CN221073947U - Concealed heavy sliding door and window structure - Google Patents

Abstract

The utility model discloses a hidden heavy sliding door and window structure, which comprises glass, a guide rail section bar and a supporting sliding seat, wherein the guide rail section bar is formed with a containing sliding cavity with an upper opening structure, the supporting sliding seat is integrally formed with a sliding part which is embedded in the containing sliding cavity in a sliding way and a supporting part which is exposed above the containing sliding cavity and is connected with the bottom end part of the glass, and a sealing cover plate for covering the sliding part is arranged at the upper opening position of the containing sliding cavity; therefore, the load of the door and window can be improved, and part of the frame is hidden, so that the whole door and window is light, thin and attractive.

Description

Concealed heavy sliding door and window structure

Technical Field

The utility model relates to the technical field of doors and windows, in particular to a hidden heavy sliding door and window structure.

Background

The sliding door and window has the advantages of good sealing performance, high daylighting performance and the like, and is widely applied to the field of constructional engineering. However, in the existing sliding door and window structural design, the guide rail and the roller structure are directly exposed in the visual field space, and the area of the door and window frame is large, so that the visual area of the door and window glass is reduced, and the visual field of the door and window is influenced; and most of sliding doors and windows in the market only depend on the roller to bear the stress, the whole structure of the door and window is low in load weight, and the sliding door and window cannot be applied to heavy sliding doors and windows with large-size and heavy-weight daylighting glass.

Disclosure of utility model

The utility model aims to overcome the defects of the prior art and provide a hidden heavy sliding door and window structure, which greatly improves the load of the door and window through a guide rail profile, an integrated supporting sliding seat and a sealing cover plate; meanwhile, part of the frame is hidden, so that the field of vision of the door and window is increased; thereby improving the safety in use and the overall aesthetic degree of the door and window.

In order to achieve the above purpose, the hidden heavy-duty sliding door and window structure provided by the utility model comprises glass, a guide rail profile and a supporting sliding seat, wherein the guide rail profile is formed with a containing sliding cavity with an upper opening structure, the supporting sliding seat is integrally formed with a sliding part which is embedded in the containing sliding cavity in a sliding way and a supporting part which is exposed above the containing sliding cavity and is connected with the bottom end of the glass, and a sealing cover plate for covering the sliding part is arranged at the upper opening position of the containing sliding cavity.

Further, the support sliding seat is further integrally formed with a support bridge connected with the top end of the sliding part and the bottom end of the supporting part respectively, wherein the sealing cover plate is provided with a through hole for the support bridge to vertically penetrate.

Further, a guide rail seat extending along the length direction of the guide rail section bar is arranged in the accommodating sliding cavity, and a supporting sliding rail for sliding fit of the sliding part is arranged on the guide rail seat.

Further, two parallel support sliding rails which are respectively used for the sliding fit of the two pulley modules preset at the bottom of the sliding part are arranged on the guide rail seat.

Further, two mounting grooves for respectively embedding the preset two pulley modules are formed in the bottom end of the sliding part.

Further, the top surface shaping of supporting part has the support caulking groove that supplies glass bottom end to inlay the fit, wherein, be equipped with joint strip between two inside walls of support caulking groove and the glass bottom end.

Further, the bottom surface of the supporting part is provided with at least one first caulking groove for embedding the water bar.

Further, the sealing cover plate is respectively provided with a second caulking groove for inserting the sealing strip at two sides of the through hole.

The technical scheme has the beneficial effects that the guide rail profile is hidden in the ground in advance and then is connected with the glass through the integrally formed supporting sliding seat, so that the supporting effect on the glass is improved, and the integral bearing stress of the door and window structure is improved; meanwhile, the sealing cover plate is utilized to shield part of the frame below the through hole, so that a visual hiding effect is achieved, and the whole door and window is light, thin and attractive.

Drawings

Fig. 1 is a schematic structural view of a hidden heavy sliding door and window structure of the present utility model.

Fig. 2 is a partial enlarged view of a in fig. 1.

Fig. 3 is a schematic diagram of the arrangement of two doors and windows in a practical application scenario of the present utility model.

Wherein 1-glass, 2-guide rail section bar, 21-containing sliding cavity, 210-upper opening, 211-guide rail seat, 212-supporting sliding rail, 22-clamping groove, 23-left section bar, 24-heat insulation bar, 25-right section bar, 3-supporting sliding seat, 31-sliding part, 311-mounting groove, 32-supporting bridges, 33-supporting parts, 331-supporting caulking grooves, 332-first caulking grooves, 4-sealing cover plates, 41-through holes, 42-second caulking grooves, 43-shielding parts, 44-clamping blocks, 5-sealing rubber strips, 6-water retaining strips, 7-sealing strips and 8-limit sliding seats.

