CN219992951U - Panorama floor glass small upright post corner mounting node structure - Google Patents

Abstract

The utility model relates to the technical field of door and window installation, in particular to a corner installation node structure of a small panoramic glass stand column, which comprises a first clamping groove piece and a second clamping groove piece which are installed on the ground, wherein the first clamping groove piece and the second clamping groove piece form a preset angle, a first window sash is clamped and installed in the first clamping groove piece, and a second window sash is clamped and installed in the second clamping groove piece; install first crossbeam and second crossbeam on the ceiling, the side of first crossbeam is provided with first fastener, and the side of second crossbeam is provided with the second fastener, and the top of first casement of first fastener block, the top of second casement of second fastener block. The window sash is fixed in a clamping manner at the upper part and a clamping manner at the lower part, so that the function of the traditional corner upright post is exerted, the cross-sectional area of the corner upright post can be reduced structurally, and the purpose of reducing visual field blocking is achieved.

Description

Panorama floor glass small upright post corner mounting node structure

Technical Field

The utility model relates to the technical field of door and window installation, in particular to a corner installation node structure of a small panoramic glass stand column.

Background

Panoramic glass is a modern design choice and can bring more natural light, spaciousness and attractiveness to indoor space. They are suitable for residential, commercial construction and public spaces, providing better visual experience and comfort for users.

In the existing panoramic floor glass installation process, large section bars are often adopted for manufacturing corner upright posts in corner processing, a part of glass weight is borne, restraint is provided for glass, displacement caused by wind pressure is resisted, wind load is dispersed on a frame, and however, the large section bars and the small upright posts bring barriers on view.

Disclosure of Invention

In order to avoid the blocking of the visual field caused by the large-section small upright post as much as possible, the utility model provides a corner mounting node structure of the panoramic glass small upright post.

The utility model provides a panoramic glass small upright post corner mounting node structure, which adopts the following technical scheme:

the utility model provides a panorama floor glass small column corner installation node structure, includes first clamping groove spare and the second clamping groove spare of installing subaerial, first clamping groove spare with the second clamping groove spare forms the default angle, the centre gripping is installed first casement in the first clamping groove spare, the centre gripping is installed the second casement in the second clamping groove spare;

install first crossbeam and second crossbeam on the ceiling, the side of first crossbeam is provided with first fastener, the side of second crossbeam is provided with the second fastener, first fastener block the top of first casement, the second fastener block the top of second casement.

Through adopting above-mentioned technical scheme, the clamping component who comprises first centre gripping groove spare and second centre gripping groove spare plays the effect of bearing first casement and second casement, the block subassembly that comprises first crossbeam, second crossbeam, first block spare and second block spare then is used for fixed first casement and second casement's effect, clamping component and block subassembly both provide the constraint for the casement in the lower part and the upper portion of casement respectively, has played the effect of traditional corner stand to can reduce the cross-sectional area of corner stand structurally, reach the purpose that reduces the visual field and stop.

Optionally, the corner intersection of first casement and second casement is provided with little stand, upper and lower parallel arrangement's corner crossbeam, little stand block first casement with the second casement, little stand is provided with the drawknot pole, the drawknot pole is used for the drawknot little stand with the corner crossbeam.

By adopting the technical scheme, the small upright post does not play a role in bearing the weight of window sashes at the corner position, and is only used as a connecting piece of the first window sashes and the second window sashes, when one of the window sashes bears the load generated by wind power, the load is transmitted to the clamping component and the clamping component, the wind power load is transmitted to the other window sashes through the small upright post, and the other window sashes provide a part of support for the other window sashes; the tie rod also serves to provide support in the event that the sash resists wind pressure.

Optionally, the components of a whole that can function independently of little stand is provided with first stand and second stand, first stand block first casement, the second stand block the second casement, first stand with the structure of second stand between the two is symmetrical along the amalgamation seam between the two, the drawknot pole drawknot the one end of little stand is provided with the drawknot head, first stand with the second stand set up with the concave position that the drawknot head corresponds.

By adopting the technical scheme, the installation error of the first window sash and the second window sash when the small upright posts are installed due to the installation error is avoided as much as possible. During installation, first stand and second stand are installed on first casement and second casement respectively, then after the installation step of centre gripping and block is accomplished to arbitrary one side casement, install the drawknot head concave position, and drawknot pole and corner crossbeam are connected the installation, accomplish another side casement installation at last, lock drawknot pole, accomplish the installation of little stand at last.

