KR101596114B1 - Insulation spacer for a pair glass and its manufacturing method - Google Patents

Abstract

More particularly, the present invention relates to a manufacturing method of a hollow bar, which comprises a step of bending an aluminum plate in a multistage manner using a predetermined foaming roller to manufacture a barb, which is formed by extruding a predetermined plastic material, A method for manufacturing a double glazing insulating bar for a double glazing which can improve the adiabatic efficiency and improve the product quality by increasing the bonding force between the bare bar and the heat insulating member without using an adhesive or the like by inserting the joining protrusion of the small bar into the groove .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat insulating short bar for a double-

More particularly, the present invention relates to a manufacturing method of a hollow bar, which comprises a step of bending an aluminum plate in a multistage manner using a predetermined foaming roller to manufacture a barb, which is formed by extruding a predetermined plastic material, A method for manufacturing a double glazing insulating bar for a double glazing which can improve the adiabatic efficiency and improve the product quality by increasing the bonding force between the bare bar and the heat insulating member without using an adhesive or the like by inserting the joining protrusion of the small bar into the groove .

Spacer bar (spacer bar) is installed on the edge of the inside of the double-layered glass which accepts the sunlight, and maintains the gap between the double-layered glass. In addition, special gas or air is injected into it, or it is kept in a vacuum, and it is used as a shielding material to the outside such as soundproofing and heat insulation of buildings and the like.

That is, the bare glass is bonded between the glass so as to keep the double-layered glass installed on the window frame or the chassis for partitioning the inside and outside of the building at a constant interval. Such a double-layered glass is widely used for insulation and noise shielding, and a gap between the double-layered glass is provided to stably maintain an air layer between the glass.

As such, most of the short bars are made of an aluminum material having high thermal conductivity, so that heat conduction is performed between the two-layered glass, thereby deteriorating the heat insulating effect.

In view of these problems, Korean Utility Model Application No. 1994-33373 (double-layered glass bare bar) has been proposed. This is a double-layered glass bar 10 in which a cut-out portion 11 is formed in the longitudinal direction at the center of the upper surface and a space for filling moisture-permeable material is formed in the inside thereof. The cross bar 10 is extruded with a synthetic resin, A plurality of stripe ridges are formed on the inclined portion 12 of the adhesive layer 14 and the adhesive layer 14 is applied to both sides of the adhesive layer 14 so that the adhesive layer 14 is adhered to both the adhesive layers 14, . Although the prior art has an advantage of obtaining a heat insulating effect with a low thermal conductivity, since the material thereof is a synthetic resin, it is easily bent when it is adhered to a glass surface, so that the shape is unstable, There is a problem in that labor costs are increased because a large number of workers need to hold the glass plates together so as not to deform the shape of the barge.

Korean Patent Registration No. 074391 discloses an image display device having a top surface 120, two side surfaces 130, an inclined surface 140 and a bottom surface 150, A reinforcing member 145 protruding from both ends of the inclined surface 140 is formed and the upper surface 120 is provided with a plurality of through holes 125 at regular intervals Layer glass hollow bar 100 provided with an integral heat insulating cap 200 covering both side surfaces 130 except the upper surface 120 and the inclined surface 140 and the lower surface 150 of the conventional double- In order to wrap the rim of the upper surface of the bimetal in the binding force between both sides of the bimetal and the inner surface of the heat insulating cap 200, Door with open air inflow of moisture Point, and also it needed to be the site of interview spacer 100 and insulating cap 200 by an external impact causes a flaring phenomenon further enhance the coupling force between the spacer 100 and the insulating cap 200.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and it is a primary object of the present invention to provide a heat insulating base member for a double-layered glass which is capable of blocking heat transmitted from a glass by attaching a heat insulating member made of a plastic material to both sides of the aluminum inter- .

In addition, the present invention provides a heat insulating short bar for a double-layered glass in which bonding force is not lowered by expansion and contraction due to heat by attaching a heat insulating member to both sides of the hollow bar without using an adhesive.

