KR101668607B1

KR101668607B1 - Enerex auto door

Info

Publication number: KR101668607B1
Application number: KR1020160017639A
Authority: KR
Inventors: 김현성
Original assignee: 주식회사 동영강화도어; 김현성
Priority date: 2016-02-16
Filing date: 2016-02-16
Publication date: 2016-10-24

Abstract

The present invention relates to an automatic enerex door. To achieve this, the automatic enerex door includes a door frame with a sliding door frame unit and a fixed window frame unit wherein an upper door frame guide unit is joined to an upper part, and a lower door frame guide unit is joined to a lower part and sliding and fixed doors formed inside the window frame. In the sliding door frame unit, a cut groove is perpendicularly formed in a front surface of a sliding door frame with an oblong space unit. A sliding door insertion groove unit is formed in a rear surface of the sliding door frame. A first insulating cut groove is formed at the center of the sliding door insertion groove. A first Azon insertion space unit is formed in a front surface of the first insulating cut groove, thus Azon is injected and cured in the first Azon insertion space unit. Vent insertion grooves are formed in both sides of a rear surface of the first insulating cut groove. First guide grooves with a first locking protrusion are formed on both lateral walls of an entry of the sliding door insertion groove unit, thus vents are inserted. Accordingly, the sliding and fixed doors of which an inner part and an outer part are separated by the Azon are formed inside the door frame to be opened and closed, and the vents are formed in a part where the sliding and fixated doors are closed. Thus, airtightness, insulating performance, and stability can be improved.

Description

ENEREX AUTO DOOR}

In particular, the present invention relates to an Enerex automatic door, and more particularly, to a door for an automobile which is provided inside the door frame so as to open and close the hinged door and the fixed door, And stability.

Generally, the automatic door is opened and closed by the slide type operation when a person is detected by the detection sensor while the internal heat is normally emitted to the outside.

The slide automatic door is fixed to the upper rail of the support frame made of the same material by a bolt, and the support frame and the glass frame are also provided inside the support frame in a state of being finishing using a metallic material. Thereby enabling a slide operation.

However, such a slide automatic door has a problem that the glass frame is detached or damaged when the glass frame is reciprocally moved back and forth without fixing the lower part of the glass frame.

In order to open and close the automatic door, there must be a space (gap) between the support frame and the glass frame. In this case, heat and dust such as heat and dust are generated from the inside or outside through the gap, And the like.

The support frame, the glass frame, and the finishing material constituting the slide automatic door are made of a metal material, so that there is another problem that heat is generated due to heat conduction from the inside to the outside or from the outside to the inside.

The slide automatic door has another problem in that a safety accident occurs due to a malfunction of the surveillance sensor when the glass frame (door) is opened or closed by detecting a person or an object.

In order to solve such a problem, an automatic door assembly structure having improved airtightness and heat insulating property of the Japanese Patent Application Laid-Open No. 10-2015-79360 (2015.07.08) has been proposed. The airtightness between the lower end portion of the opening and closing door and the bottom surface is maintained when the door is closed, the heat insulating material is reinforced to the driving portion installing box, and the airtightness between the upper portion of the opening and closing door and the driving portion installing box is improved by mounting the gasket, The airtightness effect of the automatic door which is opened and closed by the driving of the door, as well as the wind and dust in the room due to the windshield is blocked and the airtightness and the heat insulating property, which have a heat insulating effect, are improved. However, There is a problem in that heat is flowed in from the inside to the outside or from the outside to the inside, and the opened door is closed If the user's finger caught in this process, there is another problem that the injury suffered.

Japanese Patent Application Laid-Open No. 10-2015-79360 (Jul. 2015)

The present invention prevents heat from flowing out through a gap between a hinged door and a fixed door provided on a door frame so that external heat, dust, wind, and noise can be completely blocked. The door can be prevented from being separated from the door frame even if an external impact is applied in the process of opening and closing the hinged door while preventing a safety accident that a user's finger is caught between the hinged door frame and thereby preventing a safety accident. will be.

