KR102522563B1 - Sliding window that can minimize dew formation - Google Patents

Abstract

The present invention provides a curtain wall comprising: a fixed frame (200) fixed on a structure; a support frame (300) coupled to the fixed frame (200), and arranged on the outside of the fixed frame (200); a decoration frame (100) assembled on the support frame (300), concealing the support frame, and exposed to the outside; a glass assembly (150) tightly fixed on the fixed frame (200) and the support frame (300); and a heat pump device (800) arranged on at least one between the fixed frame (200) and the support frame (300) to reduce the difference between indoor temperature and outdoor temperature. Since a first heat exchange tube is arranged on the fixed frame arranged on the outdoor side, and a second heat exchange tube is arranged on the support frame arranged on the indoor side, the difference between the indoor temperature and the outdoor temperature can be reduced through evaporation heat/condensation heat or condensation heat/evaporation heat generated by the first heat exchange tube.

Description

Curtain wall that can minimize condensation {Sliding window that can minimize dew formation}

The present invention relates to a curtain wall, and more particularly, to a curtain wall capable of actively minimizing condensation.

In general, a window frame is provided on a wall of a building such as a building, for example, a non-bearing wall such as a curtain wall, and the window frame is formed in a long bar shape to form a wall structure (eg, a window or an exterior panel of a wall). ) to support

Here, windows and doors functioning to secure a view and indoor lighting by sunlight are installed on a wall of a building called a curtain wall, and the windows and doors are supported by a window frame extending in a horizontal or vertical direction.

Patent Document 1 shows a conventional curtain wall, and is connected to each other between a curtain wall fixing frame installed inside the building, a finishing cap installed at a predetermined interval from the curtain wall fixing frame, and a curtain wall fixing frame and the finishing cap. It is composed of an insulation box rail and an insulation bracket that are fixed and connect between the curtain wall fixing frame and the finishing cap, and the curtain wall inserted into the spaced space between the curtain wall fixing frame and the finishing cap.

Here, the front and rear surfaces of the curtain wall are rubbed against the gasket coupled to the insulation bracket and the finishing cap to be firmly fitted and fixed between the curtain wall fixing frame and the finishing cap. It prevents the inflow into the room or the discharge of bets to the outdoors.

In particular, the curtain wall is formed of a transparent material and transmits outdoor sunlight as it is, so that light is illuminated in the indoor space by sunlight to function as an indoor lighting.

However, in Patent Document 1 as described above, when the temperature difference between the inside and the outside is severe, such as in the winter season, a significant temperature difference occurs on the surface of the curtain wall formed with a thin thickness, and as a result, moisture present in the indoor air is removed from the curtain wall. Condensation occurs on the surface of the wall, and a large amount of moisture generated on the surface of the curtain wall due to this condensation penetrates into the building, causing corrosion of the building. , It is difficult to secure the view due to moisture on the curtain wall due to the temperature difference of the outside air, and the internal and external air having a significant temperature difference is transmitted to the corresponding surface, and the curtain wall is damaged or damaged due to the decrease in the rigidity of the curtain wall. there is.

Republic of Korea Patent No. 10-1272471 Republic of Korea Patent No. 10-2185399 Republic of Korea Patent No. 10-1576595 Republic of Korea Patent No. 10-2373415 Republic of Korea Patent No. 10-1862134

An object of the present invention is to provide a curtain wall capable of actively minimizing condensation.

The present invention, a fixed frame 200 fixed to the structure; a support frame 300 coupled to the fixed frame 200 and disposed outside the fixed frame 200; A deco frame 100 assembled to the support frame 300, concealing the support frame and exposed to the outside; a glass assembly 150 fixed in close contact with the fixing frame 200 and the support frame 300; It provides a curtain wall including a; heat pump device 800 disposed on at least one of the fixed frame 200 and the support frame 300 to reduce the indoor/outdoor temperature difference.

The heat pump device 800 includes a compressor 810; a first heat exchange tube 820 inserted into and disposed in the fixing frame 200; a second heat exchange tube 830 inserted into and disposed in the support frame 300; a four-way valve 840 for selectively flowing the refrigerant compressed in the compressor 810 into either the first heat exchange tube 820 or the second heat exchange tube 830; a first electronic expansion valve 850 for expanding the refrigerant supplied to the first heat exchange tube 820; a second electronic expansion valve 860 for expanding the refrigerant supplied to the second heat exchange tube 830; An accumulator tube 870 disposed at an inlet side of the compressor 810 and filtering liquid refrigerant from the refrigerant flowing into the compressor 810; may be included.

The fixed frame 200 includes a bottom frame 210 disposed on the ground side; a top frame 220 disposed on an upper side facing the bottom frame 210; a first side frame 230 connecting left sides of the bottom frame 210 and the top frame 220; The bottom frame 210 and the second side frame 240 connecting the right sides of the top frame 220; includes, the bottom frame 210, the top frame 220, the first side frame 230 and The glass assembly 150 is disposed between the second side frames 240, the bottom frame space 210a is formed inside the bottom frame 210, and the top frame space is inside the top frame 220. 220a is formed, a first side frame space 230a is formed inside the first side frame 230, and a second side frame space 240a is formed inside the second side frame 240. The second heat exchange tube 830 includes a 2-1 heat exchange tube 831 disposed on the bottom frame 210; a 2-2 heat exchange tube 832 connected to the 2-1 heat exchange tube 831 and disposed on the first side frame 230; A 2-3 heat exchange tube 833 connected to the 2-2 heat exchange tube 832 and disposed on the top frame 220 may be included.

The support frame 300 includes a bottom supporter 310 coupled to the bottom frame 210; a top supporter 320 coupled to the top frame 220; a first side supporter 330 coupled to the first side frame 230; and a second side supporter 340 coupled to the second side frame 240, wherein the bottom supporter 310 covers the front surface of the bottom frame 210, and the top supporter 320 covers the front surface of the bottom frame 210. Covers the front surface of the top frame 220, the first side supporter 330 covers the front surface of the first side frame 230, and the second side supporter 340 covers the second side frame 240 ), and the first heat exchange tube 820 includes a 1-1 heat exchange tube 821 disposed on the bottom supporter 310; a 1-2 heat exchange tube 822 connected to the 1-1 heat exchange tube 821 and disposed on the first side supporter 330; It may include a 1-3 heat exchange tube 823 connected to the 1-2 heat exchange tube 822 and disposed on the top supporter 320 .

a bottom fixing coupling part 251 inserted into the bottom supporter 310 from the bottom frame 210 to support the bottom supporter 310; a top fixing coupling part 252 inserted into the top supporter 320 from the top frame 220 to support the top supporter 320; a first side fixing coupling part 253 inserted into the first side supporter 330 from the first side frame 230 to support the first side supporter 330; A second side fixing coupling part 254 inserted into the second side supporter 340 from the second side frame 240 to support the second side supporter 340 may be further included.

First, in the present invention, since the first heat exchange tube is disposed on the fixed frame disposed on the outdoor side and the second heat exchange tube is disposed on the support frame disposed on the indoor side, condensation/evaporation heat or It has the advantage of reducing the temperature difference between indoor and outdoor through evaporation heat/condensation heat.