In addition, the present invention provides a double-layered glass which improves the quality of a product by increasing the adiabatic efficiency by sealing the air by preventing the gap from being formed between the double- Thereby providing a thermal barrier.

Further, the present invention provides a method for manufacturing a heat insulating short bar for a double-layered glass by attaching a heat insulating member to both sides of a short bar without using an adhesive.

As a means for achieving the object of the present invention, a heat insulating short bar for a double-

A heat insulating short bar for a double-layered glass comprising a base bar and a heat insulating member attached to both sides of the bar,

Wherein the baffle is formed by bending an aluminum plate having a predetermined size to form a top surface, both sides, an inclined surface and a bottom surface, and a space portion having a predetermined size formed therein;

The heat insulating member is formed by extruding a plastic material to form an upper surface, an inner surface, an outer surface, and a lower surface, wherein a coupling groove having a predetermined depth in the longitudinal direction is formed at the center of the inner surface;

 The upper surface of the heat insulating member is formed with an upper protrusion for supporting the upper surface of the heat insulating member. On the lower surface of the heat insulating member, And a lower protrusion for supporting the lower surface of the base is formed, and a heat insulating member is attached to both sides of the base.

In the present invention, a step is formed in the longitudinal direction at the upper end of the inner surface of the heat insulating member so that the upper protruding portion is inserted and closely contacted.

In addition, the coupling protrusion formed on both sides of the base may have a quadrangular cross-section, and the width of the tip of the coupling protrusion may be widened. The coupling groove formed in the heat insulating member may have a rectangular cross section, Structure.

The upper protrusion formed on the upper portion of the coupling protrusion has a rectangular cross section and the lower protrusion formed on the lower portion of the coupling protrusion has a triangular cross section.

Next, a method for manufacturing a heat insulating short bar for a double-

A method for manufacturing a heat insulating short bar for a double-layered glass having a heat insulating member attached to both sides of a short bar,

The aluminum plate material having a predetermined size is folded to form an engagement protrusion, and the engagement protrusion is inserted into the engagement grooves of two heat insulation members arranged in parallel to the lower surface of the aluminum plate material, Attaching a member;

And bending an aluminum plate having the two heat insulating members to form a diaphragm.

The step of attaching the heat insulating member may include bending the aluminum plate with the heat insulating member to form an upper protrusion on the upper surface of the coupling protrusion to closely contact the upper surface of the heat insulating member, And adheres to the lower surface of the heat insulating member to support the upper surface and the lower surface of the heat insulating member.

In the step of forming the hollow, the aluminum plate having the two heat insulating members is bent to form an upper surface, both sides, an inclined surface and a lower surface, and a space is formed in the upper surface.

Further, in the method for manufacturing a heat insulating short bar for a double-layered glass according to the present invention,

A method for manufacturing a heat insulating short bar for a double-layered glass having a heat insulating member attached to both sides of a short bar,

A plate material preparing step of preparing an aluminum plate material in a roll state;

A member preparing step of preparing a heat insulating member by extrusion molding;

A step of aligning the two insulating members on the lower surface of the aluminum plate so as to be arranged in parallel at regular intervals;

A step of attaching two heat insulating members to the lower surface of the aluminum plate by inserting the coupling protrusion into the coupling groove of the heat insulating member by bending the aluminum plate to form the coupling protrusion;

Bending the aluminum plate to which the heat insulating member is attached to form an upper face, both sides, an inclined face and a lower face of the diaphragm;

And a cutting step of cutting the heat insulating bar to which the two heat insulating members are attached to a predetermined size.

In the heat insulating short bar for double layer glass according to the present invention,

A heat insulating short bar for a double-layered glass comprising a base bar and a heat insulating member attached to both sides of the bar,

Wherein the baffle is formed by bending an aluminum plate having a predetermined size to form a top surface, both sides, an inclined surface and a bottom surface, and a space portion having a predetermined size formed therein;

The heat insulating member is formed by extruding a plastic material to form an upper surface, an inner surface, an outer surface, and a lower surface, wherein a coupling groove having a predetermined depth in the longitudinal direction is formed at the center of the inner surface;

Wherein both sides of the diaphragm are formed with a coupling protrusion which is inserted into the coupling groove and is in close contact therewith,

The coupling protrusion is formed by bending the aluminum plate and forming and inserting it into the coupling groove of the heat insulating member before forming the upper surface, the side surfaces, the inclined surface and the lower surface.

