CN222757726U - A simple installation structure for the sealing plate of an elevator lifting platform frame - Google Patents

Abstract

The utility model discloses a simple installation structure for a sealing plate of an elevator lifting platform frame, which is characterized in that it comprises two parallel arranged profile columns, a bayonet bracket connected between the profile columns, and a sealing plate matched with the profile columns and the bayonet bracket; the profile column is an angle steel structure, wherein the inner side of one edge of the angle steel is provided with a T-slot, and the end of the edge is provided with a through slot opened along the length direction; both ends of the bayonet bracket are provided with mounting holes corresponding to the T-slot, and a plurality of bayonet protrusions are provided along the length direction of the bayonet bracket; the sealing plate has an edge matched with the gap of the through slot in the profile column, and a buckle hole matched with the bayonet protrusion on the bayonet bracket. There is no need to consider the space at the rear side of the hoistway, and the entire frame sealing plate is all snap-fitted in the lifting platform, which is simple and convenient to operate, has a shock-absorbing effect, has a high degree of integration of all components, has a large structural strength, has a strong integrity of the rear side, and has a high aesthetics.

Description

Simple mounting structure for frame sealing plate of elevator lifting platform

Technical Field

The utility model relates to an elevator manufacturing technology, in particular to a simple mounting structure of an elevator lifting platform frame sealing plate.

Background

In elevator manufacturing installation, frequently meet the assembly problem of bounding wall, decorative board, these relate to safe, pleasing to the eye plate structure, common mainly inlay, cartridge, hang, magnetism inhale etc. assembly forms. If patent bulletin number is CNCN213569025U, a plug-and-hang elevator car decorative board, the car lateral wall is provided with the locating hole, the locating hole adopts big-end-up's tapering structure, the decorative board adopts monoblock or piecemeal concatenation to form, every decorative board includes the base plate and sets up the panel at the base plate front side, be provided with the built-in fitting of taking the end on the base plate, be provided with the screw hole on the built-in fitting, the combination pendant is installed to the screw hole, the combination pendant includes the bolt with screw hole assorted, install dish spring in proper order from front to back between bolt end and the base plate, gasket and rubber pad, the external diameter of dish spring is less than the size of locating hole upper end, and be greater than the size of locating hole lower extreme.

For the installation of these plate structures with car walls and the like as the basis, the embedded parts can be determined first and are not limited by the installation space, so the plate structure is relatively easy to handle.

For the household ladder with the lifting platform, in order to cover the equipment space at the rear side of the manned plane, the household ladder achieves an attractive effect, and the whole rear part is required to be covered by a panel. Generally, the rear side seal plates are most conveniently installed outside the elevator hoistway, but most household ladders have very limited rear side space and sometimes cannot be installed at all. In the existing treatment methods, the means of glass cement bonding, self-tapping screw fixing and the like are mostly adopted, so that the installation is time-consuming and labor-consuming, the overall effect of the installation in a narrow space is poor, and the crosspieces serving as the firm parts of the sealing plates are always exposed to the rear side, so that the aesthetic degree of the rear side is further poor.

Disclosure of Invention

The utility model aims to solve the problems, and provides a simple mounting structure of an elevator lifting platform frame sealing plate, which can be directly mounted in a man-carrying plane and equipment space, adopts a buckle type assembly mode, does not need to consider space limitation at the rear side of a hoistway, and has the characteristics of attractive appearance, low noise, high structural strength and the like, and tools such as a spanner are not needed in a narrow space.

The technical problem is mainly solved by the following technical scheme that the simple installation structure of the frame sealing plate of the elevator lifting platform is characterized by comprising two profile upright posts which are arranged in parallel, a bayonet bracket connected between the profile upright posts, and a sealing plate matched with the profile upright posts and the bayonet bracket.

The section bar stand is angle steel structure, and wherein the inboard on an limit of angle steel is equipped with T type groove, and this limit end portion is equipped with the logical groove of seting up along length direction simultaneously.

Mounting holes corresponding to the T-shaped grooves are formed in the two ends of the bayonet support, and a plurality of bayonet salient points are formed along the length direction of the bayonet support.

The sealing plate is provided with edges which are in clearance fit with the through grooves in the profile upright posts and buckling holes which are matched with the bayonet salient points on the bayonet brackets.

In the foregoing simple installation structure of an elevator lifting platform frame sealing plate, preferably, the profile upright is of an unequal angle steel structure, wherein the long side is adapted to the depth of the equipment room at the rear part of the elevator lifting platform.