Optionally, a piece of the splice is arranged on the outer side of the splice between the first upright post and the second upright post.

Through adopting above-mentioned technical scheme, seal the amalgamation seam between first stand and the second stand, avoid outside dust and rainwater to enter into indoor through the amalgamation seam as far as possible, reduce indoor pollution, simultaneously, also avoid indoor air conditioning to leak through the amalgamation seam in summer, realize energy-conserving effect.

Optionally, a sealing layer is disposed at the top of the first clamping piece and the second clamping piece, and fills a gap between the first clamping piece and the second clamping piece and the ceiling.

By adopting the technical scheme, the sealing layer has the same effect as the joint strip, and the effect is not repeated here.

Optionally, the first clamping groove piece, the second clamping groove piece, the first clamping piece and the second clamping piece are provided with flexible clamping pieces in grooves, and the flexible clamping pieces wrap the first window sash and the second window sash in the grooves where the flexible clamping pieces are located.

Through adopting above-mentioned technical scheme, realize the flexible centre gripping to first casement and second casement, reduce because the uneven possibility that leads to the casement fracture damage of clamping force distribution, still increase frictional force simultaneously, make the casement more difficult not hard up or break away from.

Optionally, an elastic element is disposed between at least one of the first beam and the first engaging element, and between the second beam and the second engaging element.

By adopting the technical scheme, a deformation space is provided for the first window sash and the second window sash when bearing wind pressure, and the first window sash and the second window sash can be reset after being deformed under the elastic action of the elastic piece.

Optionally, the first beam and the second beam are provided with embedded parts, and the embedded parts comprise embedded plates and embedded bars arranged on the embedded plates.

Through adopting above-mentioned technical scheme, the mounting platform of pre-buried first crossbeam and second crossbeam reduces expansion bolts's use, avoids drilling to the greatest extent to the destruction of building body, and stable in structure can avoid falling to the ground glass in long-term use moreover, and wind vibration causes expansion bolts not hard up structural hidden danger.

In summary, the present utility model includes at least one of the following beneficial technical effects:

the window sashes are fixed in a clamping manner at the upper part and the lower part, so that the function of the traditional corner upright post is exerted, the cross-sectional area of the corner upright post can be reduced structurally, and the purpose of reducing visual field blocking is achieved.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present utility model;

FIG. 2 is a side view of the structure of an embodiment of the present utility model;

FIG. 3 is a cross-sectional view of the structure of the present utility model taken along the horizontal plane of the connection location of the tie bar and the small column;

fig. 4 is a cross-sectional view of the structure of the present utility model taken along the horizontal plane of the middle section of the small upright.

Reference numerals illustrate: 1. a first clamping groove member; 2. a second clamping groove member; 3. a first window sash; 4. a second window sash; 5. a flexible clip; 6. an embedded part; 7. embedding a plate; 8. embedding reinforcing steel bars; 9. installing a screw; 10. a first cross beam; 11. a second cross beam; 12. a first clamping piece; 13. a second clamping piece; 14. a connecting screw; 15. an elastic member; 16. a sealing layer; 17. a first upright; 18. a second upright; 19. a small upright post; 20. a drawknot head; 21. a drawknot rod; 22. a corner beam; 23. and (5) splicing pieces.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

Examples:

referring to fig. 1, a corner installation node structure of a panoramic glass small upright 19 comprises a first clamping groove piece 1 and a second clamping groove piece 2, wherein the first clamping groove piece 1 and the second clamping groove piece 2 are installed on the ground and are mutually perpendicular, the first clamping groove piece 1 clamps and installs a first window sash 3, the second clamping groove piece 2 is internally provided with a second window sash 4, the grooves of the first clamping groove piece 1 and the second clamping groove piece 2 are internally provided with flexible clamping pieces 5, and the flexible clamping pieces 5 wrap the bottoms of the first window sash 3 and the second window sash 4.

