KR102861213B1 - Frame Unit for Glass Curtain Wall Construction in Buildings - Google Patents

Abstract

The present invention provides a frame unit for constructing an exterior wall glass of a building, comprising: a frame body (100) including a panel insertion portion (130) into which a glass panel (200) is inserted; and position guide portions (110) formed at opposite positions on both outer surfaces and penetrating along a length direction; a connecting block (340) inserted into the position guide portion (110) so as to be able to slide; first and second fixing brackets (310, 320) detachably connected to the connecting block (340) and fixing the frame body (100) to a wall of a building; and a filling means (400) filled and cured in the panel insertion portion (130) and fixing the glass panel (200) to the frame body (100).

Description

Frame Unit for Glass Curtain Wall Construction in Buildings

The present invention relates to a frame unit for constructing glass on the exterior walls of buildings, and more specifically, to a frame unit for constructing glass on the exterior walls of buildings, which safely supports glass materials when used as exterior finishing materials, and simultaneously ensures structural stability, ease of construction, and improved appearance, and which is suitable for green technology because it is manufactured using only aluminum and stainless steel, so that byproducts such as waste are not generated during construction and recycling and reuse are easy.

In modern architecture, glass curtain walls are widely used for their natural lighting, openness of view, and aesthetic appeal.

Especially for high-rise buildings, office buildings, and commercial facilities, glass exterior finishes are considered a key means of securing both architectural symbolism and functionality.

However, existing glass wall systems have shortcomings such as insufficient structural fixing strength, complex construction process and requiring many parts, which increases construction costs, reduces aesthetics due to increased external exposure, and reduces wind pressure resistance.

For example, in the past, there were many ways to fix glass panels by constructing a grid-shaped window frame and a metal panel separately, but this structure not only had the window frame obstruct the view inside, but also had the problem of making the work process cumbersome and maintenance difficult due to the numerous bolts and assemblies.

In this way, the conventional technology has various problems in various aspects such as structural stability, construction convenience, appearance, fixing power, watertightness, etc., and in particular, the conflict between securing the field of view and fixing power, the deterioration of appearance due to external exposure of the member, the complexity of the fixing parts, and the difficulty in correcting construction errors have been the main causes of lowering the quality of buildings using glass exterior materials.

In particular, the conventional technology had a problem in that a gap was created between the glass panel and the frame that fixes the glass panel when used for a long time, which lowered the insulation performance and hindered the structural stability of the glass wall system.

The background technology or prior art described herein is merely intended to help understand the technical significance of the present invention, and does not mean technology widely known in the technical field to which the present invention belongs prior to the filing of the present invention.

Republic of Korea Patent No. 10-0672073 Republic of Korea Patent No. 10-2698711

In order to solve such problems, the present invention has been conceived by the aforementioned background technology, and its purpose is to provide a frame unit for the construction of exterior glass walls of buildings that is suitable for green technology, as it does not produce by-products such as waste during construction and is easy to recycle and reuse by manufacturing a frame unit made only of aluminum and stainless steel.

In addition, the purpose of the present invention is to provide a frame unit for constructing exterior glass walls of buildings, which can safely support glass materials when used as exterior finishing materials, and simultaneously promote structural stability, ease of construction, and improved aesthetics.

In addition, the present invention aims to provide a frame unit for constructing exterior glass walls of buildings, which can improve the installation accuracy of the frame unit and maximize the convenience of construction by freely adjusting the joint position of the frame unit connected to the bracket fixed to the wall according to various construction sites and environmental conditions.

In addition, the present invention aims to provide a frame unit for constructing an exterior wall of a building glass, which can maximize the structural bonding force between the frame unit and the glass panel by further configuring a filling means to improve insulation performance and structural safety between the frame unit and the glass panel, thereby providing load transfer stability and airtightness.

In addition, the present invention aims to provide a frame unit for constructing exterior glass walls of buildings, which can be installed in various ways according to the construction environment of the glass panel by allowing the fixing angle of the glass panel fixed to the frame unit to be adjusted.

However, the purpose of the present invention is not limited to this, and it goes without saying that the purpose or effect that can be understood from the solution or embodiment of the problem even if not explicitly mentioned is also included.

