KR101422815B1 - Fixed stainless steel rod fixed to the structure of the window frame insulated windows and doors - Google Patents

Abstract

The present invention relates to a stainless steel heat insulation window frame of a structure of fixing a window fixing rod, and the objective of the present invention is to construct a window more easily by constituting a window fixing rod fixed through a fixing screw to a heat insulation block in a heat insulation member of a heat insulation window frame where a stainless steel reinforced frame is comprised in an outer surface of the heat insulation member. For this, the stainless steel heat insulation window frame of the present invention includes: a PVC heat insulation member which is constituted with a structure of molding an inner heat insulation block and an outer heat insulation block integrally which are formed separately from each other by a barrier formed in the front and the rear of a window supporting block, as an inner surface of the outer heat insulation block is more protruded rather than an inner surface of the inner heat insulation block and the window supporting block constituted with the same horizontal plane; a window supporting part which has surface contact with a cross section of the window by being constructed and formed at an end of a supporting bar horizontally and integrally which is protruded on the inner surface from a center of an inner space of the window supporting block; a stainless steel inner reinforced frame which is bent and combined to a lower plane and the supporting bar of the window supporting block and a groove where the window supporting part is formed, from the outer side of the inner heat insulation block constituting the heat insulation member, via the rear and the lower plane; a stainless steel outer reinforced frame which is bent and combined to the lower plane and the supporting bar of the window supporting block and the groove where the window supporting part is formed, from the outer side of the outer heat insulation block constituting the heat insulation member, via the front, the lower plane and the rear; and a window fixing rod which makes the window be fixed between the rear of the outer heat insulation block and the inner side of the inner heat insulation block of the heat insulation member by being fixed on the inner side of the inner heat insulation block through a rod fixing unit.

Description

[0001] The present invention relates to a stainless steel insulating window frame having a window glass fixing rod fixing structure,

The present invention relates to a stainless steel heat insulating window frame having a window fixing bar fixing structure, and more particularly, to a heat insulating member made of a PVC material having a heat insulating space separated inward and outward and a stainless steel reinforcing frame The present invention relates to a stainless steel insulated window frame having a structure for fixing a window glass fixing rod so as to constitute a heat insulating window frame having a constituted structure and fixing and separating the glass glass by attaching / detaching the glass glass fixing bar.

2. Description of the Related Art Generally, a window (window) refers to various windows or doors installed in an opening of a window or an entrance to block the inside of a building from the outside, and includes a window frame for forming an outer frame, And is configured to be coupled to the frame.

Since a window frame made of an aluminum material according to the prior art does not have a separate heat insulating structure for heat insulation, many heat insulating materials are applied for heat insulation between the outdoor side and the indoor window frames. Such a conventional window frame has an advantage that a complicated structure to which a heat insulating material can be coupled by extrusion molding aluminum can be easily formed.

On the other hand, a window frame made of a stainless steel material rather than an aluminum material has been developed in recent years, and it is generally installed at a doorway or a floating population such as a window window of a building or a window of a lobby. Such a window frame made of stainless steel is usually formed by using a roll forming machine or the like, so that the workability and formability of the window frames are inferior to those of aluminum materials.

However, in the case of the stainless steel window according to the related art, since the glass groove for fixing the glass window is formed in a fixed shape on the side slope in the stainless steel window frame constituting the window frame, the total size of the glass window If the glass window is cut in a corresponding size, the glass window cut on the glass groove can not be inserted, which makes the construction difficult.

Therefore, as in the conventional art, when a glass window is formed in a fixed type glass groove formed on a side slope in a stainless steel window frame, it is necessary to cut the glass window to a smaller size compared with the entire size of the glass groove.

However, the conventional technique of installing the glass window cut on the fixed glass groove as described above has a problem that airtightness, watertightness, and heat insulation performance are deteriorated because a gap is formed between the glass window surface and the glass groove.

Further, as described above, in the prior art in which a glass window cut on a fixed glass groove is formed, a gap is formed between the glass window section and the glass groove, so that a separate operation for fixing the glass window to the window frame by filling the gap opened through the silicon or the like There is a problem that needs to be done.

 However, as described above, in the prior art in which the glass window is fixed on the glass groove by filling a gap between the glass window section and the glass groove through the silicon or the like, the glass window sandwiched by the glass groove is fixed by the adhesive force of silicon, In the case of a lot of windows, safety problems arise.