The first clamping groove member 1 and the second clamping groove member 2 provide support for the first sash 3 and the second sash 4, respectively, and secure the bottoms of the first sash 3 and the second sash 4, providing bottom restraint. The installation of the flexible clamping piece 5 converts the rigid clamping of the first clamping groove piece 1 and the second clamping groove piece 2 into flexible clamping, so that uneven point-type distributed clamping caused by processing errors of rigid materials is avoided as much as possible, full-fitting clamping is realized, the possibility that the first window sash 3 and the second window sash 4 are damaged due to uneven stress is reduced, in addition, the friction force is increased by flexible clamping, and the occurrence of looseness of the first window sash 3 and the second window sash 4 is reduced.

Referring to fig. 1-2, a corner installation node structure of a panoramic glass small upright 19 further comprises an embedded part 6 embedded in a ceiling, wherein the installation position of the embedded part 6 corresponds to the first clamping groove part 1 and the second clamping groove part 2, the embedded part 6 comprises an embedded plate 7 and embedded steel bars 8 integrally formed at the top of the embedded plate 7, the embedded steel bars 8 are connected with a floor steel bar framework in the embedded installation process, and are anchored with concrete after the floor pouring process is completed; the bottom integrated into one piece of pre-buried board 7 has installation screw rod 9, and pre-buried board 7 is installed first crossbeam 10 and second crossbeam 11 through installation screw rod 9.

The embedded part 6 provides a mounting platform for the first beam 10 and the second beam 11, so that the trouble of punching holes in the floor and mounting expansion bolts is avoided, the damage to the floor is reduced, and meanwhile, the hidden danger of loosening of the expansion bolts caused by wind power vibration of the whole panoramic glass is avoided.

Referring to fig. 1-2, a first clamping member 12 is installed at the inner side of the first cross beam 10, a second clamping member 13 is installed at the inner side of the second cross beam 11, the lower portion of the first clamping member 12 clamps the top of the first window sash 3, the lower portion of the second clamping member 13 clamps the top of the second window sash 4, flexible clamping pieces 5 are clamped in grooves of the first clamping member 12 and the second clamping member 13, the flexible clamping pieces 5 wrap the tops of the first window sash 3 and the second window sash 4, connecting screws 14 for correspondingly connecting the first cross beam 10 and the second cross beam 11 are penetrated at the upper portions of the first clamping member 12 and the second clamping member 13, and springs serving as elastic members 15 are penetrated at the connecting screws 14.

The first clamping piece 12 and the second clamping piece 13 respectively provide upper constraint for the first window sash 3 and the second window sash 4, and are matched with the first clamping groove piece 1 and the second clamping groove piece 2 at the lower part together, so that the function of a traditional corner upright post is exerted, the cross-sectional area of the corner upright post can be reduced structurally, and the purpose of reducing visual field blocking is achieved. The use of the elastic member 15 provides a deformation space for the first and second window sashes 3 and 4 when they are subjected to wind pressure, and the release of elastic potential energy stored by the elastic member 15 compression helps the first and second window sashes 3 and 4 recover.

Referring to fig. 1-2, heat insulation foam is installed at the top of the first clamping piece 12 and the second clamping piece 13 as a sealing layer 16, and the sealing layer 16 has the function of reducing the entry of rainwater and dust into a room from gaps between the first clamping piece 12 and the second clamping piece 13 and a ceiling, reducing the leakage of cold air and achieving the purpose of energy saving.

Referring to fig. 1, 3 and 4, a first pillar 17 and a second pillar 18 are respectively installed at one side where corners of the first window sash 3 and the second window sash 4 meet, structures of the first pillar 17 and the second pillar 18 are symmetrical with respect to a 45-degree line where corners of the first window sash 3 and the second window sash 4 meet, and the first pillar 17 is used as an illustration object to explain the structures of the first and second pillars. The first upright 17 is integrally formed in a shape of a section "], the first upright 17 is engaged with the first window sash 3 from the upper part, the side part and the lower part respectively, and the upper part and the lower part of the first upright 17 are provided with concave positions. The first upright 17 and the second upright 18 are spliced into a small upright 19, a drawknot head 20 is arranged at the concave position, a drawknot rod 21 extends inwards from the drawknot head 20, a corner cross beam 22 is arranged on the ground surface on the inner side of the corner intersection and the embedded plate 7, the drawknot rod 21 is in threaded connection with the corner cross beam 22, a split piece 23 is arranged at an outer split joint of the first upright 17 and the second upright 18, and the effect of the split piece 23 is the same as that of the sealing layer 16, and is not repeated here.

