CN213950278U - Glass coaming mounting structure suitable for home use elevator - Google Patents

Abstract

The utility model relates to a glass bounding wall mounting structure suitable for home use elevator, it is including well frame, glass bounding wall and bounding wall press fitting strip. The shaft frame is a sectional structure and is formed by assembling frame sections and cross-shaped connecting plates. For a single frame segment, the frame segment is formed by connecting transverse beams and longitudinal beams which are crisscrossed with each other. The cross connecting plate is connected between two adjacent frame sections, and wing plates of the cross connecting plate correspond to the longitudinal beams and the transverse beams one to one. The glass coaming is attached to the frame segment and is pressed and fixed by the coaming pressing strip. The surrounding plate press-fitting strip is formed by combining a press-fitting strip body and a rubber strip. The press fitting strip body is connected and fixed with the frame section in a buckling mode. Therefore, the mounting steps of the glass coaming are effectively simplified, and the time consumption of mounting and the labor intensity of workers are further reduced.

Description

Glass coaming mounting structure suitable for home use elevator

Technical Field

The utility model belongs to the technical field of home use elevator makes technique and specifically relates to a glass bounding wall mounting structure suitable for home use elevator.

Background

The elevator is arranged in the private villa to a great extent to facilitate the daily work of family members to go upstairs and downstairs, and most of villa elevators are in a sedan wall light type (namely, transparent glass coamings are adopted) at present, and have the advantages of good lighting, wide visual field and the like. In the prior art, the glass coaming installation process is generally as follows: when the glass coaming is placed in position relative to the hoistway frame, the glass coaming is pressed against by means of the press-fit strip. And a series of connecting through holes are formed along the length direction of the press-mounting strip, and the connecting with the elevator shaft frame is realized by means of fastening screws subsequently. Therefore, the time consumption is long in the installation process of the glass coaming, the installation efficiency is low, the labor intensity of installation workers is high, and the fatigue easiness of operation is greatly improved. Thus, a skilled person is urgently needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the above-mentioned problem that prior art exists, provide a structural design is simple, easy to carry out, and the better glass bounding wall mounting structure who is applicable to home use elevator of installation effectiveness.

In order to solve the technical problem, the utility model relates to a glass bounding wall mounting structure suitable for home use elevator, it includes well frame, glass bounding wall and bounding wall pressure equipment strip. The shaft frame is a sectional structure and is formed by assembling frame sections and cross-shaped connecting plates. For a single frame segment, the frame segment is formed by connecting transverse beams and longitudinal beams which are crisscrossed with each other. The cross connecting plate is connected between two adjacent frame sections, and wing plates of the cross connecting plate correspond to the longitudinal beams and the transverse beams one to one. The glass coaming is attached to the frame segment and is pressed and fixed by the coaming pressing strip. The surrounding plate press-fitting strip is formed by combining a press-fitting strip body and a rubber strip. The press fitting strip body is connected and fixed with the frame section in a buckling mode.

As the utility model discloses technical scheme's further improvement, along length direction, continue to outwards extend by the lateral wall of pressure equipment strip body and have the buckle limit, correspondingly along vertical roof beam the length direction of horizontal roof beam set up respectively with vertical bar draw-in groove, the horizontal bar draw-in groove of above-mentioned buckle limit looks adaptation.

As a further improvement of the technical scheme of the utility model, the glass coaming mounting structure suitable for the home use elevator still comprises a cross pressure increasing plate. The cross pressurizing plate is opposite to and attached to the cross connecting plate, and can be detachably connected with the cross connecting plate, so that the enclosing plate press-fitting strip is always pressed against the frame section.

As the utility model discloses technical scheme's further improvement, the mode that the buckle was preferably adopted to the rubber strip realizes with the fixed of pressure equipment strip body. Along length direction, continue inwards to extend by the inside wall of rubber strip and have T shape joint portion, correspondingly, offer the T shape draw-in groove with above-mentioned T shape joint looks adaptation along the length direction of pressure equipment strip body.

As the technical scheme of the utility model further improve, this glass bounding wall mounting structure suitable for home use elevator still is including guide rail bracket. The guide rail brackets are linearly arrayed along the length direction of the longitudinal beam and are detachably fixed on the longitudinal beam so as to support the guide rail. The guide rail bracket is of a split design structure and is formed by connecting an L-shaped plate and a special-shaped plate. The L-shaped plate is formed by connecting a fixing section and a first assembling section. The fixed section is detachably fixed on the longitudinal beam. The dysmorphism board is formed by second assembly section, first linkage segment, second linkage segment and guide rail installation section connected according to the preface, and wherein, first assembly section is laminated, is fixed with first assembly section. The guide rail installation section, the second connecting section and the first connecting section are connected in sequence to form a U-shaped structure, and the second assembling section is formed by continuously extending the first connecting section and flatly folding the first assembling section by 90 degrees.