The present invention is characterized in that the door frame upper guide part 300 is coupled to the upper part of the hatch door part 100 and the fixed door frame part 200 and the lower door part 400 is coupled to the lower part, The door frame 600 and the fixing door 700 are provided inside the door frame 500. The door frame 100 includes a rectangular space portion 111, A cutout groove 112 is vertically formed on a front face of the hinge frame frame 110 having a hinge 120 and a hinge 120 is formed on the rear face of the hinge frame 120. A first insulation cut- A first cavity 121 is formed and a first azon injection space 130 is formed on the front surface of the first heat insulation cutout 121 to inject and cure the azon AJ, Ventilation hole insertion grooves 140 are formed on both sides of the first heat insulation cutout groove 121 in the front of the hinged door insertion slot 120, A first guide groove 150 having a first stopping protrusion 151 is formed in the first guide groove 150 and the windshield 800 is inserted.

The fixed door frame 200 is formed with a second azon injection space 220 having a second heat insulation cutout 221 at both sides of the center of the web 211 of the H-shaped fixing frame frame 210 And the left and right reinforcing frames 230 and 230 'are coupled to the flange portion 212 of the H-shaped fixed frame frame portion 210, respectively, And a molding cap 240 is coupled to both sides of the front and rear sides of the left and right reinforcing frames 230 and 230 '. The flange portions 212 are respectively bent outwardly The left and right reinforcing frames 230 and 230 'are formed so that their inner sides are cut out, and the cut ends of the left and right reinforcing frames 230 and 230' And the molding cap 240 is formed with hook pieces 241 on the inner side of both sides so that the inner edges of the engaging pieces 213 are engaged with each other, And in that the hanging be combined feature.

The door upper guide 300 includes a guide cover 320 attached to a front surface of a guide body 310 having an upper guide rail 311 and a height adjuster 331 formed on the upper guide rail 311, And one side extension space 312 is formed in a lower portion of the upper guide rail 311. The upper side and the lower side of the one side extension space 312 are connected to the second guide rail 311, And a second guide groove 314 having a locking protrusion 313 are formed in the upper portion of the guide body 310 so that the windshield 800 is inserted and the third insulation cutout groove 315 is formed inside the upper portion of the guide body 310 The azon injection space 316 is formed to inject and cure the azon AJ and a ball groove 317 is formed at the upper end of the guide body 310. The guide cover 320 has a ball- A protrusion 321 is formed to be coupled to the ball groove 317 and an auxiliary fixing table 340 is provided below the ball type protrusion 321 A third guide groove 324 having a third engaging protrusion 323 formed on the upper portion and the side portion of the guide cover 320 is formed on the inner side of the lower end of the guide cover 320, The height adjuster 331 has a shaft hole 311-4 formed in the adjusting piece 311-1 so that the roller shaft 311-5 is inserted, The adjusting guide roller 330 is rotatably coupled to the adjusting bolt 311-5 and the horizontal bent piece 311-2 is formed on the upper portion of the adjusting bolt 311-1, And a lifting piece 624 of the hinged door 600 is screwed to a lower portion of the adjustment bolt 311-3.

The lower frame guide part 400 is embedded in the bottom of the door frame with the embedding pieces 411 formed at both the lower side and the center of the lower side of the horizontal guide member 410, And a lower guide rail 420 is integrally formed at the center of the horizontal guide member 410. The lower guide rail 420 is integrally formed at the center of the horizontal guide member 410. [

The hinged door 600 includes a hinged door upper and lower horizontal frames 620 and 620 'coupled to the upper and lower sides of the one or more hinged door vertical frames 610 and 610' And a fourth azon injection space portion 613 having a fourth heat insulation cutout groove 612 is formed on the front surface of the vertical frame piece 611 so that the azon AJ And a back extension 614 is formed on both sides of the rear surface of the hinged door vertical frame piece 611 so as to insert the tempered glass G. The front and rear door frames 611, And a concave portion 616 is formed on the end portion of the front extending portion 615 so as to be inwardly bent and the concave portion 615 between the front extending portions 615 The heat insulating frame 630 is inserted into a fifth azo injection hole 631 having a fifth heat insulation cutout groove 631, A fourth guide groove 634 having a fourth engaging protrusion 633 formed on both sides of the fifth azon injection space 632 is formed by injecting and curing the azon AJ, And a ventilation hole 800 is inserted into the fourth guide groove 634 and a convex portion 635 is formed at an outer end of each of the fourth guide grooves 634 so as to be formed in the front extension portion 615 And the concave portion 616 is coupled to be fitted.