In the foregoing simple mounting structure for an elevator lifting platform frame sealing plate, preferably, the bayonet supports are positioned inside two profile upright posts arranged in parallel, the bayonet supports have supporting edges deviating towards the outer sides of the profile upright posts, and the bayonet salient points at a plurality of positions are arranged on the supporting edges.

In the foregoing simple mounting structure for a frame sealing plate of an elevator lifting platform, preferably, a rubber strip is provided on the root of the bayonet bump on the support edge.

In the foregoing simple installation structure of an elevator lifting platform frame sealing plate, preferably, four sides of the sealing plate (103) are provided with folded edges, and corners are welded, wherein the folded edges corresponding to the profile upright posts are in clearance fit with through grooves in the profile upright posts, and buckling holes matched with bayonet protruding points are long holes.

In the foregoing simple mounting structure for a frame sealing plate of an elevator lifting platform, preferably, the bayonet support is an angle steel structure, wherein the supporting edge deviates towards the outer side of one side of the angle steel structure, the side where the mounting hole is located is parallel to the supporting edge, and the distance between the side where the mounting hole is located and the supporting edge is adapted to the position of the fastening hole in the sealing plate.

The technical scheme firstly designs a section bar stand column, or utilizes the section bar that has the installation requirement of this scheme now as the stand, because section bar itself can constitute assembly limit, the angle of high pleasing to the eye degree, and structural strength is higher, consequently, satisfies elevator elevating platform frame integrated strength and outward appearance requirement completely.

Secondly, based on two profile upright posts which are arranged in parallel, the height direction is connected and segmented through a bayonet bracket so as to meet the arrangement and installation of a plurality of sealing plates. The sealing plate is simultaneously connected with the profile upright post and the bayonet bracket in a matching way, so that conditions are created for high-strength combination into a whole after the assembly of the profile upright post and the bayonet bracket. And the bayonet bracket is positioned on the inner sides of the two profile upright posts which are arranged in parallel, so that the installation operation of all parts can be finished only on a manned plane of the lifting platform or between equipment, and the bayonet bracket has no relation with the size of a hoistway space.

Thirdly, the three parts of the device have simple structure and high strength, wherein the section bar upright post is of an angle steel structure, the T-shaped groove connected with the bayonet bracket and the through groove for inserting the sealing plate are arranged at the strip edge part of the section bar upright post, and a plurality of bayonet protruding points are arranged on the bayonet bracket except for the mounting holes corresponding to the T-shaped groove, so that the sealing plate can be positioned at multiple points and form a mortise and tenon structure.

Fourth, to a side of the section bar stand, can make the width that suits with the depth of the back equipment of the lift platform according to the actual situation, namely need not to carry on other auxiliary panel configurations again in both sides of the equipment. As the bayonet support with the strip-shaped structure, the angle-shaped body is preferable, and then the support edge deviating towards the outer side of the profile upright post is provided, so that multiple bending is formed, and the bearing and bending strength of the bayonet support are greatly improved. In the same way, the four sides of the sealing plate are also subjected to metal plate flanging and the diagonal parts are welded, and the stamping and other processes can be performed in the plane of the sealing plate, so that the strength and the attractiveness are improved.

Fifthly, rubber strips are arranged at the root parts of the supporting edges, which are clung to the bayonet salient points, so that after each sealing plate is inserted, buffering and cushion supporting are achieved, and the noise reduction effect is achieved.

Compared with the prior art, the utility model has the beneficial effects that the whole frame sealing plate is installed in the lifting platform in a buckling manner without considering the space at the rear side of the well, the operation is simple and convenient, the damping effect is achieved, the integration level of all parts is high, the structural strength is high, the integrity of the rear side is strong, and the attractive degree is high.

Drawings

Fig. 1 is a floor plan of an elevator landing of the present utility model.

Fig. 2 is a schematic view of a frame sealing plate according to the present utility model.

Fig. 3 is a schematic view of a partial enlarged structure at M in fig. 2.

Fig. 4 is a schematic view of a bayonet mount according to the present utility model.

Fig. 5 is a left side view of fig. 4.

Fig. 6 is a view of the sealing plate of the present utility model in mating relationship with a bayonet mount.

Fig. 7 is a schematic view of a partial enlarged structure at N in fig. 6. .

Fig. 8 is a schematic view of the structure of the present utility model during assembly.