Second, in the present invention, since the first heat exchange tube disposed on the outdoor side is disposed inside the fixed frame, heat can be directly transferred through heat conduction to heat or cool the fixed frame, so that the indoor/outdoor temperature difference can be effectively eliminated. There are advantages to being

Third, the present invention has the advantage of being able to eliminate the indoor/outdoor temperature difference by operating the thermoelectric module disposed inside the fixed frame, thereby minimizing dew condensation.

Fourth, there is an advantage in that a solar panel is installed on the front of the decorative panel to generate electricity, the generated electricity is stored in a battery placed inside the decorative panel, and the thermoelectric module can be operated using the power stored in the battery. .

Fifth, since the present invention stores electricity generated through sunlight during the day and operates the thermoelectric module through the stored electricity, there is an advantage in that condensation can be solved by itself without additional cost.

Sixth, in the present invention, since the second heat exchange tube is disposed in direct contact with the second radiation fin of the thermoelectric module, the refrigerant is condensed and evaporated through heat absorption/dissipation generated from the thermoelectric module and heat of condensation/evaporation generated from the second heat exchange tube. has the advantage of being able to effectively promote

Seventh, in the present invention, since the fastening member penetrates the bottom supporter and the bottom deco body at the same time and is fastened with the battery during the installation process of the support frame and the deco frame, the battery can be prevented from moving inside the bottom deco body, and the three There is an advantage that the configuration can be combined at the same time.

1 is a front view of a curtain wall according to a first embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line AA shown in FIG. 1 .
3 is a cross-sectional view taken along line BB shown in FIG. 1;
FIG. 4 is a partially enlarged view of the bottom frame of FIG. 2 .
FIG. 5 is a partial enlarged view of the top frame of FIG. 2 .
FIG. 6 is a partial enlarged view of a first side frame of FIG. 3 .
FIG. 7 is a partially enlarged view of the second side frame of FIG. 3 .
8 is a cross-sectional view showing structures of the bottom supporter and the top supporter shown in FIG. 4 or 5 .
9 is a cross-sectional view showing the structure of the side supporter shown in FIG. 6 or 7 .
10 is a cross-sectional view of a thermoelectric module according to a first embodiment of the present invention.
FIG. 11 is a perspective view of the thermoelectric module shown in FIG. 10 .
12 is a schematic configuration diagram of a heat pump device according to a first embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to completely inform the person who has the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification.

1 is a front view of a curtain wall according to a first embodiment of the present invention, FIG. 2 is a cross-sectional view taken along A-A shown in FIG. 1, Figure 3 is a cross-sectional view taken along B-B shown in FIG. 1, 4 is a partial enlarged view of the bottom frame of FIG. 2, FIG. 5 is a partial enlarged view of the top frame of FIG. 2, and FIG. 6 is a partial enlarged view of the first side frame of FIG. 3, FIG. 7 is a partial enlarged view of the second side frame of FIG. 3 , FIG. 8 is a cross-sectional view showing the structures of the bottom supporter and top supporter shown in FIG. 4 or 5 , and FIG. 9 is FIG. 6 or 7 is a cross-sectional view showing the structure of the side supporter shown in , FIG. 10 is a cross-sectional view showing a thermoelectric module according to the first embodiment of the present invention, FIG. 11 is a perspective view of the thermoelectric module shown in FIG. 10, and FIG. It is a schematic configuration diagram of the heat pump device according to the first embodiment of the present invention.

The curtain wall according to this embodiment includes a fixed frame 200 fixed to a structure, a support frame 300 coupled to the fixed frame 200 and disposed outside the fixed frame 200, and the support The deco frame 100 assembled to the frame 300 and exposed to the outside, the glass assembly 150 fixed in close contact with the fixing frame 200 and the support frame 300, and the fixing frame 200 or A thermoelectric module 600 disposed on at least one of the support frames 300 and a heat pump device 800 disposed on at least one of the fixed frame 200 and the support frame 300 are included.

The thermoelectric module 600 generates heat on one side and cools the other side through the applied power, thereby actively solving the temperature difference between indoor and outdoor, and through this, the fixed frame 200, the support frame 300 or the glass assembly Condensation generated in at least one of (150) can be actively suppressed.

In addition, the heat pump device 800 circulates the refrigerant to the fixed frame 200 and the support frame 300 to condense and evaporate it, thereby actively reducing the temperature difference between the indoor and outdoor sides.

The fixed frame 200 includes a bottom frame 210 disposed on the ground side, a top frame 220 disposed on the upper side opposite to the bottom frame 210, the bottom frame 210 and the top frame ( 220) and a second side frame 240 connecting right sides of the bottom frame 210 and the top frame 220.

The glass assembly 150 is disposed between the bottom frame 210, the top frame 220, the first side frame 230 and the second side frame 240, and the glass assembly 150 is the bottom frame ( 210), the top frame 220, the first side frame 230 and the second side frame 240 are fixed to at least one.

The curtain wall according to this embodiment may further include a solar panel device 400 disposed on at least one of the glass assembly 150 and the deco frame 100.

The bottom frame 210, the top frame 220, the first side frame 230 and the second side frame 240 may all be fixed to the structure of the building.

The bottom frame 210 and the top frame 220 are formed to be longer in width than in height. The first side frame 230 and the second side frame 240 are formed to have a height longer than a width.

In this embodiment, the bottom frame 210 and the top frame 220 are fixed to the structure, and the first side frame 230 and the second side frame 340 are connected to the bottom frame 210 and the top frame 220. are combined In this embodiment, the fixing frame 200 is fixed to the structure of the building in an integrated state, and through this, it is possible to shorten the installation time.

In this embodiment, the bottom frame 210, the top frame 220, the first side frame 230 and the second side frame 240 are all manufactured in the form of a square tube with an empty inside.

The bottom frame 210 includes a front surface 211, a rear surface 212, a left surface 213, a right surface (not shown), an upper surface 215, and a lower surface 216, and A bottom frame space 210a is formed inside.

The left side 213 and the right side may be coupled to the first side frame 230 or the second side frame 240 through the fastening member 208 .

The top frame 220 includes a front surface 221, a rear surface 222, a left surface 223, a right surface (not shown), an upper surface 215, and a lower surface 216, and A top frame space 220a is formed inside.

The left side 223 and the right side may be coupled to the first side frame 230 or the second side frame 240 through the fastening member 209 .

The first side frame 230 includes a front surface 231, a rear surface 232, a left surface 233, a right surface 234, a top surface (not shown) and a bottom surface 236, and the first side frame A first side frame space 230a is formed inside 230 .

The second side frame 240 includes a front surface 241, a rear surface 242, a left surface 243, a right surface 244, a top surface (not shown) and a bottom surface 246, and the second side frame A second side frame space 240a is formed inside 240 .

The bottom frame 210 , the top frame 220 , the first side frame 230 and the second side frame 240 each have a fixed coupling part 250 disposed thereon. Each configuration of the fixed coupling part 250 is the same, and the installation position is different. If it is necessary to distinguish each component of the fixed coupling part 250, the bottom fixed coupling part 251, the top fixed coupling part 252, the first side fixed coupling part 253 or the second side fixed coupling part 254 ) is called

The bottom fixed coupling part 251, the top fixed coupling part 252, the first side fixed coupling part 253 and the second side fixed coupling part 254 are the bottom frame 210, the top frame 220, It is disposed on each front surface of the first side frame 230 and the second side frame 240 and protrudes forward.