As described above, according to the present invention, an aluminum plate is folded in multiple stages using a predetermined forming roller to form an engagement protrusion, and the engagement protrusion is bent in multiple stages using a predetermined forming roller, It is possible to fix the bimetal and the heat insulating member in close contact with each other so as not to form a gap therebetween, thereby increasing the heat insulating efficiency and enhancing the bonding force between the bimetal and the heat insulating member Thereby enhancing the quality of the product.

1 is a perspective view showing a preferred embodiment of a heat insulating bar for a double-layer glass according to the present invention,
Fig. 2 is a sectional view of the heat insulating short bar for a double-layered glass shown in Fig. 1,
Fig. 3 is an explanatory diagram of a separator for separating a separator and a heat insulating member from each other in the heat insulating short bar for a double-layer glass of the present invention,
FIG. 4 is a flowchart conceptually showing a method for manufacturing a heat insulating bar for a double-glazing according to the present invention,
FIG. 5 is a flow chart showing a method for manufacturing a heat insulating short bar for a double-layer glass according to the present invention,
FIG. 6 is a configuration view showing an example of a forming apparatus used for manufacturing a heat insulating short bar for a double-layer glass according to the present invention,
7 is an explanatory view showing a manufacturing method of a heat insulating short bar for a double-layer glass according to the present invention,
8 and 9 are sectional views showing a method of attaching a heat insulating member to an aluminum plate according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. The following is an explanation.

1 and 2 illustrate a preferred embodiment of a heat insulating short bar for a double-layer glass according to the present invention.

As shown in the drawings, a heat insulating short bar 1 for a double layer glass according to the present invention comprises a base 10 made of aluminum and a heat insulating member 20 (20a, 20b) made of a plastic material attached to both sides of the base 10, 20b.

Particularly, in the process of manufacturing the barrel 10 by bending the aluminum or aluminum alloy or the stainless steel plate (hereinafter referred to as "aluminum plate"), And a heat insulating member 20 made of a plastic material is integrally attached to the side surface 13.

2, the intermediate bar 10 is formed by bending an aluminum plate having a predetermined size to form an upper surface 12, both side surfaces 13, an inclined surface 14 and a lower surface 15, And a space 11 having a predetermined size is formed.

The heat insulating member 20 is formed by extruding a plastic material and has a rectangular shape so as to be attached to both sides 13 of the bar 10. In the inner surface of the heat insulating member 20, an engaging groove 22 for engaging with both side surfaces 13 of the base 10 is formed.

3, the heat insulating short bar 1 for a double-layered glass according to the present invention is formed by bending an aluminum plate material to form a coupling protrusion 17 and fixing the coupling protrusion 17 to the coupling groove 17 of the heat insulating member 20 22 so that the two heat insulating members 20a, 20b are fixed to both sides 13 of the base 10.

For this purpose, a coupling groove 22 is formed longitudinally in the center of the inner surface 21 of the heat insulating member 20. The coupling groove 22 has a substantially rectangular cross section and is integrally formed when the heat insulating member 20 is extrusion-molded.

Particularly, the heat insulating short bar 1 for a multilayered glass of the present invention is characterized in that before the upper face 12, the side faces 13, the slope face 14 and the lower face 15 of the base 10 are formed by bending the aluminum plate, And two heat insulating members 20 are fixed parallel to the lower surface of the aluminum plate.

That is, the present invention is characterized in that two insulating members 20 are attached to the aluminum plate before forming the shape of the bar 10 in the process of bending the aluminum plate to form the bar 10, Layer glass is manufactured by forming the shape of the barrel 10 by bending the aluminum plate with the adhesive 20 interposed therebetween so that the gap between the barrel 10 and the heat insulating member 20 is not used, (10) and the heat insulating member (20) are brought into close contact with each other, so that a gap is not formed and is not easily separated.