According to one embodiment of the present invention for achieving such a task, it is characterized by including a frame body (100) including a panel insertion part (130) into which a glass panel (200) is inserted, and a position guide part (110) formed at opposite positions on both outer surfaces and penetrating along the length direction; a connecting block (340) inserted into the position guide part (110) so as to be able to slide; first and second fixing brackets (310, 320) detachably connected to the connecting block (340) and fixing the frame body (100) to a wall of a building; and a filling means (400) filled and cured in the panel insertion part (130) and fixing the glass panel (200) to the frame body (100).

According to one embodiment of the present invention, the position guide part (110) is characterized by including a guide hole (112) formed with an open front so that the connection block (340) is inserted and guides the connection block (340) to slide, an elastic support groove (114) formed at an inner end of the guide hole (112) and supporting the connection block (340) so that it can be closely attached, and a separation prevention protrusion (116) formed to be bent at a front end of the guide hole (112) and preventing the connection block (340) from coming off.

According to one embodiment of the present invention, the position guide unit (110) is characterized in that it is configured in multiple pieces spaced apart from the upper part to the lower part of the frame body (110) at a predetermined interval.

According to one embodiment of the present invention, the frame body (100) is configured to have a predetermined inclined surface on both sides of the panel insertion portion (130), and the inclined portion (134) is formed so that the filling amount of the filling means (400) can increase as it goes upward.

According to one embodiment of the present invention, the frame body (100) is characterized in that it further comprises a filling part (120) formed on the inner surface and formed to be in communication with the panel insertion part (130), and configured so that the filling means (400) can be introduced and hardened.

According to one embodiment of the present invention, the frame body (100) is characterized by including a frame fixing support member (140) formed in the center of the bottom surface, into which the connecting block (340) is inserted, and which supports the frame body (100) so that it can be combined with a floor panel member formed on the bottom surface of a building.

According to one embodiment of the present invention, the connecting block (340) is characterized by including a block housing (350) that is inserted into the position guide part (110) and to which a connecting member is connected so that the first and/or second fixing brackets (310, 320) can be connected; and an elastic unit (360) that is connected to the rear part of the block housing (350), is configured to have a predetermined elasticity, and maintains a state of being in close contact with the inner surface of the position guide part (110).

According to one embodiment of the present invention, the frame body (100) further includes a glass fixing unit (500) that supports the glass panel (200) so that the glass panel (200) can be fixed by adjusting the installation angle when the glass panel (200) is inserted and fixed into the panel insertion portion (130).

According to one embodiment of the present invention, the glass fixing unit (500) comprises: a lifting bracket (510) configured on one side of the upper portion and configured to perform a lifting and lowering operation; a contact bracket (520) configured on the lower portion of the lifting and lowering bracket (510) and configured to be in close contact with the glass panel (200) when the lifting and lowering bracket (510) is lowered; a lifting and lowering support bracket (550) configured on the lower portion of the contact bracket (520) and supporting the lifting and lowering operation of the lifting and lowering bracket (510); an adjustment housing (530) inserted in multiple pieces into the panel insertion portion (130) at a predetermined interval, the lifting and lowering brackets (550) configured on one side, and the glass panel (200) inserted into the central portion; It is characterized by including: a lifting unit (540) coupled to the lifting bracket (510) and the lifting support bracket (550) and lowering the lifting bracket (510) when the fastening operation is performed; and an angle adjustment unit (560) configured on the other side of the adjustment housing (530) and guiding the angle adjustment of the glass panel (200).

According to one embodiment of the present invention, the frame body (100) is characterized in that it further includes a filling part (120) that is formed to be in communication with the panel insertion part (130) and is configured to allow a filling means (400) to be introduced and hardened.

According to one embodiment of the present invention, the frame body (100) is further characterized by having a gap prevention unit (600) inserted and fixed to the filling part (120).

According to an embodiment of the present invention, by manufacturing a frame unit made of only aluminum and stainless steel, no by-products such as waste are generated during construction, and recycling and reuse are easy, so an environmentally friendly frame unit suitable for green technology can be provided.

In addition, according to an embodiment of the present invention, when using glass material as an exterior finishing material, it has the effect of safely supporting it and simultaneously improving structural stability, convenience of construction, and appearance.

In addition, according to an embodiment of the present invention, the joint position of the frame unit connected to the bracket fixed to the wall can be freely adjusted according to various construction sites and environmental conditions, thereby improving the installation accuracy of the frame unit and maximizing the convenience of construction.

In addition, according to an embodiment of the present invention, by further configuring a filling means to improve insulation performance and structural safety between the frame unit and the glass panel, the structural bonding force between the frame unit and the glass panel can be maximized, thereby providing load transfer stability and airtightness.