The glass assembly 150 may be disposed between the bottom fixed coupling part 251, the top fixed coupling part 252, the first side fixed coupling part 253 or the second side fixed coupling part 254, Some of the load of the glass assembly 150 may be distributed to the bottom fixed coupling part 251, the top fixed coupling part 252, the first side fixed coupling part 253 or the second side fixed coupling part 254. there is.

The glass assembly 150 includes front surfaces 211, 221, 231, and 241 of the bottom frame 210, the top frame 220, the first side frame 230, and the second side frame 240. can be adhered to.

An inter-frame space 205 is formed between the bottom frame 210 , the top frame 220 , the first side frame 230 and the second side frame 240 . The inter-frame space 205 is disposed behind the glass assembly 150 .

Since the bottom fixed coupling part 251, the top fixed coupling part 252, the first side fixed coupling part 253, and the second side fixed coupling part 254 have the same structure, the fixed coupling part 250 and describe the structure.

The bottom fixing coupling part 251 protrudes forward from the bottom support wall 261 disposed by retracting from the front surface 211 to the rear surface 212 side, and the bottom support wall 261, and the support frame 300 It includes a bottom support column 271 coupled with the bottom support column 271, and a bottom coupling groove 281 formed concavely toward the rear side of the bottom support column 271.

The bottom support wall 261 is vertically disposed. The bottom support wall 261 is disposed by retracting toward the rear surface 212 by the bottom coupling interval 219 . Upper and lower ends of the bottom support wall 261 are connected to the front surface 211 .

A bottom assembly groove 291 is formed between the bottom support wall 261 and the front surface 211 .

The bottom support column 271 may be horizontally disposed and orthogonal to the bottom support wall 261 . The bottom support column 271 may be horizontally disposed in the middle of the height of the bottom frame 210 .

A front end of the bottom support column 271 may protrude forward from the front surface 211 and be inserted into the support frame 300 .

The bottom coupling groove 281 is concave from the front end of the bottom support column 271 to the rear. The bottom coupling groove 281 may be disposed in the middle of the height of the bottom frame 210 and may be disposed horizontally so as to halve the bottom serrot wall 261 .

The rear end of the bottom coupling groove 281 is disposed in front of the bottom support wall 261 and is concave to the bottom coupling gap 219 in this embodiment.

The structure of the top fixed coupling part 252 is the same as that of the bottom fixed coupling part 251 .

The top fixing coupling part 252 includes a top support wall 262 that is disposed by retracting from the front surface 221 to the rear surface 222 and protrudes forward from the top support wall 262, and the support frame 300 ) and a top support column 272 coupled with the top support column 272, and a top coupling groove 282 formed concavely toward the rear side of the top support column 272.

A top assembly groove 292 is formed between the top support wall 262 and the front surface 221 .

The first side fixing coupling part 253 protrudes forward from the first side support wall 263 disposed by retracting from the front surface 231 to the rear surface 232, and the first side support wall 263, , A first side support column 273 coupled to the support frame 300, and a first side coupling groove 283 formed concavely rearward in the first side support column 273.

A first side assembly groove 293 is formed between the first side support wall 263 and the front surface 231 .

The second side fixing coupling part 254 protrudes forward from the second side support wall 264 disposed by retreating from the front surface 241 to the rear surface 242, and the second side support wall 264, , a second side support column 274 coupled to the support frame 300, and a second side coupling groove 284 formed concavely rearward in the second side support column 274.

A second side assembly groove 294 is formed between the second side support wall 264 and the front surface 241 .

The support frame 300 is coupled to the bottom supporter 310 coupled to the bottom frame 210, the top supporter 320 coupled to the top frame 220, and the first side frame 230. It includes a first side supporter 330 and a second side supporter 340 coupled to the second side frame 240 .

In this embodiment, the structures of the bottom supporter 310, the top supporter 320, the first side supporter 330, and the second side supporter 340 are the same, but the installation positions and directions are different.

The bottom supporter 310, the top supporter 320, the first side supporter 330, and the second side supporter 340 may be formed of a metal material and receive heat from the thermoelectric module 600 through conduction. can

The bottom supporter 310 includes a first bottom support base 311 and a second bottom support base 312 inserted into the bottom assembly groove 291 and spaced apart from each other, and the first bottom support base ( 311) protruding forward from the bottom support body 313, the second bottom support body 314 protruding forward from the second bottom support base 312, and the first bottom support body 313 and a bottom connection body 315 connecting the second bottom support body 314, and disposed at front ends of the first bottom support body 313 and the second bottom support body 314, and the deco frame 100 And, the assembled bottom deco coupling part 316, disposed on the rear side of the first bottom support body 313 and the second bottom support body 314, inserted into and coupled to the bottom coupling groove 281 It includes a bottom coupling protrusion 318 and a bottom column groove 319 disposed between the first bottom support base 311 and the second bottom support base 312 and into which the bottom support column 271 is inserted. .

The first bottom support base 311 and the second bottom support base 312 are arranged in a line. In this embodiment, the first bottom support base 311 is disposed on the upper side, and the second bottom support base 312 is disposed on the lower side.

The first bottom support base 311 and the second bottom support base 312 interlock with the bottom assembly groove 291 .

The bottom assembly groove 291 includes an upper bottom assembly groove 291a disposed above the bottom support column 271 and a lower bottom assembly groove 291b disposed below the bottom support column 291 do.

The protrusion 311a of the first bottom support base 311 engages with the upper bottom assembly groove 291a, and the protrusion 312a of the second bottom support base 312 engages with the lower bottom assembly groove 291a. (291b) and mutually engaging.

The protrusions 311a and 312a engage each other in the front and rear directions and in the up and down directions.

The first bottom support base 311 and the first bottom support body 313 are orthogonal, and the second bottom support base 312 and the second bottom support body 314 are orthogonal.

The first bottom support body 313 and the second bottom support body 314 are disposed in parallel. In this embodiment, the first bottom support body 313 is disposed on the upper side, and the second bottom support body 314 is disposed on the lower side.

The bottom connection body 315 couples the first bottom support body 313 and the second bottom support body 314, and is disposed vertically in the present embodiment. The bottom connection body 315 may be disposed in a plurality of places.

The bottom decor coupling part 316 includes a first bottom decor coupling part 316a extending from the first bottom support body 313 and a second bottom decor coupling part extending from the second bottom support body 314. (316b), the first bottom deco coupling part 316a protruding in the direction of the second bottom decor coupling part 316b, and the second bottom decor coupling part 316b. The second bottom deco coupling protrusion 317b protrudes in the direction of the first bottom decor coupling portion 316a, and is formed between the first bottom decor coupling portion 316a and the second bottom decor coupling portion 316b, and the decor It includes a bottom deco insertion groove 316c into which the frame 100 is inserted.

A part of the structure of the deco frame 100 may be inserted between the first bottom protrusion 317a and the second bottom protrusion 317b to fix the deco frame 100.