Further, a windshield insertion groove 622 is formed in an upper portion and a side portion of an upper horizontal frame member 621 having a space defined by the inside of the hinged door upper horizontal frame 620, A lifting piece 624 having a hole 623 is integrally formed and a lower extension piece 625 is formed on both sides of the lower side of the horizontal frame member 621 so that the tempered glass G is inserted , The hosiery unit horizontal frame 620 'is formed with a sixth azon injection space portion 623' having a sixth heat insulation cutout groove 622 'in the lower horizontal frame member 621' And an upper extension piece 624 'is formed on both sides of the upper portion of the lower horizontal frame member 621' to insert the lower portion of the tempered glass G and the lower horizontal frame member 621 ' And a fifth extending groove 627 'formed with a lower extension 625' on both sides of the lower portion of the second guide groove 627 ' Characterized in that the tuyere 800 is being inserted, the sixth Azon lower support guide roller 430 on the injection space (623 ') is inserted.

In addition, the other side door vertical frame 610 'is formed by injecting azon (AJ) into a seventh azon injection space portion 612' having a seventh heat insulation cutout groove 611 ' And the reinforcing glass inserting portion 615 'is formed by the elongated frame member 614' on both sides of the front surface of the seventh azon injection space portion 612 ' And a sixth guide groove 617 'having a sixth hooking step 616' in an inward direction perpendicular to the first guide groove 615 'are formed in the guide groove 600', so that the windshield 800 is inserted.

The fixed door 700 includes fixed door upper and lower horizontal frames 720 and 720 'coupled to upper and lower sides of the fixed door vertical frames 710 and 710' , And the one-side fixed door vertical frame (710) overlaps the other side door vertical frame (610 ') so as to be spaced apart from the other side door vertical frame (610' The swing support groove 713 is formed with a swing support groove 713 at a portion overlapping with the other hinged door vertical frame 610 ' A swing support member 716 having a seventh guide groove 715 with a protrusion 714 formed therein is inserted and a wind vane 800 is inserted into the seventh guide groove 715.

The ventilation holes 800 are formed on both sides of the windshield frame pieces 810 so that the windshield insertion portions 830 and the spring insertion portions 840 are integrally formed, The windshield 850 is inserted into the insertion portion 830 and the spring 860 is inserted into the spring insertion portion 840 and fixed with the screw S. [

According to the present invention, since the inner and outer sides of the door frame are separated from each other by the azon, heat can be prevented from flowing out from the inside or outside through the door frame, thereby preventing heat loss from occurring.

Also, since the hinged door and the fixed door are separated from each other by the inner and outer sides, heat can be prevented from flowing out from the outside or from the outside to the inside, thereby further preventing the occurrence of heat loss.

Further, by providing the windshield in the inner side of the door frame, the hinged door and the fixed door respectively, it is possible to prevent the gap and to increase the airtightness and the heat insulation, thereby achieving higher safety.

1 is a perspective view of an Enerex automatic door according to the present invention;
2 is an exploded perspective view of an Enerex automatic door according to the present invention;
Fig. 3 is a perspective view showing the upper door guide in the Enerex automatic door according to the present invention. Fig.
Fig. 4 is a perspective view showing the hinged door frame and the hinged door vertical frame separated from each other in the Enerex automatic door according to the present invention. Fig.
FIG. 5 is a perspective view showing a shingles vertical frame and a fixed door vertical frame in an Enerex automatic door according to the present invention. FIG.
6 is a perspective view of a fixed door frame in an Enerex automatic door according to the present invention.
7 is a perspective view showing the hinged door bottom horizontal frame and the lower guide rail separated from each other in the functional safety door according to the present invention.
8 is a cross-sectional view of a functional safety door according to the invention;
9 is a longitudinal sectional view of the functional safety door according to the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described with reference to the accompanying drawings.

As shown in FIGS. 1 to 9, the functional safety door according to the present invention can prevent heat flow from inside to outside or from outside to inside, thereby preventing heat loss. The door frame upper guide portion 300, the door frame lower guide portion 400, the door frame 500, the hinged door 600, and the fixed door frame portion 600. [ Door 700 as shown in FIG.

The door frame upper guide part 300 is coupled to the upper part of the hatch door part 100 and the fixed door frame part 200 and the lower door part 400 is coupled to the lower part of the door frame part 100, And a hinged door 600 and a fixed door 700 are provided inside the door frame 500.