As a further improvement of the technical solution of the present invention, the first assembling section is detachably coupled to the second assembling section by means of a bolt. The first assembling section and the second assembling section are respectively and correspondingly provided with a first kidney-shaped hole component and a second kidney-shaped hole component which are matched with the bolt. The first slotted hole assembly is formed by a plurality of first slotted holes which are parallel to each other. The second slotted hole assembly is formed by a plurality of second slotted holes which are parallel to each other. The first waist-shaped hole and the second waist-shaped hole are arranged in an inclined manner, and the inclined directions are opposite.

Compare in the glass bounding wall mounting structure who is applicable to home use elevator of traditional project organization the utility model discloses an among the technical scheme, the mode that the bounding wall pressure equipment strip that is used for pressing the glass bounding wall adopts the buckle realizes being connected, fixed with the well frame. When the glass coaming is placed in place relative to the shaft way frame, the coaming press-fitting strip is buckled on the shaft way frame, and finally the installation process of the glass coaming is finished. The fixing mode is very simple and convenient to operate, has high installation efficiency, effectively simplifies the installation steps, and reduces the labor intensity of installation workers.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of the glass panel mounting structure for a home elevator of the present invention.

Fig. 2 is an enlarged view of a portion I of fig. 1.

Fig. 3 is a schematic perspective view of a hoistway frame in a glass panel mounting structure for a home elevator.

Fig. 4 is a schematic perspective view of a cross-shaped connection plate in the hoistway frame of the present invention.

Fig. 5 is a schematic perspective view of a certain frame segment in the hoistway frame according to the present invention.

Fig. 6 is a partial enlarged view II of fig. 5.

Fig. 7 is an explosion diagram of the glass panel mounting structure for a home elevator according to the present invention.

Fig. 8 is a partially enlarged view III of fig. 7.

Fig. 9 is a schematic perspective view of a pressing strip for a glass panel in the mounting structure of a home elevator of the present invention.

Fig. 10 is a side view of fig. 5.

Fig. 11 is a sectional view a-a of fig. 10.

Fig. 12 is an enlarged view of a portion IV of fig. 11.

Fig. 13 is a schematic perspective view of a cross-shaped pressure increasing plate in the glass panel mounting structure of the home elevator of the present invention.

Fig. 14 is a schematic perspective view of a rail bracket in a glass panel mounting structure for a home elevator according to the present invention.

1-a hoistway frame; 11-frame segmentation; 111-transverse beam; 1111-transverse strip-shaped card slot; 112-longitudinal beam; 1121-longitudinal strip-shaped clamping groove; 12-a cross-shaped coupling plate; 2-glass coaming; 3-pressing the surrounding plate into strips; 31-pressing the strip body; 311-snap edge; 312-T shaped card slot; 32-rubber strips; 321-T-shaped clamping part; 4-a cross pressurizing plate; 5-a guide rail bracket; a 51-L shaped plate; 511-a stationary section; 512-a first assembly section; 5121-first lumbar aperture assembly; 52-a profiled sheet; 521-a second assembly section; 5211-a second kidney-shaped aperture assembly; 522-a first connection segment; 523-a second connecting segment; 524-guide rail mounting section.

Detailed Description

In order to facilitate the technical solution disclosed in the present invention to be fully understood by those skilled in the art, the following detailed description is made in conjunction with specific embodiments, and fig. 1 and fig. 2 respectively show a schematic perspective view of a glass panel mounting structure for a home elevator and a partial enlarged view of fig. I, which are mainly composed of a hoistway frame 1, a glass panel 2, and a panel press-fitting strip 3. Wherein the shaft frame 1 is designed as a segmented structure in order to facilitate its manufacture and transport. As shown in fig. 3, the hoistway frame 1 is assembled from a plurality of frame segments 11 and a plurality of cross coupling plates 12 (as shown in fig. 3, 4). For a single frame segment 11, it is formed by connecting criss-cross transverse beams 111 and longitudinal beams 112 (as shown in fig. 5). After the frame sections 11 have been transferred to the construction site they will then be docked in place in sequence by means of the cross-shaped coupling plates 12. And the longitudinal wing plates and the transverse wing plates of the cross-shaped connecting plate 12 are respectively in one-to-one correspondence with the longitudinal beams 112 and the transverse beams 111. The glass coaming 2 is attached to the frame section 11 and is pressed and fixed by the coaming press-fitting strip 3. It is emphasized here that the shroud press-fitting strip 3 is composed of a press-fitting strip body 31 and a rubber strip 32. The press fitting strip body 31 is connected and fixed with the frame segment 11 in a buckling mode. In this way, when the glass coaming 2 is positioned in place relative to the frame section 11, the coaming press-fitting strip 3 is snapped onto the frame section 11, and the process of mounting the glass coaming 2 is finally completed. The operation mode is very simple and convenient, has higher installation efficiency, effectively simplifies the installation steps of the glass coaming 2, and reduces the labor intensity of installation workers