In addition, according to an embodiment of the present invention, by allowing the fixing angle of the glass panel fixed to the frame unit to be adjusted, there is an effect that the glass panel can be installed in various ways depending on the construction environment.

In addition, the various advantageous advantages and effects of the present invention are not limited to the above-described contents, and will be more easily understood in the process of explaining specific embodiments of the present invention.

Figures 1 and 2 are perspective views showing a frame unit for constructing an exterior wall glass of a building according to one embodiment of the present invention.
Figure 3 is a cross-sectional view showing the frame body of a frame unit for constructing an exterior wall glass of a building according to one embodiment of the present invention.
FIG. 4 is a drawing showing a state in which a filling means of a frame unit for constructing an exterior wall glass of a building according to one embodiment of the present invention is filled.
Figures 5 and 6 are drawings showing a connection block of a frame unit for constructing an exterior wall glass of a building according to one embodiment of the present invention.
Figure 7 is another embodiment showing a frame unit for constructing an exterior wall glass of a building according to one embodiment of the present invention.
FIG. 8 and FIG. 9 are drawings showing a glass fixing unit of a frame unit for constructing an exterior wall glass of a building according to another embodiment of the present invention.
FIGS. 10 to 13 are cross-sectional views showing a glass fixing unit according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. First, when assigning reference numerals to components in each drawing, it should be noted that, where possible, identical components are assigned the same numerals even if they are shown in different drawings.

In addition, it should be noted that the technical terms used in describing the present invention are only used to describe specific embodiments and are not intended to limit the present invention. If a specific description of a related known configuration or function is determined to obscure the gist of the present invention, the detailed description will be omitted. In addition, in describing the present invention, general terms used should be interpreted according to their dictionary definitions or according to the preceding and following context, and should not be interpreted in an excessively narrow sense. In addition, when a technical term used is an incorrect technical term that does not accurately express the spirit of the present invention, it should be replaced with a technical term that can be correctly understood by a person skilled in the art.

In addition, in describing the present invention, terms such as “include,” “comprise,” or “have,” unless specifically stated to the contrary, mean that the corresponding component may be included, and should not be construed to necessarily include all components or multiple steps, and some of the components or some steps may not be included, or may further include additional components or steps, and all terms including technical or scientific terms have the same meaning as commonly understood by a person of ordinary skill in the art to which the present invention belongs, unless defined otherwise.

Additionally, in describing components of the present invention, when it is described that a component is “connected,” “coupled,” or “connected” to another component, it should be understood that the component may be directly connected or connected to the other component, but another component may also be “connected,” “coupled,” or “connected” between each component.

Additionally, in describing the components of the present invention, identification codes such as first, second, A, B, (a), (b), etc. may be used. These identification codes are intended to distinguish the components from other components and are used only for the convenience of description, and the nature, order, or sequence of the components are not limited by the identification codes.

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings.

As illustrated, the frame unit for the exterior glass construction of the building of the present invention is made of only aluminum and stainless steel, and is configured to include a frame body (100), a glass panel (200), a frame fixing support unit (300), and a filling means (400).

The frame body (100) is configured to be fixed to the wall of a building on which a glass wall is to be constructed, and a glass panel (200) is coupled thereto, and a position guide (110) is formed to guide the connecting block (340) of the frame fixing support unit (300) so that it can slide along the length direction and support the first and second fixing brackets (310, 320) so that they can be detachably coupled.

The position guide unit (110) is configured at opposing positions on both sides of the outer surface of the frame body (100), and is formed to extend along the length of the frame body (100), so that the connecting block (340) of the frame fixing support unit (300) can be inserted.

The position guide member (110) is configured to penetrate the front and rear parts of the frame body (100), and the outer surface is configured to be open so that a connecting block (340) can be inserted into the penetrated front and rear parts, and a connecting member including a fixing bolt can be penetrated so that the first and second fixing brackets (310, 320) of the frame fixing support unit (300) can be detachably connected to the open outer surface.

This position guide part (110) may be formed with an open front, a connecting block (340) inserted therein, a guide hole (112) that guides the connecting block (340) to slide toward the front or rear side of the frame body (100), an elastic support groove (114) formed at the inner end of the guide hole (112) and configured to have a predetermined arc, and that supports the end of the elastic unit (360) formed in the connecting block (340) so that it can be in close contact with the end, and a separation prevention protrusion (116) that is formed to be bent at the front end of the guide hole (112) and is bent from the upper and lower parts of the front side of the guide hole (112) toward the center so as to prevent the connecting block (340) inserted into the guide hole (112) from being separated toward the open front end.