Detailed Description

In order that the utility model may be understood more fully, the utility model will be described with reference to the accompanying drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1 to 2, a hidden heavy sliding door and window structure in this embodiment includes a glass 1, a limit slide 8 connected to the top end of the glass 1, a support slide 3 supported by the bottom end of the glass 1, and a rail profile 2 connected to and supported by the support slide 3. Wherein, glass 1 top embedding is in spacing caulking groove of the fashioned bottom surface of spacing slide 8 to be equipped with the joint strip 5 that is used for strengthening the fixed action between two inside walls of spacing caulking groove and glass 1 top.

In this embodiment, the guide rail section bar 2 may be an integral structure with an upper opening 210 formed at the top end to accommodate the sliding cavity 21, or may be a split structure in which two sides of the heat insulation strip 24 are respectively clamped between a left section bar 23 and a right section bar 25 which are oppositely arranged to form a concave shape, where the concave is used as the accommodating sliding cavity 21, and the split structure can form a "bridge-cut" ("bridge-cut" is a forming process belonging to the common knowledge of those skilled in the art, and is not repeatedly described herein) to achieve good heat insulation and sound insulation effects.

In the present embodiment, the support slider 3 includes a sliding portion 31 slidably fitted in the accommodating slide chamber 21, a support portion 33 connected to the bottom end portion of the glass 1 exposed above the accommodating slide chamber 21, and a support bridge 32 connected to the top end of the sliding portion 31 and the bottom end of the support portion 33, respectively. Wherein, the bottom end of the glass 1 is embedded in a supporting caulking groove 331 formed on the top surface of the supporting part 33, the supporting sliding seat 3 is propped against the bottom end of the glass 1 to play a role in supporting the glass 1, and sealing rubber strips 5 for strengthening the fixing effect are arranged between the two inner side walls of the supporting caulking groove 331 and the bottom end of the glass 1; further, the supporting slide seat 3 is integrally formed, so that the self bearing can be improved, and the supporting effect of the supporting slide seat 3 on the glass 1 is enhanced.

Specifically, a guide rail seat 211 extending along the length direction of the guide rail section bar 2 is arranged in the accommodating slide cavity 21 of the guide rail section bar 2, and at least one supporting slide rail 212 extending along the length direction of the guide rail section bar 2 is arranged on the guide rail seat 211; a pulley module is embedded in a mounting groove 311 formed at the bottom end of the sliding part 31, and can roll on the upper end surface of the support slide rail 212, and the pulley module and the support slide rail are matched in a sliding way so that the sliding part 31 relatively slides in the accommodating slide cavity 21 to drive the glass 1 to synchronously act; wherein, support slide rail 212 adopts the protruding rail, and pulley module adopts the trough of belt pulley with protruding rail looks adaptation, can avoid the pulley module to shift effectively, the sliding fit between support slide rail 212 and the pulley module of being more convenient for.

Further, the number of the supporting rails 212 and the pulley modules is set according to actual production requirements, two parallel supporting rails 212 are arranged on the guide rail seat 211 in the embodiment, and two mounting grooves 311 for respectively embedding the two preset pulley modules are formed in a corresponding integrated manner on the sliding part 31; the sliding portion 31 is simultaneously matched with the two supporting sliding rails 212, so that the supporting effect of the supporting sliding seat 3 on the glass 1 is further enhanced.

When the glass door is used, the guide rail profile 2 is hidden under the ground in advance in a sinking or embedding mode, and then the integrally formed support sliding seat 3 and glass 1 are installed, so that the connection between a door and window structure and the ground can be increased, the overall bearing stress is greatly improved, the glass 1 is supported strongly, and the door and window load is strong; therefore, even if the glass 1 in the embodiment adopts the heavy glass 1 such as the hollow glass 1, the toughened glass 1 and the like, the glass 1 can be stably supported, the falling off is avoided, and the use safety of doors and windows is ensured.

For aesthetic reasons, a very narrow window/door frame is visually produced, and in this embodiment, at least one sealing cover 4 is provided at the upper opening 210 of the rail profile 2 for covering the sliding part 31, for waterproofing and dust protection. The sealing cover 4 may be hinged to the guide rail profile 2, but for convenience of installation, the sealing cover 4 in this embodiment is clamped to the guide rail profile 2. Specifically, a clamping block 44 is formed at the bottom end of the sealing cover plate 4, and clamping grooves 22 for clamping the clamping block 44 are correspondingly formed at two sides of the periphery of the upper opening 210 of the guide rail profile 2; one side of the sealing cover plate 4 is extended to form shielding parts 43, two sealing covers which are oppositely arranged are respectively clamped in clamping grooves 22 on two sides of the guide rail profile 2 during installation, and each shielding part 43 is placed towards the supporting bridge 32. More specifically, a gap is reserved between the two shielding parts 43 to form a through hole 41 for the supporting bridge 32 to vertically penetrate, at least one first caulking groove 332 is formed on the bottom surface of the supporting part 33, the top ends of the water blocking strips 6 are embedded in the first caulking groove 332, the bottom ends of the water blocking strips 6 extend to the shielding parts 43 in a suspending manner, and water and dust can be effectively prevented from entering the containing sliding cavity 21 through the hole 41; second, a second caulking groove 42 is formed on two sides of the through hole 41 respectively, and the sealing strip 7 is inserted into the second caulking groove 42, so that the structural stress of the profile can be effectively prevented and enhanced.

