CN220266940U - Semi-unit horizontal hidden vertical transparent glass curtain wall - Google Patents

Abstract

The utility model provides a half-unit horizontal hidden vertical glass curtain wall, which is formed by splicing a keel system through a half-unit frame, wherein the half-unit frame comprises a first half-body upright post, a second half-body upright post and a cross beam; the left and right adjacent half unit frames are spliced and combined through the adjacent first half body upright posts and the adjacent second half body upright posts; the front ends of the adjacent first half body upright posts and the adjacent second half body upright posts of the left half unit frame and the right half unit frame are respectively provided with a glass plate abutting part; the keel system is also provided with a connecting section bar which is positioned in the front side of the upright post formed by splicing and combining, and the glass vertical pressing line is connected with the connecting section bar; the upper side and the lower side of the front end of the cross beam are respectively provided with a hooking groove of the glass plate transverse auxiliary frame strip, and the hooking directions of the hooking grooves of the upper side and the lower side are in the same direction. Compared with the traditional frame type horizontal hidden and vertical glass curtain wall, the utility model has the advantages of greatly shortened field construction period, reliable quality and simultaneously suitability for the installation and construction of the low-energy curtain wall with a three-glass two-cavity structure.

Description

Semi-unit horizontal hidden vertical transparent glass curtain wall

Technical Field

The utility model relates to the field of curtain walls, in particular to a semi-unit horizontal hidden vertical transparent glass curtain wall.

Background

The keel system of the glass curtain wall comprises upright posts and cross beams. The traditional frame type glass curtain wall adopts the step-by-step installation of stand columns and cross beams during field installation, and the stand columns are connected with embedded parts first and then the cross beams are connected with the stand columns. For large engineering, this approach is inefficient.

In the construction field, there are also structures using units, but most are applied in the window field, and are units in which a keel frame and a glass plate are assembled together, and the weight is excessive and the installation is inconvenient.

Disclosure of Invention

The utility model aims to provide a semi-unit horizontal hidden and vertical exposed glass curtain wall, so that unit installation can be applied to the horizontal hidden and vertical exposed glass curtain wall, and the field construction period of the horizontal hidden and vertical exposed glass curtain wall is shortened. For this purpose, the utility model adopts the following technical scheme:

the semi-unit horizontal hidden vertical glass curtain wall comprises a cross beam and a glass vertical line, and is characterized in that a keel system of the horizontal hidden vertical glass curtain wall is formed by splicing a semi-unit frame, wherein the semi-unit frame comprises a first semi-body upright post and a second semi-body upright post which are arranged at the left side and the right side of the semi-unit frame, and the cross beam is connected between the first semi-body upright post and the second semi-body upright post; the left and right adjacent half unit frames are spliced and combined through the adjacent first half stand column and the second half stand column, and the adjacent first half stand column and the adjacent second half stand column of the left and right adjacent half unit frames are combined in the shape of stand columns;

the left half unit frame and the right half unit frame are respectively connected with the embedded part through a connecting structure;

the front ends of the adjacent first half upright post and the second half upright post of the left-right adjacent half unit frame are respectively provided with a glass plate abutting part; the keel system is also provided with a connecting section bar, the connecting section bar is positioned in the front side of the upright post formed by splicing and combining, and the glass vertical pressing line is connected with the connecting section bar;

the upper side and the lower side of the front end of the cross beam are respectively provided with a hooking groove of the glass plate transverse auxiliary frame strip, and the hooking directions of the hooking grooves of the upper side and the lower side are in the same direction.

On the basis of adopting the technical scheme, the utility model can also adopt the following further technical schemes or use the further technical schemes in combination:

the connecting section bar is of a T-shaped section structure and comprises a two-wing structure and a connecting cavity in the middle, the two-wing structure is clamped in grooves in the front of the first half upright post and the second half upright post, the bottoms of the two-wing structure are not connected with the first half upright post and the second half upright post through screws, and the glass is vertically pressed with the front cavity wall of the connecting cavity through screws.

The first half upright post and the second half upright post are provided with side clamping grooves at the rear parts of the propping parts for clamping and positioning the two-wing structure, the bottom wall of the clamping groove is connected with the cross beam through screws, and the two-wing structure is provided with bending and covers and yields the screw heads and increases the strength of the clamping parts of the two-wing structure.

The hooking groove is a square groove with an opening facing the outer side of the room, the front part of the hooking groove is provided with a hooking groove wall, and the hooking groove walls of the hooking grooves on the upper side and the lower side of the cross beam are in the same direction.