Additionally, the position guide unit (110) may be configured in multiple pieces spaced apart from the top to the bottom of the frame body (110) at a predetermined interval.

Accordingly, the worker inserts a connecting block (340) into a plurality of position guides (110) according to the conditions of the building for constructing a glass wall, and then slides the position of the connecting block (340) toward the front or rear side of the frame body (110) so that the positions of the first and second fixing brackets (310, 320) that are coupled to the wall of the building are aligned, thereby easily performing the connection work between the frame body (110) and the first and second fixing brackets (310, 320).

In addition, the frame body (110) is configured to have a central portion and an open upper portion so that a glass panel (200) can be inserted, and a panel insertion portion (130) is configured to enable filling of a filling means (400) into the outer surface of the inserted glass panel (200).

The panel insertion portion (130) is formed to protrude upward toward the lower portion, and is configured to have a predetermined curvature, and a bottom curvature portion (132) is configured to support the panel so that it can be settled with a minimum contact area with the lower portion of the glass panel (200).

The bottom curvature (132) is configured to create a predetermined gap between the glass panel (200) and the bottom surface of the panel insertion part (130) by the curvature formed in the central part, so that the filling means (400) can be introduced into this gap, thereby allowing the glass panel (200) to be tightly coupled to the panel insertion part (130).

That is, the present invention is configured so that a connection between the frame body (100) and the glass panel (200) can be made by the filling means (400) while the glass panel (200) is installed.

In addition, the panel insertion part (130) may be configured to have a predetermined slope on both sides, and an inclined part (134) may be formed so that the amount of filling of the filling means (400) is filled in a larger amount as it moves toward the upper side of the panel insertion part (130).

The filling part (120) is formed to be in communication with the inner surface of the frame body (100), that is, the panel insertion part (130), and is located on the upper inner surface of the panel insertion part (130). When the filling means (400) is filled into the panel insertion part (130), the filling means (400) is introduced to improve the bonding strength between the frame body (100) and the glass panel (200). The filling means (400) is configured to be introduced and hardened.

Here, the filling means (400) may be composed of conventional mortar, non-shrinkage mortar, etc., but is not limited thereto.

Meanwhile, the frame body (100) of the present invention may be formed in the center of the floor surface and has a shape corresponding to the panel insertion portion (130), and in the case where the frame body (100) must be directly connected to the floor surface of a building, a connecting block (340) may be inserted to support the frame fixing support portion (140) so that the frame body (100) can be connected to the floor panel member formed on the floor of the building through the connecting member.

The frame fixing support unit (300) fixes the frame body (100) to the wall surface (or wall) of a building, and is configured to include a fixing bracket unit composed of first and second fixing brackets (310, 320), and a connecting block (340) that is inserted into the position guide part (110) of the frame body (100) and supports the first and second fixing brackets (310, 320) so that they can be coupled to the frame body (100).

Here, the first fixed bracket (310) is formed by bending so that the lower part is perpendicular, and is configured so that it can be combined with a floor panel member formed on the floor of a building, and the upper part is configured so that it can be combined with a connecting block (340) through a connecting member such as a fixing bolt, thereby fixing the frame body (100) to a position spaced apart from the floor panel member of the building by a certain height.

In addition, the second fixed bracket (320) is configured as a square flat panel member, and is configured so that a connecting member penetrates the perimeter, especially each corner portion, so that it can be connected to a connecting block (340), and the frame body (100) is configured so that it can be connected to the side portion of the space where the glass wall of the building is to be constructed.

At this time, the first and second fixed brackets (310, 320) are provided with a fastening hole (330) having a screw thread formed on the inner surface so that the connecting member can penetrate therethrough and be connected to the connecting block (340).

The first and second fixed brackets (310, 320) may be configured to be combined with the connecting block (340) by selecting only one of the two depending on the shape of the building where the glass wall is to be constructed, the construction space, or the environmental conditions.

The connecting block (340) is inserted into the guide hole (112) of the position guide part (110) and is configured to allow sliding movement along the guide hole (112), and includes a block housing (350) to which a connecting member is connected so that the first and/or second fixing brackets (310, 320) can be connected, and an elastic unit (360) that is connected to the rear part of the block housing (350) and is configured to have a predetermined elastic force and maintains a state of being in close contact with the elastic support groove (114) when inserted into the guide hole (112).