Here, the door frame 100 has a function of keeping airtightness and heat insulation in the process of closing and opening the hinged door 600, and has a rectangular space portion 111 as shown in FIG. 4 A cutout groove 112 is vertically formed on the front face of the door frame 110 and a door opening slot 120 is formed on the back face of the door frame 110 so that the door opening 600 can be inserted.

A first heat insulation cutout groove 121 is formed at the center of the hinged door insertion groove 120. A first inert gas injection space 130 is formed on the entire surface of the first heat insulation cutout 121, AJ are injected and cured to prevent heat from being conducted from the inside to the outside or from the outside to the inside to prevent heat loss.

A ventilation hole insertion groove 140 is formed on both sides of the back surface of the first heat insulation cutout groove 121 so that a windshield 800 to be described later is inserted to keep the airtightness. So that it is possible to prevent sticking.

A first guide groove 150 formed symmetrically with a first latching jaw 151 is formed on both side walls of the entrance of the hinged door insertion slot 120 so that the windshield 800 is inserted, The state of being pulled out by the predetermined elastic force is maintained by the spring 860 fixed by the screw S, so that it is possible to prevent the fingers from being caught together with the hermetic holding force.

As shown in FIG. 6, the fixed door frame part 200 is provided to face the hatch door part 100. The fixed door frame part 200 is provided at the center of the web part 211 of the H-shaped fixed door frame part 210, The second azon injection space 220 having the cutout groove 221 is formed to inject and cure the azon AJ to prevent the heat from being conducted to prevent the occurrence of heat loss.

The left and right reinforcing frames 230 and 230 'are coupled to the flange portion 212 of the H-shaped stationary frame member 210 so that the left and right reinforcing frames 230 and 230' And the molding cap 240 is coupled to both sides of the front and rear sides of the mold 230 and 230 '.

The flange portion 212 is provided with a pair of right and left reinforcing frames 230 and 230 'supported by the left and right reinforcing frames 230 and 230' Is formed so that its inner side is cut out, and the cut end is coupled to the catching piece 213 so as to be hung.

The molding cap 240 is formed with a hook piece 241 on the inner side of both sides and is coupled to the inner edge of the engaging piece 213 so that the fixed frame frame part 210 including the azon AJ So that it can be seen beautifully.

As shown in FIG. 3, the door upper guide 300 includes a door having an upper guide rail 311 and a lower guide rail 311, A guide cover 320 is coupled to a front surface of the body 310 and a guide guide roller 330 having a height adjuster 331 is seated on the upper guide rail 311.

One side extension space 312 is formed in the lower part of the upper guide rail 311 and a second guide groove 314 having a second hooking step 313 is formed on the upper side and the side of the one side extension space 312. So that air tightness is maintained by inserting the wind guard 800 so that heat loss can be prevented from being generated through the upper door guide 300.

A third azon injection space 316 having a third heat insulation cutout groove 315 is formed in the upper portion of the guide body 310 to inject and cure the azon AJ, So that heat can be prevented from being conducted and heat loss can be prevented.

A ball type groove 317 is formed at an upper end of the guide body 310. The guide cover 320 is formed with a ball type protrusion 321 at the upper end thereof to be coupled to the ball type groove 317, The auxiliary protrusion 340 is provided at the lower portion of the ball-like protrusion 321 and is screwed to facilitate detachment and maintenance, thereby facilitating inspection and replacement.

A third guide groove 324 is formed in the lower end of the guide cover 320 and has a third extending space 322 formed on the upper side and a side of the third guide groove 323, So that it is possible to further prevent the heat loss from being incurred.

The height adjuster 331 adjusts the height of the hinged door upper frame 620 so that the hinged door horizontal frame 620 'provided at the lower portion of the tempered glass G is guided to the lower door guide 400 at a predetermined interval Is maintained.

The height adjusting member 331 having such a function is provided with a shaft hole 311-4 formed in the adjusting member 311-1 so that the roller shaft 311-5 is inserted, And a guide guide roller 330 is rotatably coupled.

A horizontal bent piece 311-2 is formed on the upper part of the adjusting piece 311-1 to be fitted with an adjusting bolt 311-3 and a sliding door The lifting pieces 624 of the lifting pins 600 are screwed together so that the height of the lifting pieces 624 is adjusted by rotating the adjustment bolts 311-3.