1. Republic of Korea Open Patent No. 2005-0114026 (Dec. 05, 2005) 2. Republic of Korea Open Patent No. 2012-0111216 (October 10, 2012) 3. Republic of Korea Open Patent No. 2012-0111217 (October 10, 2012 release) 4. Korean Patent No. 10-1144649 (issued on May 11, 2012)

The present invention has been conceived in order to solve all the problems of the prior art, and it is an object of the present invention to provide a glass window fixing bar which is fixed to a heat insulating member inner heat insulating block of a heat insulating window frame formed on the outer surface of a heat insulating member through a fixing screw, The present invention provides a stainless steel heat insulating window frame having a glass groove fixing bar fixing structure for facilitating the construction of a glass window.

In addition, the technology of the present invention is characterized in that, when a glass window is cut through a structure capable of fixing a glass window through a glass window fixing bar, the glass window is cut to a size defined by the inner side surface of the inner side heat insulating block, So that airtightness performance, watertightness performance, heat insulation performance, and windproof performance can be equally provided.

It is another object of the present invention to provide a structure capable of fixing a glass window through a glass window fixing bar so that a glass window of any thickness can be smoothly installed through a glass window fixing bar of various widths.

The present invention configured to achieve the above-described object is as follows. That is, the stainless steel heat insulating window frame of the window fixing bar fixing structure according to the present invention has a structure in which the inner and outer heat insulating blocks formed separately from each other by the partition walls formed before and after the glass window supporting block are integrally injection molded, A heat insulating member made of PVC and protruding from the inner side of the inner side heat insulating block and the inner side of the glass window supporting block, A windshield support bar which is integrally formed horizontally on a support bar protruding from the center of the inner space of the windshield support block and on the inner side and is in surface contact with the end surface of the windshield; An inner reinforcing frame of a stainless steel material which is folded and joined from the outer side of the inner heat insulating block constituting the heat insulating member to the lower surface of the glass window supporting block and the groove formed by the glass window supporting block via the rear surface and the lower surface; The outer side heat-insulating block constituting the heat insulating member is bent and joined to the lower surface of the glass window support block through the front surface, the lower surface and the rear surface to the groove formed by the support bar and the windshield support half, frame; And a windshield fixing rod fixed on the inner side of the inner heat insulating block of the heat insulating member through rod fixing means to fix the windshield between the rear side of the outer heat insulating block and the windshield fixing rod.

In the structure according to the present invention as described above, the rod fixing means includes a fixing screw groove formed at an interval in the longitudinal direction on the inner side of the inner heat insulating block; A fixing screw through groove formed at regular intervals on the glass window fixing bar corresponding to the fixing screw groove; And a rod fixing screw screwed into the fixing screw groove of the inner heat insulating block through the fixing screw through groove of the window fixing rod.

The rod fixing means according to the present invention comprises: a fixing groove formed on the inner surface of the inner heat insulating block in a pair of front and back pairs, each pair of which is formed at a predetermined interval in the longitudinal direction; And a projection adjacent to the window may be protruded in the front and rear directions.

Meanwhile, in the construction according to the present invention as described above, the windshield fixing rod can be manufactured to have various widths so that the front-rear width can be used according to the thickness of the windshield.

In the construction according to the present invention as described above, the outer side of the glass window support block constituting the heat insulating member is adhered to the outer surface of the glass window support block through elastic contact with the wall surface during the construction of the window frame to prevent cracks between the wall surface and the window frame A crack preventing cap formed outwardly of the elastic force port may further be constituted.

According to the technique of the present invention, since the glass window fixing bar is fixed to the inside heat-insulating block through the fixing screw, it is possible to fix the window glass more easily since no separate heat insulating material is required when the glass window is constructed.

In addition, the technology of the present invention is characterized in that, when a glass window is cut through a structure capable of fixing a glass window through a glass window fixing bar, the glass window is cut to a size defined by the inner side surface of the inner side heat insulating block, The airtightness performance, the watertightness performance, the heat insulation performance, and the windproof performance can be improved.

In addition, the technology of the present invention has a merit that a glass window of any thickness can be smoothly installed through a glass window fixing bar of various widths by providing a structure for fixing a glass window through a glass window fixing bar.