For example, in order to attach the heat insulating member 20 to both side surfaces 13 of the base member 10 made of aluminum material, an adhesive is applied and adhered between the base member 10 and the heat insulating member 20 A plurality of through holes are formed on both sides of the barrel 10 and a heat insulating member 20 is formed on the bottom surface of the barrel 10, A method was employed in which the heat insulating member 20 was fixed to both sides of the base 20 by extrusion molding.

That is, in the conventional method, after the base 10 is formed by using the aluminum plate, the heat insulating member 20 is fixed to both sides 13 of the base 10 by using the above-described methods. Therefore, the adiabatic hollow bar according to the conventional method has a problem in that the adhesiveness of the adhesive is decreased while repeatedly expanding and contracting by the heat, or the interspace 10 and the heat insulating member 20 are not closely contacted due to the structural limit of the sliding- 10 and the heat insulating member 20 are separated from each other and easily separated.

However, in order to solve this problem, in order to solve such a problem, the aluminum plate material is folded in multiple stages using a predetermined forming roller to form the engagement protrusion 17, and the engagement protrusion 17 is formed by a multi- And is inserted into the coupling groove 22 of the heat insulating member 20 so as to be in close contact with the heat insulating member 20 so as not to use an adhesive or the like, So that it is not easily separated by increasing the bonding force.

Therefore, when the heat insulating short bar 1 of the present invention is installed at the edge between the two-layer glass, the heat transmitted to the side bar 10 through the glass can be blocked by the heat insulating member 20 attached to both sides of the bar 10 do.

More specifically, the coupling protrusions 17 formed on both sides 13 of the base 10 have a substantially rectangular cross-section, the tip 171 of which has a widened width, The coupling groove 22 formed at the center of the heat insulating member 20 has a substantially quadrangular cross section and is narrowed by narrowing the width of the inlet 221. That is, the coupling protrusion 17 and the coupling groove 22 are formed in a triangular shape. When the coupling protrusion 17 is inserted into the coupling groove 22 and brought into close contact with the coupling protrusion 17, do.

An upper protrusion 18 is formed on the upper portion of the coupling protrusion 17 and a step 23 is formed on an upper end of the inner surface 21 of the heat insulating member 20 to engage with the upper protrusion 18. have. The step 23 is formed in the longitudinal direction of the heat insulating member 20 and has a substantially rectangular cross section. The upper protrusion 18 is bent to have a rectangular cross-section so as to correspond to the step 23.

A lower protrusion 19 for supporting the lower surface 25 of the heat insulating member 20 may be formed on the lower portion of the coupling protrusion 17. The lower protrusion 19 is formed by bending an aluminum plate so as to have a cross-sectional shape of an equilateral triangle. The horizontal surface 191 of the lower protrusion 19 is in close contact with the lower surface 25 of the heat insulating member 20 to support the heat insulating member 20. The inclined surface 192 of the lower projection 19 is extended by a predetermined length to form an inclined surface 14 of the base 10.

As described above, the heat insulating short bar 1 for a multilayer glass according to the present invention is characterized in that before the predetermined bar 10 is formed by bending the aluminum plate, the joining protrusion 17 is formed on the aluminum plate, The coupling protrusions 17 are pushed into the coupling grooves 22 of the heat insulating member 20 in close contact with each other to fix the two heat insulating members 20 to the lower surface of the aluminum plate, The upper protrusion is formed and inserted into the step 23 formed on the upper surface 24 of the heat insulating member 20 so as to be brought into close contact with the upper surface of the heat insulating member 20 to form the lower protruding portion 19, The upper surface 24 and the lower surface 25 of the heat insulating member 20 can be held in close contact with the lower surface 25 of the member 20 and then the two aluminum heat insulating members 20 The upper surface 12 of the barrel 10, the side surfaces 13, And the slope 14 and the bottom surface 15 are formed on the upper surface of the glass substrate 1 and the space 11 is formed therein.