The block housing (350) is configured to have a groove shape on the rear side, and an insertion groove (352) is formed to support the insertion panel (362) of the elastic unit (360) so that it can be inserted and fixed, and a joining hole (354) is formed to penetrate so as to be perpendicular to the insertion groove (352), and a joining member is formed so that the first and/or second fixing brackets (310, 320) can be coupled to the block housing (350).

In addition, the block housing (350) is formed with an insertion protrusion (356) that is configured to protrude from the front, is formed to communicate with the guide hole (112), and is inserted into a space formed between the disengagement prevention protrusions (116) of the position guide portion (110).

At this time, the insertion protrusion (356) is configured so that the sliding movement can be performed while in contact with the detachment prevention protrusion (116) during the sliding movement of the connecting block (340).

In addition, the block housing (350) is further provided with a contact flange (358) formed on the upper and lower ends of the insertion protrusions (356) and configured to be in close contact with the inner surface of the detachment prevention protrusions (116) when the insertion protrusions (356) are inserted into the space between the detachment prevention protrusions (116).

The elastic unit (360) is coupled to the rear part of the block housing (350) and is configured to maintain the block housing (350) in close contact with the anti-separation protrusion (116) side by a predetermined elastic force. It includes an insertion panel (362) that is inserted and fixed into the insertion groove (352) of the block housing (350), and an elastic panel (364) that is formed to extend from one end of the insertion panel (362) and provides a predetermined elastic force while performing a bending operation.

Here, the elastic panel (364) is formed to protrude at the end and is configured to have a spherical shape, and when the block housing (350) is inserted into the guide hole (112), a contact protrusion (356) that comes into contact with the elastic support groove (114) formed on the inner surface of the guide hole (112) may be further configured.

Meanwhile, as shown in FIGS. 7 and 8, the frame unit of the present invention may further include a glass fixing unit (500) that supports the glass panel (200) so that it can be fixed by adjusting the installation angle of the glass panel (200) when the glass panel (200) is inserted and fixed to the frame body (100).

The glass fixing unit (500) is inserted into the panel insertion portion (130) and is configured to be in close contact with the walls on both sides of the panel insertion portion (130), and is configured to be mounted in multiple units spaced apart at a predetermined interval along the length direction of the frame body (100).

This glass fixing unit (500) is configured on one side of the upper portion and includes a lifting bracket (510) configured to enable a lifting operation, a contact bracket (520) configured on the lower portion of the lifting bracket (510) and moving toward the glass panel (200) when the lifting bracket (510) is lowered to fix the position of the glass panel (200), a lifting support bracket (550) configured on the lower portion of the contact bracket (520) and supporting the lifting operation of the lifting bracket (510), an adjustment housing (530) inserted into the panel insertion portion (130), in which the lifting bracket (550) is configured on one side and the glass panel (200) is inserted into the central portion, and a mounting bracket (510) and a lifting support bracket (550) are connected and, when the fastening operation is performed, the lifting bracket (510) is moved. It is configured to include a lowering unit (540).

The lifting bracket (510) is placed on the upper side of the glass fixing unit (500), and an upper adjustment hole (512) is formed in the center to which the lifting unit (540) is screw-coupled.

In addition, the raising/lowering bracket (510) is formed to have a predetermined inclination angle on the lower surface, and an upper pressure part (514) is formed to move the contact bracket (520) toward the glass panel (200) when the raising/lowering bracket (510) is lowered.

The close bracket (520) is configured between the raising/lowering bracket (510) and the raising/lowering support bracket (550), and when the raising/lowering bracket (510) is lowered, it moves toward the glass panel (200) inserted into the panel mounting portion (532) formed in the adjustment housing (530) and is configured to come into close contact with one side of the glass panel (200) so that the glass panel (200) can be tightly fixed to the adjustment housing (530) of the glass fixing unit (500).

This close bracket (520) is formed with a unit penetration hole (522) that allows the elevation unit (540) to pass through and be connected to the elevation support bracket (550) in a screw-joint manner.