1 is a perspective view showing a stainless steel insulated window frame of a fixing structure for a window glass fixing bar according to the present invention.
FIG. 2 is a cross-sectional view showing a stainless steel heat insulating window frame of a fixing structure for a window glass fixing bar according to the present invention. FIG.
FIG. 3 is a cross-sectional view showing a construction of a window pane on a stainless steel heat insulating window frame of a fixing structure for a window glass fixing rod according to the present invention. FIG.
FIG. 4 is a cross-sectional view illustrating another embodiment of a stainless steel heat-insulating window frame according to the present invention; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a stainless steel insulated window frame according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view showing a stainless steel heat insulating window frame according to the present invention, FIG. 2 is a sectional view showing a stainless steel heat insulating window frame of a window glass fixing bar fixing structure according to the present invention, and FIG. FIG. 3 is a sectional view showing a construction of a window pane in a stainless steel heat insulating window frame of a fixing structure for fixing a window pane according to the present invention;

1 to 3, the heat insulating window frame 100 according to the present invention is formed of a PVC material in which the inner and outer heat insulating blocks 112 and 114 are integrally injection molded with a glass window support block 116 therebetween A glass window support 120 which is integrally formed horizontally at the end of a support bar 122 protruding from the inner side of the glass window support block 116, An outer reinforcing frame 140 made of stainless steel and connected to the outer surface of the outer heat insulating block 114 and a rod fixing means 160 on the inner surface of the inner heat insulating block 112 And a glass window fixing rod 150 for fixing the glass window 200 between the rear side of the outer side heat insulating block 114 and the rear side.

In other words, the heat insulating window frame 100 according to the present invention as described above can be fixed to the glass window fixing part 150 by fixing the glass window fixing rod 150 on the inner side of the inner heat insulating block 112 constituting the heat insulating member 110, A window frame (not shown) formed by connecting the heat-insulating window frame 100 in a vertically, horizontally, and vertically rectangular shape by forming a groove for fixing the window glass 200 between the rod 150 and the outer side heat insulating block 114 The glass window can be cut to a size corresponding to the size of the inner side surface of the inner side heat insulating block 112 at the time of construction of the glass window 200. [

As described above, according to the present invention, the glass window 200 is cut to a size corresponding to the size of the inner side surface of the inner side heat insulation block 112 at the time of construction of the windshield 200, A gap is not generated between the end face of the glass window 200 and the end face of the windshield 200, and a highly efficient window with airtightness performance, watertightness performance, heat insulating performance and windproofing performance can be constructed.

In addition, according to the present invention configured as described above, the glass window fixing bar 160, which is fixed to the inner side of the inside heat blocking block 112 through the rod fixing means 150, It is possible to easily replace the glass window 200 by removing the glass window fixing rod 150 from the inner side heat insulating block 112 even in the case of replacing the glass window 200 with the new glass window 200 due to the breakage of the glass window.

In addition, the technique according to the present invention is advantageous in that the glass window fixing rod 150 can be smoothly installed even for a glass window 200 of a different thickness. That is, in the case of replacing the thickness of the glass window 200 with a thicker one, the glass window fixing rod 150 may have a smaller front-to-back width, and when the glass window 200 is replaced with a thinner one, 150 are used in a wide width, it is possible to construct a window 200 of any thickness.

Each component constituting the heat insulating window frame 100 according to the present invention will be described in more detail as follows. First, the heat insulating member 110 constituting the present invention allows the heat insulating window frame 100 to be thermally insulated. Such a heat insulating member 110 is formed by a glass window support block 116 And the inner and outer heat insulating blocks 112 and 114, which are separated from each other by barrier ribs (not shown) formed on the front and rear sides of the inner and outer heat insulating blocks 112 and 114, are integrally injection-molded.

Meanwhile, as described above, the heat insulating member 110 integrally injection molded by the inner and outer heat insulating blocks 112 and 114 and the glass window supporting block 116 has a structure for further improving the heat insulating performance, The heat insulating spaces 112a, 114a, and 116a are formed in the heat insulating blocks 112 and 114 and the glass window supporting blocks 116, respectively, so that the heat insulating spaces 112a and 114a are formed.

In the construction of the heat insulating member 110 constructed as described above, the inner side surface of the outer side heat insulating block 114 is formed to protrude from the inner side heat insulating block 112 having the same horizontal surface and the inner side surface of the glass window supporting block 116 Structure. That is, when the window frame is formed by connecting the heat insulating window frames 100 according to the present invention in a vertically, horizontally, and vertically rectangular form, the area formed by the heat insulating block 112 and the inner side faces of the glass window supporting block 116 is larger than the area of the outer heat insulating block 114 Of the inner surface of the inner side surface of the outer tube.