As shown in FIG. 7, the door frame lower guide part 400 is formed with buried pieces 411 at both the bottom and the center of the horizontal guide member 410 and is embedded in the bottom of the door frame. (410) are formed with windshield insertion grooves (412) on both sides thereof.

A lower guide rail 420 is integrally formed at the center of the horizontal guide member 410 and a supporting guide roller 430 provided inside the lower portion of the hinged door lower frame 620 'is seated, Respectively.

As shown in FIGS. 4 and 5, the hinged door 600 has a function of directly opening and closing by means of an unclosed operating mechanism. The hinged door 600 is coupled to the upper and lower portions of the one or more hinged door vertical frames 610 and 610 ' And upper and lower horizontal frames 620 and 620 'of the hinged door, and tempered glass G provided inside.

Here, the shingles vertical frame 610 has a fourth azon injection space portion 613 having a fourth heat insulation cutout groove 612 formed on the front surface of the vertical frame piece 611 so that the azon (AJ) So that heat conduction from the inside to the outside is prevented, thereby preventing heat loss from occurring.

A rear extension 614 is formed on both sides of the back surface of the hinged door vertical frame piece 611 so as to insert the tempered glass G and the front extension 611 is provided on both sides of the front surface of the vertical frame piece 611, (Not shown).

A concave portion 616 is formed inwardly at the end of the front extension 615 and a heat insulating frame 630 is inserted into the concave portion 616 between the front extension 615, So that it is possible to further prevent the heat from being conducted.

In the heat insulating frame 630, a fifth azon injection space 632 having a fifth heat insulating cut-out groove 631 is formed, and the azon (AJ) is injected and hardened so that heat conduction can be cut off. A fourth guide groove 634 having fourth engaging protrusions 633 formed on both sides of the fifth azon injection space portion 632 and a wind guide 800 to be described later inserted in the fourth guide groove 634 So that airtightness can be maintained.

A convex piece 635 is formed at the outer end of each of the fourth guide grooves 634 so that the concave piece 616 formed on the front extended piece 615 can be fitted and fitted, Respectively.

As shown in FIG. 9, the hinged-door upper horizontal frame 620 is formed with windshield insertion grooves 622 on the upper and side portions of an upper horizontal frame member 621 having a left-right divided space therein And a lifting piece 624 having a nut hole 623 at the center of its upper portion is integrally formed.

And a lower extension 625 is formed on both sides of the lower portion of the horizontal frame member 621 to insert the tempered glass G therein.

The hosiery door horizontal frame 620 'faces the horizontal frame 620 on the hinged door 620 and has a sixth heat insulating groove 622' inside the lower horizontal frame member 621 ' (AJ) is injected and cured to prevent heat loss due to the interruption of heat conduction.

To this end, an upper extension piece 624 'is formed on both sides of the upper portion of the lower horizontal frame member 621' to insert the lower portion of the tempered glass G, and the lower portion of the lower horizontal frame member 621 ' The air vent 800 is inserted into the fifth guide groove 627 'where the lower extension 625' is formed on both sides and the fifth stopping protrusion 626 'is formed so that airtightness can be further maintained . The support guide roller 430 is inserted into the lower portion of the sixth azon injection space part 623 'and is held on the lower guide rail 420 of the lower door guide part 400 so that the hinged door 600 So that it can be opened and closed smoothly.

5, an azon (AJ) is injected into a seventh azon injection space part 612 'where a seventh heat insulation cutout groove 611' is formed, And is provided as a hinged door vertical frame member 613 'so as to prevent heat from being generated by interrupting heat conduction to the inside and outside.

The reinforcing glass inserting portion 615 'is formed on both sides of the front surface of the seventh azon inserting space portion 612' by the elongated frame member 614 ' A sixth guide groove 617 'having a sixth latching protrusion 616' is formed in the direction of the second guide groove 617 'so that the windshield 800 can be inserted to further maintain airtightness.

8, the fixed door 700 includes fixed door upper and lower horizontal frames 720 and 720 'coupled to the upper and lower sides of the fixed door vertical frames 710 and 710' on one side and the other side, (G).