In addition, the close bracket (520) is formed with a predetermined slope on the upper surface and has a first close guide (524) configured to allow sliding movement along the slope of the upper pressurizing portion (514) of the raising/lowering bracket (510), and a second close guide (526) is formed on the lower surface and has a predetermined slope and is configured to allow sliding movement along the lower pressurizing portion (554) of the raising/lowering support bracket (550).

Here, the first and second adhesion guides (526) are configured to have the same inclination angle as the upper pressurizing portion (514) and the lower pressurizing portion (554), respectively.

The lifting and lowering support bracket (550) is configured at the lower part of the contact bracket (520), and the lifting and lowering unit (540) is coupled thereto, and is configured to support the operation of the lifting and lowering unit (540) so that the lifting and lowering operation of the lifting and lowering bracket (510) can be performed.

The raising/lowering support bracket (550) is formed in the central portion, and a lower adjustment hole (552) is formed to which the raising/lowering unit (540) is connected in a screw-joining manner, and a lower pressure part (554) is formed to support the upper surface so that a predetermined slope is formed and the second contact guide (526) is contacted so that sliding movement can be achieved.

This lifting and lowering support bracket (550) is integrally formed on one side of the adjustment housing (530).

The adjustment housing (530) is inserted into the panel insertion portion (130) of the frame body (100) in multiple pieces at regular intervals, and a panel mounting portion (532) configured to allow the glass panel (220) to be inserted and fixed is formed. A lifting and lowering support bracket (550) is formed on one side of the panel mounting portion (532), and an angle adjustment groove (534) is formed on the other side to operably support an angle adjustment unit (560).

The angle adjustment groove (534) is configured so that the contact surface with the angle adjustment unit (560) forms a predetermined arc, and supports the angle adjustment of the glass panel (200) so that the angle adjustment unit (560) can be adjusted by a predetermined angle while rotating along the arc.

The angle adjustment unit (560) is inserted between the glass panel (200) and the angle adjustment groove (534) while the glass panel (200) is inserted, and is configured so that one side is in contact with the glass panel (200) and the other side has the same arc as the angle adjustment groove (534), and a swivel adjustment part (562) is formed along the angle adjustment groove (534) to rotate the angle adjustment unit (560) by a certain angle.

That is, after the glass panel (200) is inserted into the panel mounting portion (532) of the adjustment housing (530), the worker holds the glass panel (200) so that the glass panel (200) is in close contact with the angle adjustment unit (560), and adjusts the angle to incline by a certain angle toward one side or the other side of the frame body (100), and then operates the elevation unit (540) in the fastening direction so that the close bracket (520) presses one side of the glass panel (200) whose angle has been adjusted, thereby fixing the glass panel (200) and the glass fixing unit (500).

Meanwhile, the frame unit of the present invention includes a gap prevention unit (600) which is respectively positioned at the front and rear of the glass fixing unit (500) and is inserted and fixed into the filling portion (120) formed in the frame body (100) to prevent the panel insertion portion (130) of the frame body (100) from gapping when the glass fixing unit (500) is operated.

The anti-spreading unit (600) is configured to be bent downward at each end on both sides, and a fixed support panel is configured to support the anti-spreading unit (600) so that it can be inserted and fixed into the filling part (120).

The above description is merely an illustrative illustration of the technical idea of the present invention, and those skilled in the art will appreciate that various modifications and variations can be made without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the technical idea of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within a scope equivalent thereto should be interpreted as being included in the scope of the rights of the present invention.

100: Frame body 110: Position guide
112: Guide hole 114: Elastic support groove
116: Anti-separation protrusion 120: Filling part
130: Panel insert 132: Floor curvature
134: Inclined section 140: Frame fixing support section
200: Glass panel 300: Frame fixing support unit
310: First fixed bracket 320: Second fixed bracket
330: Fastening hole 340: Connecting block
350: Block housing 352: Insert groove
354: Joining hole 356: Insertion protrusion
358: Close flange 360: Elastic unit
362: Insert panel 364: Elastic panel
366: Contact projection 400: Filling means
500: Glass fixing unit 510: Lifting bracket
512: Upper adjustment hole 514: Upper pressure part
520: Close bracket 522: Unit through hole
524: First Close Guide 526: Second Close Guide
530: Adjustment housing 532: Panel mounting portion
534: Angle adjustment groove 540: Lifting/lowering unit
550: Lifting and lowering support bracket 552: Lower adjustment hole
554: Lower pressurized section 560: Angle adjustment unit
562: Angle adjustment unit 600: Anti-slip unit

Claims (11)