The heat insulating member 110 according to the present invention having a structure in which the inner and outer heat insulating blocks 112 and 114 are formed integrally with each other with the glass window support block 116 interposed therebetween, Injection molding.

Next, the glass window support panel 120 constituting the present invention is divided into upper, lower, left and right end faces of the glass window 200 at the time of fixing the glass window 200 to the window frame formed by connecting the insulating window frame 100 in a vertically, 1 to 3, the glass window supporting block 120 is formed so as to protrude from the inner space center of the glass window supporting block 116 onto the inner side surface, The support bars 122 are formed integrally with each other at the ends thereof.

The glass window support panel 120 constructed as described above is constructed so as to be horizontally formed at the end of the support bar 122 protruded compared to the inner side surfaces of the inner heat insulating block 112 and the glass window support block 116, Therefore, grooves (not numbered) are formed between the inner side of the glass window support block 116 and the glass window support pane 120 before and after the support bar 122.

Next, the inner reinforcing frame 130 constituting the present invention is for covering and reinforcing the inner heat insulating block 112. The inner reinforcing frame 130 is made of the inner heat insulating block 130 as shown in FIGS. 1 to 3, (112), and is made of stainless steel.

In more detail, the inner reinforcing frame 130 as described above is passed through the rear surface and the lower surface from the outer surface of the inner heat insulating block 112 constituting the heat insulating member 110 as shown in Figs. 2 and 3 The lower surface of the windshield support block 116 and the groove formed by the support bar 122 and the windshield support bar 120 are coupled to each other.

As described above, the inner reinforcing frame 130 coupled to the outer surface of the inner heat insulating block 112 by bending forms the rectangular window frame by connecting the heat insulating window frame 100 according to the present invention to the upper, Only the inner strengthening frame 130 is visible in the interior of the building because the entire outer surface of the inner heat insulating block 112 is covered except for a part thereof.

Next, the outer reinforcing frame 140 constituting the present invention covers and strengthens the outer heat insulating block 114, and the outer reinforcing frame 140 is formed by joining the outer heat insulating block 140, (114), and is made of stainless steel.

2 and 3, the outer reinforcing frame 140 may be formed from the outer surface of the outer heat insulating block 114 constituting the heat insulating member 110 to the front, To the groove formed by the support bar 122 and the windshield support bar 120 via the lower surface of the windshield support block 116 via the guide groove.

As described above, the outer reinforcing frame 140, which is formed by bending the outer surface of the outer heat insulating block 114, forms a rectangular window frame by connecting the heat insulating window frame 100 according to the present invention to the upper, Only the outer reinforcing frame 140 is visible outside the building because the outer surface of the outer heat insulating block 114 covers the entirety except for a part thereof.

The inside reinforcing frame 130 and the outside reinforcing frame 140 are separated and coupled to the inside heat insulating block 112 and the outside heat insulating block 114 to heat the inside and outside of the window during installation, So that insulation can be made.

Next, the glass window fixing rod 150 constituting the present invention is formed by connecting the heat insulating window frame 100 to the upper and lower sides of the window frame 200 to fix the inner edge portion of the glass window 200 when the glass window 200 is fixed on the rectangular window frame The window fixing rod 150 is fixed on the inner side of the inner heat insulating block 112 of the heat insulating member 110 through the rod fixing means 160 as shown in FIGS. So that the window pane 200 is fixed between the outer surface of the outer heat insulating block 114 and the rear surface of the outer heat insulating block 114.

1 to 3, the glass rod fixing rod 150 is formed to have the same height as the inner surface of the inner protruding portion of the outer heat insulating block 114, Is fixed to the outer heat insulating block (114) through the rod fixing means (160), thereby forming a groove in which the glass window (200) is fixed.

It is a fact that, as described above, the groove for fixing the glass window 200 is formed between the inner heat insulating block 112 and the outer heat insulating block 114 by being fixed on the inner side of the inner heat insulating block 112 through the rod fixing means 160 But the glass window 200 cut to a size corresponding to the size formed on the inner side of the inner side heat insulating block 112 of the window frame is formed by the inner side surface of the inner side heat insulating block 112 Fixing the glass window fixing rod 150 on the inner side of the inner side heat insulating block 112 through the rod fixing means 160 in a state in which the glass window 200 is tightly supported by the rear side of the outer side heat insulating block 114 through the space, Is fixed between the inner and outer heat insulating blocks 112 and 114.