In the actual design process, various design structures can be selected to realize the snap connection of the surrounding plate press-fitting strip 3 and the frame section 11. However, a preferred solution with a simple structure, easy manufacturing and implementation, and high snap stability is proposed herein, specifically as follows: along the length direction, a fastening edge 311 extends outwards (away from the car) from the outer side wall of the press-fitting strip body 31, and correspondingly, a longitudinal strip-shaped slot 1121 and a transverse strip-shaped slot 1111 (see fig. 5, 6, 9, 10, 11 and 12) which are matched with the fastening edge 311 are respectively arranged along the length direction of the longitudinal beam 112 and the transverse beam 111. After the frame sections 11 are butted in place, the glass coaming 2 is placed in place on the corresponding frame section 11, and then the coaming pressing strips 3 are clamped in sequence along the longitudinal strip-shaped clamping grooves 1121 and the transverse strip-shaped clamping grooves 1111.

It should be noted that, an avoiding notch (as shown in fig. 7, 8 and 9) is formed at the free end of the coaming press-fitting bar 3 to avoid interference with the cross-shaped connecting plate 12 during installation.

In order to ensure the buckling stability of the enclosing plate press-fitting strip 3 and the frame section 11, the phenomenon of 'groove shedding' caused by the action of the excited vibration force in the actual operation process of the elevator in the later period is avoided, and as further optimization of the technical scheme, the cross-shaped pressure increasing plate 4 can be additionally arranged on the glass enclosing plate mounting structure applicable to the home elevator according to the actual situation. The cross pressure increasing plate 4 is opposite to and abutted against the cross connecting plate 12, and is detachably connected with the cross connecting plate 12 so as to press the coaming press-fitting strip 3 against the frame section 11 all the time (as shown in fig. 2, 7, 8 and 13).

As a further optimization of the glass coaming mounting structure for the home elevator, the rubber strip 32 is preferably fixed to the press fitting strip body 31 by means of a snap, and the specific scheme is as follows: along the length direction, a T-shaped clamping portion 321 extends inwards from the inner side wall of the rubber strip 32, and correspondingly, a T-shaped clamping groove 312 (as shown in fig. 9) matched with the T-shaped clamping portion 321 is formed along the length direction of the press-fitting strip body 31. Therefore, on one hand, the coaming press-fitting strip 3 is also designed into a split structure, so that the production and the forming of the coaming press-fitting strip are convenient, and the production cost can be effectively reduced; on the other hand, the rubber strip 32 can enable the glass coaming 2 to be always stressed by elastic pressure after the installation is finished, and the glass coaming 2 is prevented from being stressed by rigid force and damaged by pressure.

As is known, with current designs, the hoistway frame supports the guide rails by means of guide rail brackets, so that the guide rails always stand inside the hoistway frame. The rail brackets are linearly arrayed along the length direction of the longitudinal beam and are detachably fixed on the longitudinal beam. However, in the prior art, the guide rail bracket is entirely U-shaped and is formed by connecting a fixing section, a cantilever section and a guide rail mounting section. The fixing section is vertically arranged and is provided with an installation through hole for a fastener to pass through so as to realize connection and fixation with the elevator shaft frame. The cantilever section is in a flat arrangement. The guide rail mounting section is also vertically arranged and is provided with a mounting through hole for the fastener to pass through so as to realize the connection and fixation with the guide rail. However, when the glass coaming is installed towards the elevator hoistway frame, the installation glass coaming is very easy to interfere with the guide rail bracket, and workers need to repair and cut the guide rail bracket on site, so that the overall structural strength of the guide rail bracket is reduced to a certain extent, the safety risk of elevator operation is increased, and the working strength of the workers is increased. In order to solve this problem, the design structure of the guide rail bracket 5 is optimized as follows: the guide rail bracket 5 is designed into a split design structure and is formed by connecting an L-shaped plate 51 and a special-shaped plate 52. The L-shaped plate 51 is formed by connecting a fixing section 511 and a first assembling section 512. The fixing segment 511 is detachably fixed to the longitudinal beam 112. The shaped plate 52 is formed by sequentially connecting a second assembling section 521, a first connecting section 522, a second connecting section 523 and a rail mounting section 524, wherein the first assembling section 521 is attached and fixed to the first assembling section 512. The rail mounting section 524, the second connecting section 523 and the first connecting section 522 are connected in sequence to form a u-shaped structure, and the second assembling section 521 extends from the first connecting section 522 and is folded at 90 ° in a flat manner (as shown in fig. 2 and 14). Therefore, on the premise of ensuring reliable and effective support of the guide rail, along the length extension direction of the guide rail mounting section 524, a height difference exists between the second assembling section 521 and the second connecting section 523, so that the glass coaming 2 is effectively avoided, and the phenomenon that the glass coaming 2 interferes with the guide rail bracket 5 in the mounting process is avoided.