As shown in FIG. 5, the one-side fixed door vertical frame 710 overlaps the other side door vertical frame 610 'so as to be spaced apart from the other side door vertical frame 610' An azo (AJ) is injected into the injection space 712 and hardened, and a rotation support groove 713 is formed at a portion overlapping with the other side door vertical frame 610 '.

A pivot support member 716 having a seventh guide groove 715 formed with a seventh engaging protrusion 714 is inserted into the pivot support groove 713 and the wind guide 800 is inserted into the seventh guide groove 715, So that airtightness can be further maintained in the process of opening and closing.

The windshield (800) prevents the inflow of air, dust, etc. from the inside or the outside or from the outside to the inside of the windshield (800). When the user's fingers are caught, the windshield The windshield member 810 and the spring insertion portion 840 are integrally formed on both sides of the windshield frame member 810 and the windshield member insertion portion 830 And the windshield member 850 is inserted into the windshield 850.

As the spring 860 is inserted into the spring insertion portion 840 and is fixed by the screw S, the state in which the windshield 850 is always protruded outward due to the elastic force of the spring 860 can be maintained.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention. The technical idea of the present invention should not be construed as being limited.

100: a casement frame part 110: a casement frame frame
111: Space part 112: Cutting groove
120: a sliding door insertion slot 121: a first heat insulating cut groove
130: first azon injection space part 140: windshield insertion groove
150: first guide groove 151: first engaging jaw
200: Fixed door frame part 300: Upper door frame guide part
400: door frame lower guide part 500: door frame
600: a sliding door 700: a fixed door
800: windshield 810: windshield frame
820: latching piece 830: windshield insertion portion
840: spring insertion part 850:
860: spring

Claims

The door frame upper guide part 300 is coupled to the upper part of the hatch door part 100 and the fixed door frame part 200 and the door frame 500 is coupled to the lower door guide part 400 at the lower part, (EN) An Enerex automatic door (A) having a hinged door (600) and a fixed door (700) inside a door (500)
The hatch 100 includes a cutout groove 112 vertically formed on a front face of a hatch frame 110 having a rectangular space portion 111 and a hatch opening 120 on a rear face thereof A first heat insulation cutout groove 121 is formed at the center of the hinged door insertion groove 120 and a first inert gas injection space 130 is formed on the front surface of the first heat insulation cutout 121 A wind tunnel insertion groove 140 is formed on both sides of the first heat insulation cutout groove 121 on the front surface of the hinged door insertion groove 120, Wherein a first guide groove (150) having a first latching step (151) is formed on both side walls of an inlet of the main body (120), and a windshield (800) is inserted.

The method according to claim 1,
The fixed door frame 200 is formed with a second azon injection space 220 having a second heat insulation cutout 221 on both sides of the center of the web 211 of the H-shaped fixed frame frame 210, AJ are injected and cured and hooking pieces 213 are formed on the flange portions 212 of the H-shaped fixing frame frame portion 210 so that the left and right reinforcing frames 230 and 230 ' A molding cap 240 is coupled to both sides of the front and rear sides of the left and right reinforcing frames 230 and 230 '. The flange portion 212 is bent outwardly from the support piece 214 at right angles, The left and right reinforcing frames 230 and 230 'are formed so that the inside thereof is cut so that the cut ends are caught by the retaining pieces 213. The reinforcing frames 230 and 230' And the molding cap 240 is formed with hook pieces 241 on the inner side of both sides thereof, Lex energy automatic doors to be combined with that feature.

The method according to claim 1,
The upper door guide 300 includes a guide cover 320 attached to a front surface of a guide body 310 having an upper guide rail 311 and a height adjuster 331 formed on the upper guide rail 311 The upper guide rail 311 and the upper guide rail 311 are integrally formed with the upper guide rail 311 and the lower guide rail 311, A third air hole 315 having a third heat insulation groove 315 formed in the upper portion of the guide body 310 and a second guide groove 314 having a third heat insulation groove 313 are formed, The space portion 316 is formed to inject and cure the azon AJ and a ball groove 317 is formed at the upper end of the guide body 310. The guide cover 320 has a ball- 321 are formed at the bottom of the ball-shaped protrusion 321 and are coupled to the ball-shaped groove 317, A third guide groove 324 having a third locking protrusion 323 formed on the upper portion and the side portion of the guide cover 320 is formed on the inner side of the lower end of the guide cover 320, The height adjustment member 331 has a shaft hole 311-4 formed in the adjustment member 311-1 so that the roller shaft 311-5 is inserted and the roller shaft 311 And the horizontal guide piece 311-2 is formed on the upper part of the adjustment piece 311-1 so that the adjustment bolt 311-3 is coupled And a lifting piece (624) of the hinged door (600) is screwed to a lower portion of the adjustment bolt (311-3).

