11 by using the vacuum providing unit 500 so that the measured vacuum degree reaches a preset reference vacuum degree.

In addition, the gear teeth 12 along the upper and lower sides are formed on both inner side walls of the installation groove 11.

The pair of gears 212 are rotatably installed at both sides of the heat insulating part body 210.

The pair of gears 212 is driven by the rotation motor 213.

The rotary motor 213 may be driven by driving of the drive controller 300.

In addition, the driving controller 300 includes a first temperature sensor 310 and a second temperature sensor 320.

The first temperature sensor 310 measures an indoor temperature at which the expansion space 10 is located, and the second temperature sensor 320 measures the outdoor temperature.

In addition, an airtight member formed of a metal may be further interposed between the heat insulation body and the lower body.

In addition, the opening and closing part 100, the rotary shaft 110 is formed on one side of the upper end of the installation groove 11, one end is rotatably connected to the rotary shaft 110, the installation groove 11 as it is rotated Cover 120 for opening and closing, and a motor 130 for rotating the rotating shaft 110 under the control of the drive control unit 300.

A step is formed at an upper end of the installation groove 11, and an edge of the cover 120 may be coupled to the step, and may include a sealing member for hermetically sealing the installation groove.

In addition, a vacuum flow passage 121 is formed, and the vacuum flow passage 121 may be connected to a tube of another vacuum providing portion to form a predetermined vacuum.

5 is a view showing an example in which the curtain wall is further installed in the expansion space according to the present invention. 6 is a view showing a state that the curtain wall is lowered to form an additional gap in the space between the window and the window.

Meanwhile, referring to FIG. 5, a window 20 is installed on the wall 50. The window 20 is disposed outside the expansion space. The window 20 may be formed of a double window.

A curtain wall device 600 is installed on the ceiling near the window 20.

The curtain wall device 600 has a reel 610 and a thermally insulating curtain member 620 having flexibility wrapped around the reel 610. The reel 610 is driven by the control of the drive controller 300.

The insulation curtain member 620 is formed of a transparent material and a flame retardant and non-combustible material.

An air layer 621 is formed in the insulation curtain member 620. Transparent spacers may be further installed in the air layer 621 to maintain a gap.

An auxiliary cooling coil 630 is embedded in one side of the insulating curtain member 620, which receives the current from the auxiliary first current provider 631 and cools it.

An auxiliary heating coil 640 is embedded in the other side of the insulating curtain member 640, which receives a current from the auxiliary second current provider 641 and heats it.

The first temperature sensor 310 measures an indoor temperature at which the expansion space 10 is located, and the second temperature sensor 320 measures the outdoor temperature.

The driving control unit 640 according to the present invention uses a reel 610 to insulate when the indoor temperature and the outdoor temperature are drastically different, for example, when the temperature is extreme high or low temperature (which is set in the driving control unit 300). The curtain member 620 is released and lowered to cover the window 20.

Thus, an insulating space is formed between the window 20 and the insulating curtain member 620.

In addition, the driving controller 300 continuously controls the temperature in the insulation space by cooling or heating the auxiliary cooling coil 630 or the auxiliary heating coil 640.

In this case, by additionally controlling the temperature in the thermal insulation space formed between the window 20 and the expansion space, it is possible to achieve additional thermal insulation in the expansion space near the window 20.

According to the configuration and action of the multi-unit housing expansion space insulation structure according to the present invention to form a groove on the floor of the expansion space of the veranda, to be installed to enable independent heating and cooling, to ensure continuous insulation until replaced in an emergency Can be.

In addition, the multi-unit housing expansion space insulation structure according to the present invention can easily install the device in the groove on the bottom of the expansion space, and after the installation can automatically form a vacuum in the device outer space to form a heat insulating layer.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by.

100: opening and closing part
200: heat insulation
300: drive control unit
400: temperature control unit

Claims (4)

An opening and closing unit 100 rotatably installed in the installation groove 11 formed in the expansion space 10 of the apartment house to open and close the installation groove 11;
An insulation unit 200 inserted into the installation groove 11 and circulating water having a set temperature through a circulation pipe 211 embedded therein;
A driving controller 300 for driving the heat insulation part 200 so that the temperature difference between the indoor temperature and the outdoor temperature where the expansion space 10 is located reaches a set temperature difference range; And,
A temperature control unit 400 installed at the bottom of the installation groove 11 and in contact with the heat insulating part 200 formed of metal to heat or cool the heat insulating part 200 to a predetermined temperature.
The heat insulation unit 200,
Insulation body 210 and the circulation pipe 211 is embedded;
A heat insulation member 220 filled in the heat insulation body 210 and surrounding the circulation pipe 211;
A lower body 230 detachably installed at a lower end of the heat insulating part body 210;
Is installed inside the lower body 230 and includes a circulation portion 240 for circulating water to the circulation pipe 211,
The circulation unit 240 is driven by the control of the drive control unit,
Inside the heat insulation body 210,
Cooling coil 201 and heating coil 202 is embedded,
The cooling coil 201 receives a current from the first current provider and is cooled to a predetermined temperature,
The heating coil 202 receives a current from the second current provider is heated to a predetermined temperature,
The cooling coil 201 and the heating coil 202,
Apartment housing expansion space insulation structure, characterized in that partitioned with each other through an insulating wall (W) formed in the interior of the heat insulating body (210).
delete delete The method of claim 1,
The temperature control unit 400,
Heating pins 410 and cooling fins 420 are installed to protrude from the bottom of the installation groove 11,
The heating fins 410 is supplied with a current from the third current provider is heated to a predetermined temperature,
The cooling fins 420 are supplied with a current from the fourth current provider is cooled to a predetermined temperature,
At the bottom of the lower body 230,
Apartment heating expansion space insulation structure, characterized in that the insertion grooves 231, the upper end of the heating fins 410 and the cooling fins 420 is formed is formed.

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