The bottom connecting body 315 adjacent to the first bottom locking protrusion 317a and the second bottom locking protrusion 317b has a bottom deformable part 319 that can be elastically deformed by the elasticity of the material when the deco frame 100 is inserted. ) may be further arranged.

In this embodiment, the bottom deformable portion 319 is formed in a “>” shape, and when the deco frame 100 is inserted, it can open up and down so that the deco frame 100 can be easily inserted.

In this embodiment, the bottom coupling protrusion 318 is disposed in the bottom column groove 319, and the bottom coupling protrusion 318 is hidden inside the bottom supporter 310 to be protected from external impact.

When the bottom coupling protrusion 318 is inserted into and coupled to the bottom coupling groove 281, the bottom support column 271 closely adheres to the first bottom support base 311 and the second bottom support base 312. to be supported

The top supporter 320 has the same structure as the bottom supporter 310 .

The top supporter 320 includes a first top support base 321 and a second top support base 322 inserted into the top assembly groove 292 and spaced apart from each other, and the first top support base ( The first top support body 323 protrudes forward from 321), the second top support body 324 protrudes forward from the second top support base 322, and the first top support body 323 And a top connection body 325 connecting the second top support body 324, and disposed at the front end of the first top support body 323 and the second top support body 324, and the deco frame 100 And, the assembled top deco coupling part 326, disposed on the rear side of the first top support body 323 and the second top support body 324, inserted into the top coupling groove 282 and coupled It includes a top coupling protrusion 328 and a top column groove 329 disposed between the first top support base 321 and the second top support base 322 and into which the top support column 272 is inserted. .

The top assembly groove 292 includes an upper top assembly groove 292a disposed above the top support column 272 and a lower top assembly groove 292b disposed below the top support column 272 do.

The protrusion 321a of the first top support base 321 interlocks with the upper top assembly groove 292a, and the protrusion 322a of the second top support base 322 engages with the upper top assembly groove 292a. (292b) and mutually engaging.

The top decor coupling part 326 includes a first top decor coupling part 326a extending from the first top support body 323 and a second top decoration coupling part extending from the second top support body 324 (326b), the first top deco coupling part 326a protruding in the direction of the second top decor coupling part 326b, and the second top decor coupling part 326b. It is formed between the second tower holding protrusion 327b protruding in the direction of the first top decor coupling part 326a, and the first top decor coupling part 326a and the second top decor coupling part 326b. It includes a top decor insertion groove 326c into which the frame 100 is inserted.

The top connecting body 325 adjacent to the first tower holding protrusion 327a and the second top holding protrusion 327b has a top deformation portion 329 that can be elastically deformed by the elasticity of the material when the deco frame 100 is inserted. ) may be further arranged.

In this embodiment, the top deformable portion 329 is formed in a “>” shape, and when the deco frame 100 is inserted, it can open up and down so that the deco frame 100 can be easily inserted.

The first side supporter 330 is inserted into the first side assembly groove 293 and is spaced apart from each other with the 1-1st side support base 331 and the 1-2nd side support base 332 , the 1-1 side support body 333 protruding forward from the 1-1 side support base 331, and the 1-2 side protruding forward from the 1-2 side support base 332 The first side connection body 335 connecting the support body 334, the 1-1 side support body 333 and the 1-2 side support body 334, and the 1-1 side support body 333 and the 1-2 side support body 334, the deco frame 100, the first side deco coupling part 336 assembled, and the 1-1 side support body ( 333) and the first side coupling protrusion 338 disposed on the rear side of the 1-2 side support body 334 and inserted into and coupled to the first side coupling groove 283, and the 1-1 side It is disposed between the support base 331 and the 1-2 side support bases 332 and includes a first side column groove 339 into which the first side support column 273 is inserted.

The first side assembly groove 293 includes a first left side assembly groove 293a disposed on the left side of the first side support column 273 and a first left side assembly groove 293a disposed on the right side of the first side support column 273. 1 light side assembly groove (293b) is included.

The protrusion 331a of the 1-1 side support base 331 interlocks with the first left side assembly groove 293a, and the protrusion 332a of the 1-2 side support base 332 forms mutually engaging with the first light side assembly groove 293b.

The first side deco coupling part 336 is formed by the 1-1 side decor coupling part 336a extending from the 1-1 side support body 333 and the 1-2 side support body 334. The extended 1-2 side decor coupling part 336b and the 1-1 side hooking protrusion protruding from the 1-1 side decor coupling part 336a toward the 1-2 side decor coupling part 336b (337a), the 1-2 side hooking protrusions 337b protruding from the 1-2 side decor coupling part 336b in the direction of the 1-1 side decor coupling part 336a, and the 1-1 It is formed between the side decor coupling part 336a and the 1-2 side decor coupling part 336b, and includes a first side decor insertion groove 336c into which the decor frame 100 is inserted.

When the deco frame 100 is inserted into the first side connection body 335 close to the 1-1 side locking protrusion 337a and the 1-2 side locking protrusion 337b, it can be elastically deformed by the elasticity of the material. A first side deformable portion 339 may be further disposed.

In this embodiment, the first side deformable portion 339 is formed in a "∧" shape, and when the deco frame 100 is inserted, it can be opened in the left and right directions so that the deco frame 100 can be easily inserted. there is.

The second side supporter 340 is inserted into the second side assembly groove 294 and is spaced apart from each other with the 2-1st side support base 341 and the 2-2nd side support base 342 , the 2-1 side support body 343 protruding forward from the 2-1 side support base 341, and the 2-2 side protruding forward from the 2-2 side support base 342 The second side connection body 345 connecting the support body 344, the 2-1 side support body 343 and the 2-2 side support body 344, and the 2-1 side support body 343 and the second side deco coupling part 346 disposed at the front end of the 2-2 side support body 344 and assembled with the deco frame 100, 343) and the second side coupling protrusion 348 disposed on the rear side of the 2-2 side support body 344 and inserted into and coupled to the second side coupling groove 284, and the 2-1 side It is disposed between the support base 341 and the 2-2 side support base 342, and includes a second side column groove 349 into which the second side support column 274 is inserted.

The second side assembly groove 294 includes a second left side assembly groove 294a disposed on the left side of the second side support column 274 and a second left side assembly groove 294a disposed on the right side of the second side support column 274. It includes 2 light side assembly grooves (294b).

The protrusion 341a of the 2-1st side support base 341 interlocks with the second left side assembly groove 294a, and the protrusion 342a of the 2-2nd side support base 342 forms mutually engaging with the second light side assembly groove 294b.

The second side deco coupling part 346 is formed by the 2-1 side decor coupling part 346a extending from the 2-1 side support body 343 and the 2-2 side support body 344. The extended 2-2 side decor coupling part 346b and the 2-1 side hooking protrusion protruding from the 2-1 side decor coupling part 346a in the direction of the 2-2 side decor coupling part 346b (347a), the 2-2 side hooking protrusion 347b protruding from the 2-2 side decor coupling part 346b in the direction of the 2-1 side decor coupling part 346a, and the 2-1 It is formed between the side decor coupling part 346a and the 2-2 side decor coupling part 346b, and includes a second side decor insertion groove 346c into which the decor frame 100 is inserted.