The supporting part is provided with a connecting groove of a flexible pad, and the flexible pad is positioned between the supporting part and the glass plate and is connected with the transverse auxiliary frame strip to level the glass plate.

The front and rear parts of the first half upright post are respectively provided with a slot, the second half upright post is provided with a plug, the plug is provided with a mounting groove of a buffer adhesive tape, and the buffer adhesive tape is arranged between the plug and the slot wall.

The upper end of the half unit frame is connected with the embedded part through a connecting structure, and the lower end of the half unit frame is spliced with the first half body upright post and the second half body upright post of the lower half unit frame through inserting sheets; the first half upright post and the second half upright post are internally provided with an inserting sheet clamping groove.

The glass plate is of a three-glass two-cavity structure.

The front end of the connecting cavity of the T-shaped section structure exceeds the abutting part and stretches into the gap between the glass plates, the gap between the glass plates is plugged by adopting an elongated foam strip, the length of the elongated foam strip in the front-back direction covers the rear side of the gap between the glass plates in the transverse gap, and the elongated foam strip is positioned between the side surface of the connecting cavity and the side surface of the glass plates in the vertical gap.

The length of the half unit frame is matched with the height between the two layers of main body structure beams, the upper end of the half unit frame is connected with the embedded part on the upper layer of main body structure beam through a connecting structure, the lower end of the half unit frame is inserted with the lower half unit frame through an inserting piece, and the lower half unit frame is connected with the embedded part on the lower layer of main body structure beam through a connecting structure.

Due to the adoption of the technical scheme, the utility model has the following beneficial effects:

1. the utility model has the advantages that the installation is convenient, the integral hoisting of the frame is realized, the rear mounting of the panel is realized, and compared with the traditional frame type horizontal hidden and vertical transparent glass curtain wall, the field construction period of the horizontal hidden and vertical transparent glass curtain wall is greatly shortened.

2. The frame is produced and assembled in a factory, the quality is reliable, the glass plates are assembled on site, the curtain wall mounting scheme taking the quality, the cost and the mounting efficiency into account is adopted, and the mounting construction of the low-energy-consumption curtain wall with the three-glass two-cavity structure can be simultaneously applied, so that the characteristics of the curtain wall are brought into play.

Drawings

Fig. 1 is a schematic cross-sectional view of a frame unit according to an embodiment of the present utility model.

Fig. 2 is a schematic vertical cross-section of a frame unit according to an embodiment of the utility model.

Fig. 3 is a schematic diagram of connection between an upright post and an embedded part according to an embodiment of the present utility model.

Fig. 4 is a schematic view of a glass curtain wall according to an embodiment of the present utility model.

Fig. 5 is a schematic diagram of a frame unit installation according to an embodiment of the present utility model.

Description of the embodiments

Reference is made to the accompanying drawings. The utility model provides a half-unit horizontal hidden vertical glass curtain wall, which is formed by splicing a half-unit frame, wherein the half-unit frame comprises a first half-body upright post 11 and a second half-body upright post 12 which are arranged at the left side and the right side of a position column, and a cross beam 2 connected between the first half-body upright post 11 and the second half-body upright post 12; the left and right adjacent half unit frames are combined by inserting the adjacent first half body upright posts 11 and second half body upright posts 12, and the adjacent first half body upright posts 11 and second half body 12 upright posts of the left and right adjacent half unit frames are combined into the upright post shape.

The left half unit frame and the right half unit frame are respectively connected with the embedded part 5 through a connecting structure, and load born by the glass curtain wall is transferred to the main building through the connecting structure. In one embodiment, the steel corner connector 51 is welded with the embedded part 5, and the first half upright 11 and the second half upright 12 are respectively connected with the steel corner connector 51 connected to the left side and the right side of the embedded part 5 through bolts.

The front ends of the adjacent first half upright 11 and second half upright 12 of the left and right adjacent half unit frames are respectively provided with a glass plate abutting part 111 and 121; the keel system is also provided with a connecting section bar 6, the connecting section bar 6 is positioned in the front side of the upright post formed by splicing and combining, and the glass vertical pressing line 3 is connected with the connecting section bar 6. Preferably, the vertical column formed by the split combination is matched, the connecting section 6 is of a T-shaped cross-section structure, and comprises a two-wing structure 61 and a connecting cavity 62 in the middle, the two-wing structure is clamped in grooves 112 and 122 in the front of the first half vertical column 11 and the second half vertical column 12, the bottom 63 of the connecting section is not connected with the first half vertical column 11 and the second half vertical column 12 by screws, the plugging of the first half vertical column 11 and the second half vertical column 12 is not interfered, the appearance of the vertical column formed by the split combination is complete, and the glass vertical pressing line 3 and the front cavity wall 621 of the connecting cavity 62 are connected by screws.