As described above, the heat insulating short bar 1 for a multi-layer glass according to the present invention is characterized in that the heat insulating member 20 is fixed to both sides 13 of the side bar 10, It is possible to attach the heat insulating member 20 without using an adhesive by previously inserting a part of the aluminum plate into the engaging groove 22 of the heat insulating member 20 and making it close.

Therefore, the heat insulating short bar 1 for a double-layered glass of the present invention does not deteriorate the bonding force due to shrinkage and expansion due to heat and a gap is not formed between the side bar 10 and the heat insulating member 20, ) Is improved so that the adiabatic efficiency is excellent and no failure or defect is caused.

Hereinafter, a method of manufacturing the heat insulating short bar 1 for a double-layer glass according to the present invention will be described.

As shown in FIG. 4, the method for manufacturing the double-layered glass insulating barb 1 according to the present invention includes the steps of attaching two heat insulating members 20 to a lower surface of an aluminum plate, And a step of bending the aluminum plate P with the aluminum plate P attached thereto.

That is, in the conventional method for manufacturing a double-glazed insulating bar for a glass, after the aluminum bar P is first bent to manufacture the barrel 10, a heat insulating member 20 is attached to both sides 13 of the barrel 10 The present invention can be applied to the case where two heat insulating members 20 are first attached to an aluminum plate P and the aluminum plate P having two heat insulating members 20 is bent to form a base 10 (1) for a double-layered glass according to the present invention.

More specifically, as shown in FIG. 5, the method for manufacturing a double-glazed insulating bar for glass according to the present invention includes a plate preparing step (S100) for preparing a rolled aluminum plate, a member preparing step for extrusion molding the heat insulating member (S130) for continuously supplying the heat insulating member, a member aligning step (S140) for aligning the two heat insulating members in parallel on the lower surface of the aluminum plate, (S150) of attaching an insulating member to a bottom surface of an aluminum plate by inserting a coupling protrusion into an aluminum plate and inserting the coupling protrusion into an engaging groove of the heat insulating member, A step S160 of forming a bass by bending the aluminum plate to form a bass, and a cutting step S180 of cutting the bass 1 to a predetermined size.

The bare forming step S160 includes bending the aluminum plate to which the two heat insulating members 20 are attached to form the upper face 12, the opposite side face 13, the slope face 14 and the lower face 14 (S160a); bending and fixing two upper plates facing the upper surface 12 of the barrel 10 in a predetermined form or welding and fixing two upper plates S160b; And forming the through holes 16 at regular intervals (S160c). Since these processes are widely used in the conventional method of manufacturing a short bar, detailed description and illustration thereof will be omitted.

Next, Fig. 6 schematically shows the construction of a manufacturing apparatus (forming apparatus) for making the heat insulating base bar 1 for a double-layer glass of the present invention.

As shown in the figure, the forming apparatus includes a sheet material uncoiler apparatus 51 into which an aluminum sheet P wound in a roll state is fed, and a sheet material uncoiler apparatus 51 provided close to the sheet material uncoiler apparatus 51 A sheet material level feeder device 52 for horizontally expanding and continuously conveying the aluminum sheet material P and a two-member uncoiler device 61a for feeding the heat insulating member 20 wound in a roll state Level feeder unit 62a (62b) for horizontally expanding and conveying the heat insulating member 20 provided close to the two member uncoiler apparatuses 61a and 61b An aligning device 53 for aligning and aligning two heat insulating members 20 on the lower surface of the aluminum plate P such that the two heat insulating members 20 are arranged in parallel at regular intervals; 54) so that the two coupling protrusions 1 7 and the two engaging projections 17 are inserted into the engaging grooves 22 of the heat insulating member 20 positioned on the lower surface of the aluminum plate P and brought into close contact with each other, The upper and lower protrusions 18 and 19 are formed on both sides of the aluminum plate P so as to support the upper surface 24 and the lower surface 25 of the heat insulating member 20, A first forming unit 55 for attaching the heat insulating member 20 and an aluminum plate P on which the heat insulating member 20 is attached are folded in multiple stages using a plurality of forming rollers 56, A second forming unit 57 which forms the side surface 13, the inclined surface 14 and the bottom surface 15 and which bends and fixes two upper plates facing each other on the upper surface 12 in a predetermined shape, A punching machine 58 for forming a plurality of through holes 16 at regular intervals on the upper surface of the heat insulating substrate 1, And a cutter (59) for cutting.