Therefore, when the user looks at the door and window, the part of the frame below the via hole 41 is not visible to the user because it is covered by the sealing cover plate 4; the user can only see a small part of the frames of the supporting sliding seat 3 and the limiting sliding seat 8, so that the extremely narrow visual effect of the door and window frames is achieved; further, when the upper end face of the sealing cover plate 4 is flush with the ground, the part of the frame is completely hidden in the vision, so that the best visual effect is achieved, and the whole door and window is lighter, thinner and more attractive.

Referring to fig. 3, in this embodiment, when two or more doors and windows are arranged in parallel, split guide rail profiles 2 may be used, where a receiving slide cavity 21 is formed on one guide rail profile 2, and each guide rail profile 2 is only matched with one supporting slide 3; as shown in fig. 3, an integrated guide rail profile 2 is adopted, at least two parallel containing sliding cavities 21 are formed on one guide rail profile 2, and each containing sliding cavity 21 is respectively provided with a sliding part 31 for sliding and embedding, so that the guide rail profile 2 is matched with two or more supporting sliding seats 3 at the same time; secondly, the two sides of the sealing cover plate 4 positioned between any two doors and windows are extended to form shielding parts 43; this approach is more convenient for saving production costs.

The above-described embodiments are merely preferred embodiments of the present utility model, and are not intended to limit the present utility model in any way. Any person skilled in the art, using the disclosure above, may make many more possible variations and modifications of the technical solution of the present utility model, or make many more modifications of the equivalent embodiments of the present utility model without departing from the scope of the technical solution of the present utility model. Therefore, all equivalent changes made according to the inventive concept are covered by the protection scope of the utility model without departing from the technical scheme of the utility model.

Claims (8)

1. A hidden heavy sliding door structure is characterized in that: including glass (1), guide rail section bar (2) and support slide (3), wherein, guide rail section bar (2) shaping has the smooth chamber (21) of holding of upper shed (210) structure, support slide (3) integrated into one piece has sliding portion (31) of slip dress in holding smooth chamber (21) and exposes to holding smooth chamber (21) top and be connected with glass (1) bottom supporting part (33), the upper shed (210) position that holds smooth chamber (21) is equipped with sealed apron (4) that cover sliding portion (31).

2. A hidden heavy duty sliding door and window structure according to claim 1, wherein: the support sliding seat (3) is further integrally formed with a support bridge (32) which is respectively connected with the top end of the sliding part (31) and the bottom end of the supporting part (33), wherein the sealing cover plate (4) is provided with a through hole (41) for the support bridge (32) to vertically penetrate.

3. A hidden heavy duty sliding door and window structure according to claim 1, wherein: a guide rail seat (211) extending along the length direction of the guide rail section bar (2) is arranged in the accommodating sliding cavity (21), and a supporting sliding rail (212) for sliding fit of the sliding part (31) is arranged on the guide rail seat (211).

4. A hidden heavy duty sliding door and window structure according to claim 3, wherein: two parallel support slide rails (212) which are respectively used for the sliding fit of two pulley modules preset at the bottom of the sliding part (31) are arranged on the guide rail seat (211).

5. The hidden heavy duty sliding door and window structure according to claim 4, wherein: two mounting grooves (311) for respectively embedding the preset two pulley modules are formed in the bottom end of the sliding part (31).

6. A hidden heavy duty sliding door and window structure according to claim 1, wherein: the top surface shaping of supporting part (33) has support caulking groove (331) that supplies glass (1) bottom to inlay the fit, wherein, be equipped with joint strip (5) between two inside walls of support caulking groove (331) and glass (1) bottom.

7. A hidden heavy duty sliding door and window structure according to claim 1, wherein: the bottom surface of the supporting part (33) is provided with at least one first caulking groove (332) for embedding the water bar (6).

8. A hidden heavy duty sliding door and window structure according to claim 1, wherein: the sealing cover plate (4) is respectively provided with a second caulking groove (42) for inserting the sealing strip (7) at two sides of the through hole (41).