The first half upright 11 and the second half upright 12 are provided with side clamping grooves at the rear parts of the abutting parts 111 and 121 as the grooves 112 and 122, so that the two-wing structure 61 is clamped and positioned, and is connected with the cross beam 2 through screws at the bottom wall of the clamping groove, and the two-wing structure 61 is provided with a bending part for covering and yielding the screw head 64, and the strength of the clamping part of the two-wing structure is increased.

The front and rear parts of the first half upright 11 are respectively provided with a slot 113, the second half upright 12 is provided with a plug 123, the plug 123 is provided with a mounting groove 124 of a buffer rubber strip 125, and the buffer rubber strip 125 is arranged between the plug 123 and the slot wall.

The upper side and the lower side of the front end of the beam 2 are respectively provided with a hooking groove 21 of the glass plate transverse auxiliary frame strip 4, and the hooking directions of the hooking grooves 21 and 22 on the upper side and the lower side are in the same direction.

The hooking grooves 21 and 22 are square grooves with openings facing the outside of the room, the front parts of the hooking grooves are provided with hooking groove walls, and the hooking groove walls 211 and 221 of the hooking grooves 21 and 22 on the upper side and the lower side of the cross beam are positioned in the same direction. Reference numeral 4 is a transverse auxiliary frame bar behind the glass plate 8, the transverse auxiliary frame bar is provided with a hook 41 matched with the wall of the hook groove, the end part of the hook 41 can be made into a groove for arranging a buffer pad bar, and the buffer pad bar 42 is positioned between the hook 41 and the wall of the hook groove.

The abutting parts 111 and 121 are provided with connecting grooves of flexible gaskets 13, and the flexible gaskets 13 are positioned between the abutting parts and the glass plates and are connected with the transverse auxiliary frame strips 4 to flatten the glass plates 8.

The upper ends of the first half upright post 11 and the second half upright post 12 of the half unit frame are connected with the embedded part through the connecting structure, and the lower ends of the first half upright post 11 and the second half upright post 12 of the half unit frame below are connected with the embedded part in an inserting mode through the inserting piece 7; the first half upright 11 and the second half upright 12 are internally provided with inserting sheet clamping grooves 71, and the inserting sheets are preferably fixed at the upper ends of the first half upright 11 and the second half upright 12 of the upper half unit frame generally. The length of the half unit frame is matched with the height between the two layers of main body structure beams, the upper end of the half unit frame is connected with the embedded part 5 on the upper layer of main body structure beam 101 through a connecting structure, the lower end of the half unit frame is spliced with the lower half unit frame through an inserting sheet 7, and the upper end of the lower half unit frame is connected with the embedded part 5 on the lower layer of main body structure beam 102 through a connecting structure.

The glass plate 8 of the glass curtain wall is of a three-glass two-cavity structure, and gaps among the glass plates are plugged by lengthened foam strips 81, so that heat loss caused by convection among air is reduced. The front end of the connecting cavity 62 of the T-shaped cross-section structure extends into the gap between the glass plates beyond the abutting portions 111, 121, and in the transverse gap, the length of the elongated foam strips 81 in the front-rear direction covers the rear side of the gap between the glass plates, and in the vertical gap, the elongated foam strips 81 are also located between the side surfaces of the connecting cavity 62 and the side surfaces of the glass plates.

The above embodiments are merely examples of the present utility model, but the present utility model is not limited thereto, and any changes or modifications made by those skilled in the art are included in the scope of the present utility model.

It is noted that the terms "comprising" and "having" and any variations thereof in the description of the utility model and the claims and the foregoing drawings are intended to cover non-exclusive inclusions. The terms "mounted," "configured," "provided," "connected," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, it should be understood that the terms "one end," "another end," "outer side," "inner side," "horizontal," "end," "length," "outer end," "left," "right," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. The terms "first," "second," and the like, are also used for simplicity of description only and are not indicative or implying relative importance.

Furthermore, variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed utility model, from a study of the drawings, the disclosure, and the appended claims. Furthermore, in the claims, the specification, the words "comprise", "comprising", and the like do not exclude other elements or steps, and the non-plural terms do not exclude a plurality.