When the deco frame 100 is inserted into the second side connecting body 345 close to the 2-1 side locking protrusion 347a and the 2-2 side locking protrusion 347b, it can be elastically deformed by the elasticity of the material. A second side deformable portion 349 may be further disposed.

In this embodiment, the fourth side deformable portion 349 is formed in a “∧” shape, and when the deco frame 100 is inserted, it can open in the left and right directions so that the deco frame 100 can be easily inserted. there is.

The deco frame 100 is coupled to the bottom decor 110 coupled to the bottom supporter 310, the top decor 120 coupled to the top supporter 320, and the first side supporter 330. It includes a first side decoration 130 and a second side decoration 140 coupled to the second side supporter 340.

The bottom deco 110 includes a first bottom deco body 112 disposed in front of the bottom supporter 310 and covering the front surface of the bottom supporter 310, and the first bottom deco body 112. The bottom decor coupling part 116 is disposed and inserted into the bottom decor insertion groove 316c to be fitted, coupled to the first bottom decor body 112, and the lower side of the second bottom support body 314 It includes a second bottom deco body 114 covering the .

A bottom fitting member 710 may be further disposed between the second bottom deco body 114 and the front surface 211 of the bottom frame 210 . The bottom fitting member 710 is preferably made of a material having elasticity.

The bottom-fitting member 710 can cushion the gap between the bottom decor 110 and the bottom supporter 310 and block external foreign substances from penetrating into the inside.

The bottom fitting member 710 has its front surface in close contact with the rear surface of the second bottom deco body 114, its rear surface in close contact with the front surface 211, and its upper surface in close contact with the second bottom support body 314. and the lower surface may be exposed to the outside.

In the second bottom decoration body 114, a bottom decoration fitting part 115 inserted into the bottom fitting member 710 may be further disposed, and the bottom decoration fitting part 115 is the bottom fitting member 710. ) By being inserted and fixed into the inside, it is possible to block the penetration of external foreign substances into the bottom supporter 310 side.

The bottom supporter 310 includes a first bottom fastening member 361a penetrating the first bottom support base 311 and the upper bottom assembly groove 291a, the second bottom support base 312 and the lower bottom assembly It may be fixed to the bottom frame 210 through the second bottom fastening member 361b penetrating the groove 291b.

The bottom supporter 310 and the bottom decor 110 are the third bottom fastening member 361c penetrating the first bottom support body 313, the second bottom support body 314 and the second bottom decor body 114. ) can be combined.

A lower end of the glass assembly 150 may be supported in close contact with the first bottom support body 313 .

The top decoration 120 is disposed in front of the top supporter 320 and covers the front surface of the top supporter 320, and the first top decoration body 122 and the first top decoration body 122 The top decor coupling part 126 is disposed and inserted into the top decoration insertion groove 326c to be fitted, coupled to the first top decoration body 122, and the upper side of the first top support body 323 It includes a second top deco body 124 covering the.

A top fitting member 720 may be further disposed between the second top deco body 124 and the front surface 221 of the top frame 220 . The top fitting member 720 is preferably made of a material having elasticity.

The top fitting member 720 can buffer the gap between the top decoration 120 and the top supporter 320 and block external foreign substances from penetrating into the inside.

The top fitting member 720 has its front surface in close contact with the rear surface of the second top deco body 124, its rear surface in close contact with the front surface 221, and its bottom surface in close contact with the first top support body 323. and the upper surface may be exposed to the outside.

A top decoration fitting part 125 inserted into the top fitting member 720 from the second top decoration body 124 may be further disposed, and the top decoration fitting part 125 is the top fitting member 720. ) By being inserted into and fixed to the inside, it is possible to block the penetration of external foreign substances into the top supporter 320 side.

The top supporter 320 includes a first top fastening member 362a penetrating the first top support base 321 and the upper top assembly groove 292a, and the second top support base 322 and the lower top assembly It may be fixed to the top frame 220 through the second top fastening member 362b penetrating the groove 292b.

The top supporter 320 and the top decoration 120 are the third top fastening member 362c penetrating the first top support body 323, the second top support body 324 and the second top decoration body 124. ) can be combined.

An upper end of the glass assembly 150 may be supported in close contact with the first top support body 323 .

The first side deco 130 includes a 1-1 side deco body 132 disposed in front of the first side supporter 330 and covering the front surface of the first side supporter 330, The first side decor coupling part 136 disposed in the 1-1 side decor body 132 and inserted into the first side decor insertion groove 336c to be fitted, and the 1-1 side decor body 132 ), and includes a 1-2 side deco body 134 covering the left side of the 1-1 side support body 333.

A first side fitting member 730 may be further disposed between the first and second side deco bodies 134 and the front surface 231 of the first side frame 230 . The first side fitting member 730 is preferably made of a material having elasticity.

The first side fitting member 730 can buffer the space between the first side decor 130 and the first side supporter 330 and block external foreign substances from penetrating into the inside.

The first side fitting member 730 has a front side in close contact with the rear surface of the 1-2 side deco body 134, a rear side in close contact with the front side 231, and a right side side in close contact with the 1-1 side support It is in close contact with the body 333, and the left side may be exposed to the outside.

A first side decoration fitting part 135 inserted into the first side fitting member 730 in the 1-2 side decoration body 134 may be further disposed, and the first side decoration fitting part 135 ) is inserted into and fixed to the first side fitting member 730, thereby preventing external foreign substances from penetrating into the first side supporter 330.

The first side supporter 330 includes a 1-1 side fastening member 363a penetrating the 1-1 side support base 331 and the 1st left side assembly groove 293a, and the 1-2 It may be fixed to the first side frame 230 through the 1-2 side fastening members 363b penetrating the side support base 332 and the first light side assembly groove 293b.

The first side supporter 330 and the first side decoration 130 include the 1-2 side support body 334, the 1-1 side support body 333 and the 1-2 side decoration body 134 It can be coupled through the 1st-3rd side fastening members 363c passing through in turn.

The left end of the glass assembly 150 may be supported in close contact with the 1-1 side support body 333 .

The second side deco 140 includes a 2-1 side deco body 142 disposed in front of the second side supporter 340 and covering the front surface of the second side supporter 340, The second side decor coupling part 146 disposed in the 2-1 side decor body 142 and inserted into the second side decor insertion groove 346c to be fitted, and the 2-1 side decor body 142 ), and includes a 2-2 side deco body 144 covering the left side of the 2-1 side support body 343.

A second side fitting member 740 may be further disposed between the 2-2 side deco body 144 and the front surface 241 of the second side frame 240 . The second side fitting member 740 is preferably made of a material having elasticity.

The second side fitting member 740 can cushion the gap between the second side decor 140 and the second side supporter 340 and block external foreign substances from penetrating into the inside.

The second side fitting member 740 has a front surface closely adhered to the rear surface of the 2-2 side deco body 144, a rear surface adhered to the front surface 241, and a left surface adhered to the 2-2 side deco body 144. It is in close contact with the support body 344, and the right side may be exposed to the outside.

A second side decoration fitting part 145 inserted into the second side fitting member 740 in the 2-2 side decoration body 144 may be further disposed, and the second side decoration fitting part 145 ) is inserted into and fixed to the second side fitting member 740, thereby preventing external foreign substances from penetrating into the second side supporter 340.