As described above, according to the present invention, a glass window 200 cut to a size corresponding to a size formed on the inner side of the inner side heat insulating block 112 of the window frame is held in close contact with the rear surface of the outer side heat insulating block 114 The glass window 200 can be fixed only by fixing the glass window fixing rod 150 on the inner side of the inner side heat insulating block 112 in FIG.

Accordingly, as described above, the glass window 200 is cut to a size corresponding to the size formed on the inner side surface of the inner side heat insulating block 112 of the window frame, so that the inner side surface of the inner side heat insulating block 112 and the end surface of the glass window 200, It is possible to construct a highly efficient window with high airtight performance, watertightness performance, heat insulation performance and windproof performance.

In addition, the windshield fixing rod 150 as described above is manufactured to have various widths so that the front-rear width can be used according to the thickness of the windshield. That is, as described above, when replacing the thick window glass 200, the window glass fixing bar 150 may be replaced with a thin glass window 200 by using a thinner front and rear width so as not to protrude to the rear surface of the inner heat insulating block 112 The width of the windshield fixing bracket 150 is wide so that the feel of the window can be maintained.

The glass window fixing rod 150 may be formed by bending a stainless steel plate on the outer surface of a rod made of PVC, or by bending only a stainless steel plate.

Next, the rod fixing means 160 constituting the present invention is for fixing the glass window fixing rod 150 on the inner side surface of the inside heat blocking block 112, A fixing screw groove 162 formed at a predetermined interval in the longitudinal direction on the inner side surface of the inner heat insulating block 112 as shown in FIG. And a rod fixing screw 166 screwed into the fixing screw groove 162 of the inner heat insulating block 112 through the fixing screw through groove 164 of the window fixing rod 150 .

The rod fixing means 160 constructed as described above is constructed so that the glass window fixing rod 150 is positioned on the inner side surface of the inner heat insulating block 112 and the fixing screw through groove 164 is aligned with the fixing screw groove 162 The rod fixing screw 166 is screwed into the fixing screw groove 162 through the fixed screw through groove 164 to fix the glass rod fixing rod 150 on the inner side of the inner heat insulating block 112 .

In addition, in the technology according to the present invention, in addition to the above-described structure, on the outside of the windshield support block 116 constituting the heat insulating member 110, a resilient contact with the end face of the wall body 10 The crack preventing cap 170 is formed so that the crack preventing elastic bulb 172 is formed on the outer side to prevent the crack between the end face of the wall 10 and the window frame.

Since the above-described crack prevention cap 170 is formed on the entire outer center of the window frame, if a window is provided on the upper, lower, right and left side walls 10 for installing windows, .

FIG. 4 is a cross-sectional view illustrating another embodiment of a stainless steel heat-insulating window frame according to the present invention.

4 is a perspective view showing another embodiment of the stainless steel heat insulating window frame according to the present invention. In another embodiment, as in the embodiment of FIGS. 1 to 3, the heat insulating window frame 100 includes a glass window supporting block A heat insulating member 110 made of PVC and integrally injection-molded with the inner and outer heat insulating blocks 112 and 114 sandwiched therebetween; a support bar 122 protruding from the inner surface of the windshield support block 116; An inner reinforcing frame 130 made of stainless steel and connected to the outer surface of the inner heat insulating block 112 and a reinforcing frame 130 coupled to the outer surface of the outer heat insulating block 114, A glass window 200 for fixing the glass window 200 between the outer reinforcing frame 140 made of stainless steel and the inner surface of the inner heat insulating block 112 and fixed to the rear surface of the outer heat insulating block 114 via the rod fixing means 160, Sticker bar ( 150).

However, in another embodiment of the present invention, the rod fixing means 160 is formed on the inner side surface of the inner heat insulating block 112 as a pair of front and back two pairs of fixing grooves 162a, And the fixing projections 164a protruding from the bottom of the window fixing bar 150 corresponding to the fixing grooves 162a in the front and rear directions but being adjacent to the windows are formed larger than the fixing protrusions 164a in FIGS. It is different from the example.