The small upright 19 acts as a connection for the first 3 and second 4 sashes in the corner position, wherein when one side of the sash is subjected to loads generated by wind, the loads are transferred to the clamping and clamping assemblies, and wind loads are transferred to the other side of the sash through the inclined surfaces of the first 17 and second 18 uprights, the other side of the sash providing a portion of the support for the other side of the sash.

The split arrangement of the small upright posts 19 is convenient for installation of installation personnel, avoids the situation that the installation errors of the first window sashes 3 and the second window sashes 4 cannot be aligned and clamped, and enables the split first upright posts 17 and second upright posts 18 to be closely connected into a whole again through the cooperation of the tie rod 21, the tie head 20 and the corner cross beam 22, so that the expected effect is exerted.

The working principle of the corner installation node structure of the small panoramic glass stand column 19 is as follows: the first window sash 3 and the second window sash 4 are fixed in a clamping manner at the lower part through the upper part clamping, so that the effect of the traditional corner upright post is exerted, the cross-sectional area of the corner upright post can be structurally reduced to form a small upright post 19, and the purpose of reducing visual field blocking is achieved.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides a panorama glass stand (19) corner installation node structure that falls to ground which characterized in that: the novel window comprises a first clamping groove piece (1) and a second clamping groove piece (2) which are arranged on the ground, wherein the first clamping groove piece (1) and the second clamping groove piece (2) form a preset angle, a first window sash (3) is clamped and arranged in the first clamping groove piece (1), and a second window sash (4) is clamped and arranged in the second clamping groove piece (2);

install first crossbeam (10) and second crossbeam (11) on the smallpox, the side of first crossbeam (10) is provided with first fastener (12), the side of second crossbeam (11) is provided with second fastener (13), first fastener (12) block the top of first casement (3), second fastener (13) block the top of second casement (4).

2. A panoramic glass small column (19) corner mounting node construction as defined in claim 1 wherein: the novel window comprises a first window sash (3) and a second window sash (4), wherein a small upright (19) and a corner beam (22) are arranged at the corner junction of the first window sash (3) and the second window sash (4), the small upright (19) is clamped with the first window sash (3) and the second window sash (4), a tie rod (21) is arranged on the small upright (19) and the corner beam (22), and the tie rod (21) is used for tying the small upright (19).

3. A panoramic glass small column (19) corner mounting node construction as defined in claim 2 wherein: the utility model discloses a small stand (19) components of a whole that can function independently is provided with first stand (17) and second stand (18), first stand (17) block first casement (3), second stand (18) block second casement (4), first stand (17) with the amalgamation seam between two is symmetrical along the structure of second stand (18), tie rod (21) tie the one end of small stand (19) is provided with tie head (20), first stand (17) with second stand (18) set up with the concave position that tie head (20) corresponds.

4. A panoramic glass small column (19) corner mounting node construction according to claim 3, characterized in that: and a joint piece (23) is arranged on the outer side of the joint between the first upright post (17) and the second upright post (18).

5. A panoramic glass small column (19) corner mounting node construction according to claim 3, characterized in that: the tops of the first clamping piece (12) and the second clamping piece (13) are provided with a sealing layer (16), and the sealing layer (16) fills a gap between the first clamping piece (12) and the second clamping piece (13) and a ceiling.

6. A panoramic glass small column (19) corner mounting node construction as defined in claim 1 wherein: the flexible clamping piece is characterized in that the first clamping groove piece (1), the second clamping groove piece (2), the first clamping piece (12) and the second clamping piece (13) are respectively provided with a flexible clamping piece (5) in the groove, and the flexible clamping pieces (5) wrap the first window sashes (3) and the second window sashes (4) in the groove.

7. A panoramic glass small column (19) corner mounting node construction as defined in claim 1 wherein: at least one of the first cross beam (10) and the first clamping piece (12) and the second cross beam (11) and the second clamping piece (13) is provided with an elastic piece (15).

8. A panoramic glass small column (19) corner mounting node construction as defined in claim 1 wherein: the embedded part (6) is arranged on the first cross beam (10) and the second cross beam (11), and the embedded part (6) comprises an embedded plate (7) and embedded bars (8) arranged on the embedded plate (7).