A frame body (100) made of aluminum or stainless steel, including a panel insertion portion (130) into which a glass panel (200) is inserted, and a position guide portion (110) formed at opposing positions on both sides of the outer surface and penetrating along the length direction;
A connecting block (340) inserted into the above position guide section (110) to enable sliding movement;
First and second fixing brackets (310, 320) that are detachably connected to the above connecting block (340) and fix the frame body (100) to the wall of the building; and
A filling means (400) that is filled and hardened in the above panel insertion portion (130) and fixes the glass panel (200) to the frame body (100);
A frame unit for constructing an exterior glass wall of a building, characterized by including:
In the first paragraph,
The above location guide unit (110) is
The front is formed to be open, the connecting block (340) is inserted, and a guide hole (112) is provided to guide the connecting block (340) so that it can slide.
An elastic support groove (114) formed at the inner end of the above guide hole (112) and supporting the connecting block (340) so that it can be closely attached,
A detachment prevention protrusion (116) formed to be bent at the front of the above guide hole (112) and preventing the above connecting block (340) from detaching
A frame unit for constructing an exterior glass wall of a building, characterized by including:
In the second paragraph,
The above location guide (110)
A frame unit for constructing exterior glass walls of a building, characterized in that it is composed of a plurality of units spaced apart from the upper part to the lower part of the frame body (100) at a predetermined interval.
In the first paragraph,
In the above frame body (100),
A frame unit for constructing an exterior wall glass of a building, characterized in that the panel insertion portion (130) is configured to have a predetermined slope on both sides, and the slope portion (134) is formed so that the filling amount of the filling means (400) can increase as it goes upward.
In paragraph 4,
In the above frame body (100),
A frame unit for constructing an exterior wall of a building, characterized in that it further comprises a filling part (120) formed on the inner surface and formed to be in communication with the panel insert part (130), and configured so that the filling means (400) can be introduced and hardened.
In the first paragraph,
In the above frame body (100)
A frame fixing support member (140) formed in the center of the floor surface and having the connecting block (340) inserted therein to support the frame body (100) so that it can be combined with a floor panel member formed on the floor surface of the building.
A frame unit for constructing an exterior glass wall of a building, characterized by including:
In the first paragraph,
The above connecting block (340)
A block housing (350) inserted into the above position guide part (110) and to which a connecting member is connected so that the first and/or second fixing brackets (310, 320) can be connected; and
An elastic unit (360) that is coupled to the rear part of the block housing (350), is configured to have a predetermined elasticity, and maintains a state of being in close contact with the inner surface of the position guide part (110);
A frame unit for constructing an exterior glass wall of a building, characterized by including:
In the first paragraph,
In the above frame body (100)
A glass fixing unit (500) that supports the glass panel (200) so that it can be fixed by adjusting the installation angle when the glass panel (200) is inserted and fixed into the panel insertion part (130);
A frame unit for constructing an exterior glass wall of a building, characterized by further including:
In paragraph 8,
The above glass fixing unit (500)
A lifting bracket (510) configured on the upper side and configured to enable lifting and lowering operation;
A contact bracket (520) configured at the lower portion of the above-mentioned lifting bracket (510) and in close contact with the glass panel (200) when the above-mentioned lifting bracket (510) is lowered;
A lifting support bracket (550) configured at the lower part of the above-mentioned close bracket (520) and supporting the lifting and lowering operation of the lifting bracket (510);
An adjustment housing (530) that is inserted in multiple pieces at a predetermined interval into the above panel insertion portion (130), has the above lifting and lowering support bracket (550) formed on one side, and has the above glass panel (200) inserted in the center;
A lifting unit (540) coupled to the lifting bracket (510) and the lifting support bracket (550) and lowering the lifting bracket (510) when the fastening operation is performed; and
An angle adjustment unit (560) configured on the other side of the above adjustment housing (530) and guiding angle adjustment of the glass panel (200);
A frame unit for constructing an exterior glass wall of a building, characterized by including:
In paragraph 1 or paragraph 8,
In the above frame body (100),
A frame unit for constructing an exterior wall glass of a building, characterized in that it further includes a filling part (120) formed to be in communication with the above panel insertion part (130) and configured so that a filling means (400) can be introduced and hardened.
In Article 10,
In the above frame body (100),
A frame unit for constructing an exterior wall of a building, characterized in that it further comprises a gap prevention unit (600) inserted and fixed to the above filling part (120).