Hereinafter, with reference to Figs. 5 to 7, a method for manufacturing a heat insulating short bar for a double-layer glass according to the present invention will be described.

[Aluminum plate preparing step: S100]

The aluminum plate preparing step S100 is a step of rotating the aluminum plate P having a predetermined width rolled in the roll state for rotatably clamping the aluminum plate P to the plate uncoiler 51 Process.

[Insulating member preparing step: S110]

The heat insulating member preparation step S110 is a step of preparing a heat insulating member 20 by extruding a plastic material and forming a heat insulating member 20 having a predetermined width wound in a roll state to process the heat insulating member 20, Is clamped to the member uncoiler apparatus 61a (61b) in a rotatable manner.

[Step of supplying aluminum sheet: S120]

The aluminum sheet material supply step S120 is a step in which the aluminum sheet material P is continuously fed through the sheet material level feeder device 52 which is installed close to the sheet material uncoiler device 51 and horizontally spreads the supplied aluminum sheet material P, .

[Insulating member supplying step: S130]

The heat insulating member supplying step S130 is a step of supplying the heat insulating member 20 with a heat insulating material through the member level feeder apparatuses 62a and 62b horizontally spreading the heat insulating member 20 installed close to the member uncoiler apparatuses 61a and 61b, And the member 20 is continuously fed.

[Member alignment step: S140]

In the member alignment step S140, two heat insulating members 20 continuously supplied through the two member level peltiert devices 62a and 62b are continuously fed through the plate level feeder device 52, So that they are brought into close contact with the lower surface of the plate material P and arranged parallel at regular intervals (see Fig. 7 (a)).

[Insulating member attaching step: S150]

In the step of attaching the heat insulating member S150, the aluminum plate material P is transferred to the first forming machine 55 to form the two engaging projections 17 using the plurality of forming rollers 54, The step of inserting the projecting portions 17 into the engaging grooves 22 of the heat insulating member 20 and bringing them into close contact with each other to join the two heat insulating members 20 to the lower face of the aluminum plate member P (c)).
8 and 9 illustrate a method of attaching the two engagement protrusions 17 using a plurality of forming rollers 54. FIG. As shown in FIG. 8, a square-shaped engaging protrusion 17 is formed by using a forming roller 54 having a rectangular cross section. Then, as shown in FIG. 9, a forming roller 54 The engaging protrusions 17 are formed in an inclined surface and fixed to the engaging grooves 22 in close contact with each other.
The upper protrusion 18 and the lower protrusion 19 are formed on both sides of the coupling protrusion 17 formed on the aluminum plate P and the upper surface 24 and the lower surface 25 of the heat insulating member 20, (See Fig. 7 (d)). As shown in Fig. 7 (d), the heat insulating member 20 is attached to the lower surface of the aluminum plate P.

[Bamboo forming step: S160]

In the short bar forming step S160, the aluminum plate P on which the two heat insulating members 20 are attached is transferred to the second forming machine 57 and is bent in multiple stages using a plurality of forming rollers 56, 12, the side surfaces 13, the inclined surface 14, and the bottom surface 15 are formed. In addition, a step of bending and joining the ends of the two upper plates 12a (12b) to be opposed to each other on the upper surface 12 in a predetermined shape (refer to Figs. 7 (b) and 7 (c)).

[Drilling step: S170]

The perforating step S170 is a step of forming a plurality of through-holes 16 at regular intervals on the upper surface of the heat insulating short bar 1 by using the punching machine 58. [

[Cutting step: S180]

The cutting step (S180) is a step of cutting the heat insulating intermediate bar (1) at regular intervals using the cutter (59).

As described above, the heat insulating short bar 1 for a multi-layer glass according to the present invention can strengthen the bonding force between the small bar 10 and the heat insulating member 20, thereby preventing the heat insulating member 20 from being detached from the barrel 10 .