The method according to claim 1,
The lower door guide part 400 is formed with embedding pieces 411 on the lower side and the center of the lower side of the horizontal guide member 410 and is embedded in the bottom of the door frame. And a lower guide rail (420) is integrally formed at the center of the horizontal guide member (410). &Lt; IMAGE >

The method according to claim 1,
The hinged door 600 is provided with a hinged door upper and lower horizontal frames 620 and 620 'which are coupled to the upper and lower sides of the one or more hinged door vertical frames 610 and 610' The fourth door space 613 having a fourth heat insulation cutout groove 612 is formed on the front surface of the vertical frame piece 611 so that the azon (AJ) And a rear extension 614 is formed on both sides of the rear surface of the hinged door vertical frame piece 611 so as to insert the tempered glass G and are provided on both sides of the front surface of the vertical frame piece 611 And a concave portion 616 is formed on the end of the front extended portion 615 so as to be inwardly inward and a concave portion 616 between the front extended portions 615 is formed. The heat insulating frame 630 is inserted into a fifth azon injection space portion 632 having a fifth heat insulating cutout groove 631 A fourth guide groove 634 having a fourth engaging step 633 formed on both sides of the fifth azon injection space part 632 is formed, The wind guide 800 is inserted into the fourth guide groove 634 and the convex portion 635 is formed at the outer end of each of the fourth guide grooves 634 so that the concave portion 616) are fitted to be fitted.

6. The method of claim 5,
The hinged door upper horizontal frame 620 is provided with a ventilation hole insertion groove 622 on the upper and side portions of the upper horizontal frame member 621 having a space defined between the right and left sides, 623 are integrally formed on the lower surface of the horizontal frame member 621 and lower reinforcing members 625 are formed on both sides of the lower portion of the horizontal frame member 621 to insert the reinforcing glass G, The hosiery subframe horizontal frame 620 'is formed with a sixth azon injection space 623' having a sixth heat insulation cutout groove 622 'inside the lower horizontal frame member 621' And an upper extension piece 624 'is formed on both sides of the upper portion of the lower horizontal frame member 621' so that the lower portion of the tempered glass G is inserted and the lower horizontal frame member 621 ' And a fifth guide groove 627 'formed with a lower extension piece 625' on both sides of the lower part and formed with a fifth engagement step 626 ' And the support guide roller 430 is inserted into the lower part of the sixth azon injection space part 623 '.

6. The method of claim 5,
The second door trim vertical frame 610 'is formed by injecting azon (AJ) into the seventh joint injection space 612' having the seventh heat insulation cutout groove 611 'and curing the hinged door vertical frame member 613 And the reinforcing glass inserting portion 615 'is formed by the elongated frame member 614' on both sides of the front portion of the seventh azon injection space portion 612 ' And a sixth guide groove (617 ') having a sixth locking step (616') in an inward direction orthogonal to the first guide groove (614 '). The windshield (800) is inserted.

The method according to claim 1,
The fixed door 700 includes fixed door upper and lower horizontal frames 720 and 720 'coupled to upper and lower portions of the fixed door vertical frames 710 and 710' The one-side fixed door vertical frame 710 is provided so as to be spaced apart from the other side door vertical frame 610 'by a predetermined distance, and an eighth injection space 712 A rotation support groove 713 is formed at a portion overlapping with the other side door vertical frame 610 'and a seventh engaging jaw 713 is formed in the rotation support groove 713 Wherein a swing support member having a seventh guide groove formed in the first guide groove is inserted into the seventh guide groove and the windshield is inserted into the seventh guide groove.

9. The method according to any one of claims 1 to 8,
The ventilation holes 800 are formed on both sides of the windshield frame pieces 810 so that the windshield insertion portions 830 and the spring insertion portions 840 are integrally formed, And a spring (860) is inserted into the spring insertion portion (840) and fixed with a screw (S).