The second side supporter 340 includes a 2-1 side fastening member 364a penetrating the 2-1 side support base 341 and the second left side assembly groove 294a, and the 2-2 It may be fixed to the second side frame 240 through the 2-2 side fastening member 364b penetrating the side support base 342 and the second light side assembly groove 294b.

The second side supporter 340 and the second side decoration 140 are the 2-1 side support body 343, the 2-2 side support body 344 and the 2-2 side decoration body 144 It can be coupled through the second-third side fastening member 364c passing through in turn.

The right end of the glass assembly 150 may be supported in close contact with the 1-1 side support body 333 .

2 or 3, the curtain wall according to this embodiment includes a solar panel 400 disposed on the front of the deco frame 100 and a battery disposed inside the support frame 300 ( 500) and a thermoelectric module 600 disposed inside the fixing frame 200.

The solar panel 400 includes a first solar panel 410 disposed on the front surface of the bottom decor 110 and a second solar panel 420 disposed on the front surface of the top decor 120. , The third solar panel 430 disposed in front of the first side decor 130, and the fourth solar panel 440 disposed in front of the second side decor 140.

The first solar panel 410 is disposed to cover the front surfaces of the first bottom decor body 112 and the second bottom decor body 114 .

The second solar panel 420 is disposed to cover the front surfaces of the first top deco body 122 and the second top deco body 124 .

The third solar panel 430 is disposed to cover the front surfaces of the 1-1 side deco body 132 and the 1-2 side deco body 134 .

The fourth solar panel 440 is disposed to cover the front surfaces of the 2-1 side deco body 142 and the 2-2 side deco body 144 .

An empty space of the first bottom decor space 112a is formed inside the first bottom decor body 112, and an empty space of the second bottom decor space 114a is formed inside the second bottom decor body 114. do.

An empty space of the first top decoration space 122a is formed inside the first top decoration body 122, and an empty space of the second top decoration space 124a is formed inside the second top decoration body 124. do.

An empty space of the 1-1 side decor space 132a is formed inside the 1-1 side decor body 132, and the 1-2 side decor space 132a is inside the 1-2 side decor body 134. An empty space of the decor space 134a is formed.

The empty space of the 2-1st side decor space 142a is formed inside the 2-1st side decor body 142, and the 2-2nd side decor space 142a is inside the 2-2nd side decor body 144. An empty space of the decor space 144a is formed.

4 to 7, the battery 500 includes a first battery 510 disposed inside the bottom deco 110 to store power generated by the first solar panel 410 and , The second battery 520 disposed inside the top deco 120 to store the power generated by the second solar panel 420, and the second battery 520 disposed inside the first side decor 130 to A third battery 530 for storing power generated by the third solar panel 430 and disposed inside the second side deco 140 to generate power generated by the fourth solar panel 440 and a fourth battery 540 for storage.

Specifically, the first battery 510 is disposed in the second bottom decoration space 114a, the second battery 520 is disposed in the second top decoration space 124a, and the third battery 530 ) is disposed in the 1-2nd side decoration space 134a, and the fourth battery 540 is disposed in the 2-2nd side decoration space 144a.

Since the first bottom decor body 112 is disposed in front of the bottom supporter 310 and the second bottom decor body 114 is disposed on the side of the bottom supporter 310, the second bottom decor space 114a is larger than the volume of the first bottom decor space 112a, and a sufficient installation space for the first battery 510 can be secured.

In particular, when the third bottom fastening member 361c is installed, it is fastened to the first battery 510, so that the bottom decor 110, the bottom supporter 310, and the first battery 510 can be simultaneously fixed. there is.

Since the first top decoration body 122 is disposed in front of the top supporter 320 and the second top decoration body 124 is disposed on the side of the top supporter 320, the second top decoration space 124a is larger than the volume of the first top decoration space 122a, and a sufficient installation space for the second battery 520 can be secured.

When the third top fastening member 362c is installed, it is fastened to the second battery 520, so that the top decoration 120, the top supporter 320, and the second battery 520 can be simultaneously fixed.

The 1-1 side deco body 132 is disposed in front of the first side supporter 330, and the 1-2 side deco body 134 is disposed on the side of the first side supporter 330. Therefore, the volume of the 1-2 side decor space 134a is larger than the volume of the 1-1 side decor space 132a, and a sufficient installation space for the third battery 530 can be secured.

When the 1-3 side fastening members 363c are installed, they are fastened to the third battery 530, so that the first side decor 130, the first side supporter 330, and the third battery 530 are connected. can be fixed at the same time.

The 2-1 side deco body 142 is disposed in front of the second side supporter 340, and the 2-2 side deco body 144 is disposed on the side of the second side supporter 340. Therefore, the volume of the 2-2 side decoration space 144a is larger than the volume of the 2-1 side decoration space 142a, and a sufficient installation space for the fourth battery 540 can be secured.

When the 2nd-3rd side fastening member 364c is installed, it is fastened to the 4th battery 540, so that the 2nd side decor 140, the 2nd side supporter 340 and the 4th battery 540 can be fixed at the same time.

In this embodiment, the thermoelectric module 600 is disposed inside the fixed frame 200 , and specifically disposed inside the bottom frame 210 .

The thermoelectric module 600 may receive power through at least one of the first battery 510 , the second battery 520 , the third battery 530 , and the fourth battery 540 .

The thermoelectric module 600 is a semiconductor that is operated by applied power to generate heat on one side and absorb heat on the other side.

The thermoelectric module 600 includes a thermoelectric element 650 operated by applied power, a first heat dissipation fin 610 disposed on one side of the thermoelectric element 650, and the other of the thermoelectric element 650. It includes a second heat dissipation fin 620 disposed on the side.

The thermoelectric element is a thermistor, which is a device using temperature change of electrical resistance, a device using the Seebeck effect, which is a phenomenon in which electromotive force is generated by a temperature difference, and a Peltier effect, which is a phenomenon in which heat is absorbed (or generated) by current. There is a Peltier element, which is a device, and the like.

A thermistor is a type of semiconductor device whose electrical resistance varies greatly with temperature. NTC thermistor (negative temperature coefficient thermistor) whose electrical resistance decreases as temperature rises, and positive temperature coefficient thermistor (PTC: positive temperature coefficient thermistor).

Thermistors are made by combining oxides such as molybdenum, nickel, cobalt, and iron with multiple components and sintering them, and are used for stabilizing circuits and detecting heat, power, and light.

The Peltier effect is a phenomenon in which when two types of metal ends are connected and current flows, one terminal absorbs heat and the other terminal generates heat, depending on the direction of the current. If semiconductors such as bismuth and tellurium with different electrical conduction methods are used instead of the two types of metals, a Peltier element with highly efficient heat absorbing and exothermic action can be obtained.

It is possible to switch between heat absorption and heat generation according to the direction of current and adjusts the amount of heat absorption and heat generation according to the amount of current, so it is applied to the manufacture of refrigerators with low capacity or precise thermostats near room temperature.

Since the structure of the thermoelectric element using the Peltier effect is a general technique for those skilled in the art, a detailed description thereof will be omitted.