In the heat insulating short bar 1 for a double-layer glass according to the present invention, since the heat insulating member 20 coupled to the both side surfaces 13 of the base 10 has strong coupling between the coupling projecting portion 17 and the coupling groove 22 It is possible to improve the bonding with the base 10 and to prevent the penetration of moisture generated inside the glass due to the temperature difference between the inside and the outside by covering the both sides 13 of the base 10 with the heat insulating member 20. [ Effect.

The heat insulating short bar 1 for a double-layer glass according to the present invention is characterized in that in the case of a short bar 10 installed in a rectangular band shape on the edge of two glass sheets 30, Instead of providing a connecting port for connecting / securing each of the short bars 10 to each of the connecting side portions, the present invention is characterized in that the connecting side portions of the respective insulating side barbs 1 are connected to each other, It is possible to provide a heat insulating intermediate bar 1 which is provided with a heat insulating member 20 on the side surface of the side bar 10 to provide a welded integral rectangular band bar.

On the other hand, a plastic material having no thermal deformation can be used as the material of the heat insulating member 20 coated on both sides of the barrel 10. For example, the heat insulating member 20 may be made of a thermoplastic resin such as polycarbonate (PC) or acrylonitrile-butadiene-styrene (ABS).

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, The present invention is not limited to the specific preferred embodiments.

1: Double glazing insulating gaps 10: Bass
11: space part 12: upper surface
12a, 12b: upper plate 13: side
16: through hole 17:
18: upper projection 19: lower projection
20: Heat insulating member 21: Inside surface
22: coupling groove 23: step
50: forming device 51: plate material uncoiler device
52: plate material level feeder device 53: alignment device
55: first forming machine 57: second forming machine
58: Punching machine 59: Cutter
61: Absolute uncoiler device 62: Member level feeder device

Claims (9)

A heat insulating short bar for a double-layered glass comprising a base bar and a heat insulating member attached to both sides of the bar,
The heat insulating member is formed by extrusion molding a plastic material to form upper and lower surfaces, an inner surface and an outer surface, and a coupling groove having a predetermined depth in the longitudinal direction on the inner surface;
Wherein the intermediate bar is bent while continuously feeding an aluminum plate material of a predetermined width while feeding two heat insulating members in parallel at regular intervals to the lower face of the aluminum plate material and bending the aluminum plate material using a plurality of forming rollers And then the aluminum plate material is bent again to support the upper surface of the heat insulating member on the upper part of the coupling protrusion, A lower protrusion for supporting a lower surface of the heat insulating member is formed at a lower portion of the coupling protrusion and a rectangular space is formed in the upper surface, Insulating bare disc for double layer glass.
The method according to claim 1,
And a step corresponding to the upper protrusion is formed in the longitudinal direction at the upper end of the inner surface of the heat insulating member.
The method according to claim 1,
The coupling protrusions formed on both sides of the diaphragm have a rectangular cross section with a wide width at the tip thereof. The coupling grooves formed in the heat insulating member have a rectangular cross-section, Wherein the heat insulating base is made of glass.
The method according to claim 2 or 3,
Wherein the upper protrusion formed on the upper portion of the coupling protrusion has a rectangular cross section and the lower protrusion formed on the lower portion of the coupling protrusion has an equilateral triangle cross section.
delete delete delete A method for manufacturing a heat insulating short bar for a double-layered glass having a heat insulating member attached to both sides of a short bar,
A plate material preparing step of preparing an aluminum plate material in a roll state;
A member preparing step of preparing a heat insulating member by extrusion molding;
A step of aligning the two insulating members on the lower surface of the aluminum plate so as to be arranged in parallel at regular intervals;
A step of attaching two heat insulating members to the lower surface of the aluminum plate by inserting the coupling protrusion into the coupling groove of the heat insulating member by bending the aluminum plate to form the coupling protrusion;
Bending the aluminum plate to which the heat insulating member is attached to form an upper face, both sides, an inclined face and a lower face of the diaphragm;
And a cutting step of cutting the heat insulating bar to which the two heat insulating members are attached to a predetermined size.
delete

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