The rod fixing means 160 according to another embodiment of the present invention as described above has the fixing protrusion 164a on the bottom of the glass window fixing rod 150 in the fixing groove 162a formed on the inner side of the inner side heat insulating block 112, The window fixing bar 150 is fixed on the inner side of the inner heat insulating block 112 to fix the window 200 between the outer side heat insulating block 114 and the inner heat insulating block 112. [

In the meantime, because the inner pressure of the glass window fixing rod 150 is affected by the contact with the inner side edge portion of the glass window 200 when the glass window 200 is fixed, the glass window fixing rod 150 is pushed and separated The case does not occur.

In the structure of the rod fixing means 160 according to another embodiment described above, the fixing protrusion 164a adjacent to the glass window 200 among the fixing protrusions 164a protruding from the bottom of the glass window fixing rod 150, Even if one side of the windscreen fixing rod 150 contacting the windshield 200 is slightly lifted up, a large fixing protrusion and a small fixing protrusion 164a are supported by the coupling with the fixing groove 162a For this reason, the rod fixing means 160 of another embodiment is also a useful fixing means.

As described above, according to the present invention, by fixing the glass window fixing rod 150 on the inner side of the inner side heat insulating block 112 constituting the thermal insulating member 110, The glass window 200 can be fixed between the first and second windows 114 and 114, thereby improving the smoothness of the construction of the window glass 200.

In addition, the technology according to the present invention can cut the glass window into a size corresponding to the size of the inner side surface of the inner side heat insulation block 112 when the glass window 200 is formed on the window frame, so that the inner side heat insulation block 112 And the end face of the windshield 200, a highly efficient window with airtightness performance, watertightness performance, heat insulation performance and windproof performance can be constructed.

The present invention is not limited to the above-described embodiments, and various modifications may be made within the scope of the technical idea of the present invention.

100. Insulated window frame 110. Insulating member
112. Inner insulating block 114. Outer insulating block
116. Windshield Support Block 120. Windshield Support Bar
122. Support bar 130. Inner reinforcement frame
140. Outside Strengthening Frame 150. Stowing Bar
160. Bar fixing means 162. Fixing screw groove
162a. Fixing groove 164. Fixing screw penetrating groove
164a. Fixing protrusion 166. Screw fixing rod
170. Crack prevention cap 172. Crack prevention cuff

Claims (5)

Wherein the inner and outer heat insulating blocks formed by the partition walls formed on the front and rear sides of the windshield support block are integrally injection molded, A heat insulating member made of PVC protruding from the inner side;
A windshield support bar integrally formed on the end of the support bar protruding from the center of the inner space of the windshield support block to be in contact with the end surface of the windshield;
And the inner side heat-insulating block constituting the heat insulating member is bent and joined to the lower surface of the windshield support block and the groove formed by the support bar and the windshield support half via the rear surface and the lower surface from the outer side surface of the inner heat- frame;
The upper and lower surfaces of the outer heat insulating block constituting the heat insulating member are bent and joined to the lower surface of the windshield support block and the groove formed by the support bar and the windshield support half via the front surface, An outer reinforcing frame; And
A window fixing bar fixed on the inner side of the inner heat insulating block of the heat insulating member through rod fixing means formed at the same height as the inner side surface of the inner protruding portion of the outer heat insulating block to fix the window between the rear side of the outer heat insulating block Including,
Wherein the rod fixing means comprises: a fixing screw groove formed on the inner surface of the inner heat insulating block at a predetermined interval in the longitudinal direction; A fixing screw through groove formed at a predetermined interval on the glass window fixing bar corresponding to the fixing screw groove; And a rod fixing screw screwed into the fixing screw groove of the inner heat insulating block through the fixing screw through groove of the window fixing bar. delete [2] The apparatus as claimed in claim 1, wherein the rod fixing means comprises: a fixing groove formed on the inner surface of the inner heat insulating block so as to have a pair of front and rear portions,
And a fixing protrusion formed on the bottom surface of the window fixing bar in correspondence with the fixing groove so as to protrude in the front and back direction and the one adjacent to the window is further protruded. frame. The window frame of claim 1 or 3, wherein the windscreen fixing bar is manufactured in various widths so that the front and rear widths can be used in accordance with the thickness of the windscreen to be installed. 5. The refrigerator according to claim 4, wherein a crack-preventing elastic bulb which is in close contact with the outer surface of the windshield support block constituting the heat insulating member through a resilient contact with the end surface of the window frame to prevent cracking between the end surface of the window and the window frame And a crack-preventing cap formed on an outer side of the window frame.

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