Claims (10)

1. The semi-unit horizontal hidden vertical glass curtain wall comprises a cross beam and a glass vertical line, and is characterized in that a keel system of the horizontal hidden vertical glass curtain wall is formed by splicing a semi-unit frame, wherein the semi-unit frame comprises a first semi-body upright post and a second semi-body upright post which are arranged at the left side and the right side of the semi-unit frame, and the cross beam is connected between the first semi-body upright post and the second semi-body upright post; the left and right adjacent half unit frames are spliced and combined through the adjacent first half stand column and the second half stand column, and the adjacent first half stand column and the adjacent second half stand column of the left and right adjacent half unit frames are combined in the shape of stand columns;

the left half unit frame and the right half unit frame are respectively connected with the embedded part through a connecting structure;

the front ends of the adjacent first half upright post and the second half upright post of the left-right adjacent half unit frame are respectively provided with a glass plate abutting part; the keel system is also provided with a connecting section bar, the connecting section bar is positioned in the front side of the upright post formed by splicing and combining, and the glass vertical pressing line is connected with the connecting section bar;

the upper side and the lower side of the front end of the cross beam are respectively provided with a hooking groove of the glass plate transverse auxiliary frame strip, and the hooking directions of the hooking grooves of the upper side and the lower side are in the same direction.

2. The half-unit horizontal hidden vertical glass curtain wall according to claim 1, wherein the connecting section is of a T-shaped cross-section structure and comprises a two-wing structure and a connecting cavity in the middle, the two-wing structure is clamped in grooves in the front of the first half-body upright post and the second half-body upright post, the bottoms of the two-wing structure are not connected with the first half-body upright post and the second half-body upright post through screws, and the glass vertical pressing line is connected with the front cavity wall of the connecting cavity through screws.

3. The glass curtain wall of claim 2, wherein the first half upright post and the second half upright post are provided with side clamping grooves at the back of the abutting part for clamping the two wing structures into position, and are connected with the cross beam through screws at the bottom wall of the clamping grooves, and the two wing structures are provided with bending parts for covering and yielding screw heads and increasing the strength of the clamping part of the two wing structures.

4. The glass curtain wall according to claim 1, wherein the hooking groove is a square groove with an opening facing the outside of the room, the front part of the hooking groove is provided with hooking groove walls, and the hooking groove walls of the hooking grooves on the upper side and the lower side of the cross beam are in the same direction.

5. The semi-unit horizontal hidden vertical glass curtain wall according to claim 1, wherein the abutting part is provided with a connecting groove of a flexible cushion, and the flexible cushion is positioned between the abutting part and the glass plate, is connected with the horizontal auxiliary frame strip, and is used for leveling the glass plate.

6. The glass curtain wall of claim 1, wherein the front and rear parts of the first half upright are provided with slots, the second half upright is provided with a plug, the plug is provided with a mounting slot for a buffer rubber strip, and the buffer rubber strip is arranged between the plug and the slot wall.

7. The half-unit horizontal hidden vertical glass curtain wall according to claim 1, wherein the upper end of the half-unit frame is connected with the embedded part through a connecting structure, and the lower end of the half-unit frame is spliced with the first half-body upright post and the second half-body upright post of the lower half-unit frame through inserting sheets; the first half upright post and the second half upright post are internally provided with an inserting sheet clamping groove.

8. The semi-unit cross hidden vertical transparent glass curtain wall according to claim 1, wherein the glass plate is of a three-glass two-cavity structure.

9. The semi-unit cross-hidden vertical glass curtain wall according to claim 2, wherein the front end of the connecting cavity of the T-shaped cross-section structure extends into the gap between the glass panels beyond the abutting portion, the gap between the glass panels is plugged with an elongated foam strip, the length of the elongated foam strip in the front-rear direction covers the rear side of the gap between the glass panels in the transverse gap, and the elongated foam strip is located between the side surface of the connecting cavity and the side surface of the glass panels in the vertical gap.

10. The half-unit horizontal hidden vertical glass curtain wall according to claim 1, wherein the length of the half-unit frame is matched with the height between two layers of main body structure beams, the upper end of the half-unit frame is connected with embedded parts on the upper layer of main body structure beams through a connecting structure, the lower end of the half-unit frame is connected with the lower half-unit frame through inserting sheets, and the lower half-unit frame is connected with the embedded parts on the lower layer of main body structure beams through a connecting structure.