In the thermoelectric module 600 , the thermoelectric element 650 , the first heat dissipation fin 610 , and the second heat dissipation fin 620 are disposed in the bottom frame space 210a formed inside the bottom frame 210 .

In the thermoelectric module 600, a first heat dissipation fin 610, a thermoelectric element 650, and a second heat dissipation fin 620 are horizontally arranged, and the thermoelectric element 650 includes the first heat dissipation fin 610 and the second heat dissipation fin ( 620) is placed between them.

In this embodiment, the first heat dissipation fin 610 is disposed on the front side, and the second heat dissipation fin 620 is disposed on the rear side. The first heat dissipation fin 610 and the second heat dissipation fin 620 may be formed by stacking a plurality of fins.

The first heat dissipation fins 610 and the second heat dissipation fins 620 are arranged in close contact with the inner surface of the bottom frame 210 to directly conduct heat to the bottom frame 210 .

The front surface of the first heat dissipation fin 610 is in close contact with the bottom support wall 261, and the rear surface of the second heat dissipation fin 620 is in contact with the rear surface 212 of the bottom frame 210 to conduct heat. .

In this embodiment, the 1-1 radiating fin fastening hole 611 and the 1-2 radiating fin fastened to the first radiating fin 610 with the first bottom fastening member 361a and the second bottom fastening member 361b. A fastening hole 612 may be formed.

The first bottom fastening member 361a penetrates the first bottom support base 311 and the bottom support wall 261, and is inserted into the 1-1 radiating fin fastening hole 611 so that the first radiating fin 610 and can be fastened.

The second bottom fastening member 361b penetrates the second bottom support base 312 and the bottom support wall 261, and is inserted into the 1-2 radiating fin fastening holes 612 to form the first radiating fin 610. and can be fastened.

In this embodiment, the bottom supporter 310, the bottom frame 210, and the first radiating fin 610 are connected to the first bottom fastening member 361a through the first bottom fastening member 361a or the second bottom fastening member 361b. ) has the advantage of being able to combine at once.

In addition, since the first bottom fastening member 361a and the second bottom fastening member 361b are made of a metal material, heat from the first heat dissipation fin 610 is transferred to the bottom supporter 310 through conduction. can

Since the bottom fitting member 710 is formed of an elastic material with low thermal conductivity, it is possible to block thermal conduction of the second bottom decoration body 114 and the second bottom support base 312 that are in direct contact with the outside air. Rapid temperature change of the bottom supporter 310 may be delayed or reduced.

In addition, through the heat of the first battery 510 disposed inside the second bottom deco body 114, condensation of the bottom supporter 310 can be minimized or prevented.

When the thermoelectric element 650 is operated, when heat is absorbed from the first heat dissipation fin 610, heat is generated from the second heat dissipation fin 620, and heat is generated from the first heat dissipation fin 610 , heat absorption is generated in the second heat dissipation fin 620 .

During the day when solar heat is supplied, the amount and frequency of condensation are low because the temperature difference between outside and inside the curtain wall is small. At night when solar heat is not provided, a large temperature difference between indoor and outdoor temperatures is formed, and dew condensation may occur on the indoor side where the temperature is high.

Electricity produced by the solar panel 400 is stored in the battery 500, and the thermoelectric module 600 according to the present embodiment is operated with the power of the battery 500 in a time zone with a large temperature difference, so that the curtain wall Condensation can be actively minimized.

The thermoelectric module 600 according to the present embodiment may be operated in summer as well as in winter when dew condensation occurs.

That is, the temperature difference between indoors and outdoors can be reduced by operating the thermoelectric module 600 at night when electricity generated during the day is stored and a large temperature difference is formed through the stored electricity.

Since a separate external power source is not used when the thermoelectric module 600 is operated in the curtain wall according to the present embodiment, there is an advantage in that there is no additional burden of electric charges.

Since the first battery 510, the second battery 520, the third battery 530, and the fourth battery 540 are hidden inside the deco frame 100, the influence of the external environment can be minimized, , can prevent external damage.

Meanwhile, the heat pump device 800 according to the present embodiment includes a compressor 810, a first heat exchange tube 820 inserted into and disposed in the fixed frame 200, and inserted into the support frame 300. A second heat exchange tube 830 arranged in such a way, and a four-way valve for selecting and flowing the refrigerant compressed in the compressor 810 to either the first heat exchange tube 820 or the second heat exchange tube 830 ( 840), a first electronic expansion valve 850 that expands the refrigerant supplied to the first heat exchange tube 820, and a second electronic expansion valve that expands the refrigerant supplied to the second heat exchange tube 830 ( 860) and an accumulator tube 870 disposed at an inlet side of the compressor 810 and filtering liquid refrigerant from the refrigerant flowing into the compressor 810.

The compressor 810 may be operated through power from the batteries 510, 520, 530, and 540 or external power.

In this embodiment, the compressor 810 may be disposed in the inter-frame space 205 and may be supported by being mounted on the bottom frame 210 .

The first heat exchange tube 820 is disposed on the support frame 300 .

The first heat exchange tube 820 is formed in a tube shape, and a refrigerant may flow therein.

The first heat exchange tube 820 is disposed outside the second heat exchange tube 830 .

The first heat exchange tube 820 is connected to the 1-1 heat exchange tube 821 disposed on the bottom supporter 310 and the 1-1 heat exchange tube 821, and the first side supporter ( 330) and a 1-3 heat exchange tube 823 connected to the 1-2 heat exchange tube 822 and disposed in the top supporter 320. .

Specifically, the 1-1st heat exchange tube 821 is disposed between the 1st bottom support body 313 and the 2nd bottom support body 314, and the 1-2nd heat exchange tube 822 is It is disposed between the -1 side support body 333 and the 1-2 side support body 334, and the 1-3 heat exchange tubes 823 are connected to the first top support body 323 and the second top support body. (324).

When the refrigerant is condensed or evaporated inside the first heat exchange tube 820, the bottom supporter 310, the first side supporter 330, and the top supporter 320 made of metal are heated by the heat of condensation or evaporation of the refrigerant. Alternatively, it may be cooled, and through this, by adjusting the temperature of the support frame 300 and the deco frame 100, condensation due to the temperature difference between indoor and outdoor can be actively eliminated.

The second heat exchange tube 830 is connected to the 2-1 heat exchange tube 831 disposed on the bottom frame 210 and the 2-1 heat exchange tube 831, and the first side frame ( 230) and a 2-3 heat exchange tube 833 connected to the 2-2 heat exchange tube 832 and disposed on the top frame 220. .

The second heat exchange tube 820 is formed in a tube shape, and a refrigerant may flow therein.

Specifically, the 2-1 heat exchange tube 831 is disposed inside the first bottom frame 210 and is disposed to come into contact with the second radiation fin 620, and the 2-2 heat exchange tube 832 is disposed in the It is disposed inside the first side frame 230, the first side frame 230 is disposed to contact, and the 2-3 heat exchange tubes 833 are disposed to pass through the inside of the top frame 220, It is disposed in contact with the top frame 220 .