As is known, the guide rail brackets 5 are inevitably misaligned along the height direction of the hoistway frame 1, thereby causing a guide rail "offset" or "overall torsion" phenomenon, and in view of this, the first mounting section 512 is preferably detachably coupled to the second mounting section 521 by means of bolts. The first and second mounting sections 512 and 521 are respectively provided with a first and second waist hole assemblies 5121 and 5211 adapted to the bolt. The first kidney hole assembly 5121 is formed of a plurality of first kidney holes parallel to each other. The second slotted hole assembly 5211 is formed of a plurality of second slotted holes that are parallel to each other. The first waist-shaped hole and the second waist-shaped hole are arranged obliquely and are opposite in inclination direction (as shown in fig. 14). In the process of installing the guide rail, the relative distance and the relative inclination between the L-shaped plate 51 and the special-shaped plate 52 can be adjusted according to actual conditions for a single guide rail bracket 5, so that the guide rail is effectively ensured to have good straightness after being installed, and the guide rail is favorable for ensuring that the guide rail occupies a correct relative position in the hoistway frame 1.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. A glass coaming mounting structure suitable for a household elevator is characterized by comprising a hoistway frame, a glass coaming and a coaming press-fitting strip; the shaft way frame is of a sectional structure and is formed by assembling frame sections and cross-shaped connecting plates; for a single frame segment, the frame segment is formed by connecting transverse beams and longitudinal beams which are crisscrossed; the cross connecting plate is connected between two adjacent frame sections, and wing plates of the cross connecting plate correspond to the longitudinal beams and the transverse beams one to one; the glass coaming is attached to the frame subsection, and is pressed and fixed by the coaming press-fitting strip; the surrounding plate press-mounting strip is formed by combining a press-mounting strip body and a rubber strip; the press fitting strip body is connected and fixed with the frame section in a buckling mode.

2. The mounting structure for a glass enclosure of a home elevator as set forth in claim 1, wherein a snap edge is extended from an outer side wall of the press-fitting strip body along a length direction, and a longitudinal strip-shaped snap groove and a transverse strip-shaped snap groove adapted to the snap edge are respectively formed along the length direction of the longitudinal beam and the transverse beam.

3. A glass panel mounting structure for a home elevator according to claim 2, further comprising a cross-shaped pressure increasing plate; the cross pressurizing plate is opposite to and attached to the cross connecting plate, and is detachably connected with the cross connecting plate, so that the coaming press-fitting strip is always pressed against the frame section.

4. The glass coaming mounting structure suitable for the home elevator as set forth in claim 1, wherein the rubber strip is fixed to the press-fitting strip body by means of a snap; along length direction, by the inside wall continuation inwards extension of rubber strip has T shape joint portion, correspondingly, along the length direction of pressure equipment strip body set up with T shape draw-in groove that T shape joint portion looks adaptation.

5. A glass panel mounting arrangement for a home elevator according to any one of claims 1 to 4, further including a guide rail bracket; the guide rail brackets are linearly arrayed along the length direction of the longitudinal beam and detachably fixed on the longitudinal beam so as to support the guide rail; the guide rail bracket is of a split design structure and is formed by connecting an L-shaped plate and a special-shaped plate; the L-shaped plate is formed by connecting a fixing section and a first assembling section; the fixed section is detachably fixed on the longitudinal beam; the special-shaped plate is formed by sequentially connecting a second assembling section, a first connecting section, a second connecting section and a guide rail mounting section, wherein the first assembling section is attached and fixed with the first assembling section; the guide rail installation section, the second connecting section and the first connecting section are sequentially connected to form a U-shaped structure, and the second assembling section is formed by continuously extending the first connecting section and flatly folding the first connecting section by 90 degrees.

6. A glass enclosure mounting arrangement for a home elevator according to claim 5, wherein the first mounting section is releasably coupled to the second mounting section by means of bolts; the first assembling section and the second assembling section are respectively and correspondingly provided with a first waist-shaped hole assembly and a second waist-shaped hole assembly which are matched with the bolt; the first waist-shaped hole component is composed of a plurality of first waist-shaped holes which are parallel to each other; the second waist-shaped hole component is composed of a plurality of second waist-shaped holes which are parallel to each other; the first waist-shaped hole and the second waist-shaped hole are arranged in an inclined manner, and the inclined directions are opposite.

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