In contact with the 2-1st heat exchange tube 831 and the second heat dissipation fin 620, heat can be directly exchanged through conduction. The 2-2 heat exchange tube 832 is in direct contact with the first side frame 230 to transfer heat through conduction. The 2nd-3rd heat exchange tubes 833 are placed in contact with the top frame 220 to transfer heat through conduction.

When the refrigerant is condensed inside the first heat exchange tube 820, the support frame 300 is heated by the heat of condensation of the refrigerant, and when the refrigerant evaporates inside the second heat exchange tube 830, the fixed frame (200) is cooled by the heat of vaporization of the refrigerant.

Conversely, when the refrigerant is evaporated inside the first heat exchange tube 820, the support frame 300 is cooled by the evaporation heat of the refrigerant, and when the refrigerant is condensed inside the second heat exchange tube 830, the fixed The frame 200 is heated by condensation heat of the refrigerant.

As such, condensation heat/evaporation heat or evaporation heat/condensation heat is generated in the first heat exchange tube 820 and the second heat exchange tube 830 according to the circulation direction of the refrigerant, and through this, condensation caused by the indoor/outdoor temperature difference can be actively resolved. can

The accumulator tube 870 may be disposed inside the second side frame 240 and may be disposed elongated in the above direction.

The four-way valve 840 may be disposed in the inter-frame space 205 close to the compressor 810, and select the flow direction of the refrigerant to the first heat exchange tube 820 or the second heat exchange tube 830. can

The first electronic expansion valve 850 and the second electronic expansion valve 860 may also be disposed in the inter-frame space 205 .

The heat pump device 800 may be operated when the temperature difference between the inside and the outside does not decrease despite the operation of the thermoelectric module 600 .

When the first heat exchange tube 820 is heated and the second heat exchange tube 830 is cooled, the refrigerant compressed in the compressor 810 passes through the four-way valve 840 to the first heat exchange tube 820. ), and the refrigerant is condensed inside the first heat exchange tube 820 to heat the support frame 300 .

The refrigerant condensed in the first heat exchange tube 820 is expanded in the first electronic expansion valve 850 and then evaporated inside the second heat exchange tube 830 .

Thereafter, the evaporated refrigerant is returned to the compressor 810 through the accumulator tube 870, and may circulate through the above-described cycle.

When the first heat exchange tube 820 is cooled and the second heat exchange tube 830 is heated, the refrigerant compressed in the compressor 810 passes through the four-way valve 840 to the second heat exchange tube 830. ), and the refrigerant is condensed inside the second heat exchange tube 830 to heat the fixed frame 200 and the second heat dissipation fin 620 .

The refrigerant condensed in the second heat exchange tube 830 is expanded in the first electronic expansion valve 850 and then evaporated inside the first heat exchange tube 820 .

Thereafter, the evaporated refrigerant is returned to the compressor 810 through the accumulator tube 870, and may circulate through the above-described cycle.

The heat pump device 600 may be operated when the temperature difference between the top and bottom of the room is greatly widened.

Those skilled in the art to which the present invention pertains will understand that the present invention can be embodied in other specific forms without changing its technical spirit or essential features. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. The scope of the present invention is indicated by the claims to be described later rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention. should be interpreted

101: first sliding door 102: second sliding door
200: outer frame 210: bottom frame
220: top frame 230: first side frame
240: second side frame 250: first rail
260: second rail 300: bottom gap frame
400: solar panel device 600: thermoelectric module
650: thermoelectric element 610: first radiation fin
620: second radiation fin 800: heat pump device
810: compressor 820: first heat exchange tube
830: second heat exchange tube 840: four-way valve
850: first electronic expansion valve 860: second electronic expansion valve
870: accumulator tube

Claims (5)

A fixed frame 200 fixed to the structure;
a support frame 300 coupled to the fixed frame 200 and disposed outside the fixed frame 200;
A deco frame 100 assembled to the support frame 300, concealing the support frame and exposed to the outside;
a glass assembly 150 fixed in close contact with the fixing frame 200 and the support frame 300;
A heat pump device 800 disposed on at least one of the fixed frame 200 and the support frame 300 to reduce the indoor/outdoor temperature difference;
The heat pump device 800,
compressor 810;
a first heat exchange tube 820 inserted into and disposed in the fixing frame 200;
a second heat exchange tube 830 inserted into and disposed in the support frame 300;
a four-way valve 840 for selectively flowing the refrigerant compressed in the compressor 810 into either the first heat exchange tube 820 or the second heat exchange tube 830;
a first electronic expansion valve 850 for expanding the refrigerant supplied to the first heat exchange tube 820;
a second electronic expansion valve 860 for expanding the refrigerant supplied to the second heat exchange tube 830;
A curtain wall comprising an accumulator tube 870 disposed at an inlet side of the compressor 810 and filtering liquid refrigerant from the refrigerant flowing into the compressor 810.
delete The method of claim 1,
The fixed frame 200,
Bottom frame 210 disposed on the ground side;
a top frame 220 disposed on an upper side facing the bottom frame 210;
a first side frame 230 connecting left sides of the bottom frame 210 and the top frame 220;
A second side frame 240 connecting the right sides of the bottom frame 210 and the top frame 220;
The glass assembly 150 is disposed between the bottom frame 210, the top frame 220, the first side frame 230 and the second side frame 240,
A bottom frame space 210a is formed inside the bottom frame 210,
A top frame space 220a is formed inside the top frame 220,
A first side frame space 230a is formed inside the first side frame 230,
A second side frame space 240a is formed inside the second side frame 240,
The second heat exchange tube 830,
a 2-1 heat exchange tube 831 disposed on the bottom frame 210;
a 2-2 heat exchange tube 832 connected to the 2-1 heat exchange tube 831 and disposed on the first side frame 230;
A curtain wall including a 2-3 heat exchange tube 833 connected to the 2-2 heat exchange tube 832 and disposed on the top frame 220.
The method of claim 3,
The support frame 300,
a bottom supporter 310 coupled to the bottom frame 210;
a top supporter 320 coupled to the top frame 220;
a first side supporter 330 coupled to the first side frame 230;
A second side supporter 340 coupled to the second side frame 240; includes,
The bottom supporter 310 covers the front surface of the bottom frame 210,
The top supporter 320 covers the front surface of the top frame 220,
The first side supporter 330 covers the front surface of the first side frame 230,
The second side supporter 340 covers the front surface of the second side frame 240,
The first heat exchange tube 820,
a 1-1 heat exchange tube 821 disposed in the bottom supporter 310;
a 1-2 heat exchange tube 822 connected to the 1-1 heat exchange tube 821 and disposed on the first side supporter 330;
A curtain wall comprising a; 1-3 heat exchange tubes 823 connected to the 1-2 heat exchange tubes 822 and disposed on the top supporter 320.
The method of claim 4,
a bottom fixing coupling part 251 inserted into the bottom supporter 310 from the bottom frame 210 to support the bottom supporter 310;
a top fixing coupling part 252 inserted into the top supporter 320 from the top frame 220 to support the top supporter 320;
a first side fixing coupling part 253 inserted into the first side supporter 330 from the first side frame 230 to support the first side supporter 330;
A curtain wall further comprising a second side fixing coupling part 254 inserted into the second side supporter 340 from the second side frame 240 to support the second side supporter 340.

Images