In the figure, the frame sealing plate comprises a 1-frame sealing plate body, 101-section bar upright posts, 1011-T-shaped grooves, 1012-through grooves, 102-bayonet brackets, 1021-mounting holes, 1022-supporting edges, 1023-bayonet protruding points, 1024-rubber strips, 103-sealing plates, 2-equipment rooms and 3-lifting platform manned planes.

Detailed Description

The technical scheme of the utility model is further specifically described below through examples and with reference to the accompanying drawings.

The simple installation structure of the elevator lifting platform frame sealing plate is shown in fig. 1, the whole lifting platform comprises a lifting platform manned plane 3, an equipment room 2 is arranged at the rear side of the lifting platform manned plane 3, and three sides of the side part of the equipment room 2 are the frame sealing plate body 1.

The simple mounting structure of the frame sealing plate body 1 comprises three main components, namely two profile upright posts 101 which are arranged in parallel, a bayonet bracket 102 connected between the profile upright posts 101, and a sealing plate 103 matched with the profile upright posts 101 and the bayonet bracket 102, as shown in figure 2.

The profile upright 101 is of an unequal angle structure, wherein a T-shaped groove 1011 is formed on the inner side of one short side of the angle for placing a bolt, as shown in fig. 3, and a through groove 1012 formed along the length direction is formed on the edge end for inserting the sealing plate 103. The long side is matched with the depth of the equipment room 2 at the rear part of the elevator lifting platform, and the equipment room 2 can be completely covered.

The bayonet support 102 is basically shaped as an angle steel structure, as shown in fig. 4 and 5, mounting holes 1021 corresponding to the T-shaped slots 1011 are formed at two ends of the bayonet support for threading bolts, gaskets and nuts, a plurality of bayonet convex points 1023 are formed along the length direction of the bayonet support 102, the number of the bayonet convex points 1023 can be set according to the width of the sealing plate 103, and generally 3-5 positions are formed. Specifically, the bayonet mount 102 is hemmed to have a support edge 1022 that is offset toward the outside of the profile post 101, where "outside" refers to one side in the hoistway direction, and a plurality of bayonet bumps 1023 are located on the support edge 1022. The edge of the mounting hole 1021 is parallel to the supporting edge 1022, and the distance between the edge of the mounting hole 1021 and the supporting edge 1022 is matched with the position of the fastening hole in the sealing plate 103. On the support edge 1022, a rubber strip 1024 is provided at the root portion that abuts the bayonet bumps 1023, the rubber strip 1024 abutting the mounting surface of the sealing plate 103 when the sealing plate 103 is in place.

Referring to fig. 6 and 7, the sealing plate 103 and the bayonet support 102 are mutually matched, the sealing plate 103 is rectangular plate-shaped, four sides of the sealing plate 103 are provided with equal-height folded edges, corners of the sealing plate are welded, the equal-height folded edges are in clearance fit with through grooves 1012 in the profile upright posts 101, buckling holes with the same number as that of bayonet convex points 1023 are arranged in the folded edge surfaces matched with the bayonet support 102, and the buckling holes are long holes.

According to the principle of the scheme, the number of the bayonet convex points 1023 can be determined according to the length of the bayonet convex points and the length of the buckling holes, and the bayonet convex points can be arranged from 1 to a plurality.

During installation, the profile upright posts 101 can be fixed in advance, bolts are sleeved in T-shaped grooves 1011 in the profile upright posts 101, bayonet supports 102 are positioned and fixed on the inner sides of two profile upright posts 101 which are arranged in parallel by the bolts, the positions of the bayonet supports 102 are determined by the size of a sealing plate 103, when the sealing plate is installed, the sealing plate 103 is slightly inclined and inserted into a through groove 1012 in the profile upright posts 101, then force is applied downwards from top to bottom to enable the sealing plate 103 to completely enter the through groove 1012, and finally, the fastening holes on the sealing plate 103 are all fastened into bayonet salient points 1023 by pressing, so that the installation of the sealing plate 103 is completed.

The above embodiments are illustrative of the present utility model, and not limiting, and any equivalent changes or equivalent modifications made according to the technical ideas of the present utility model still fall within the scope of the technical proposal of the present utility model without departing from the principle of the technical proposal.

Claims (6)

1. The simple mounting structure of the elevator lifting platform frame sealing plate is characterized by comprising two profile upright posts (101) which are arranged in parallel, a bayonet bracket (102) connected between the profile upright posts, and a sealing plate (103) matched with the profile upright posts and the bayonet bracket;

The profile upright post is of an angle steel structure, wherein the inner side of one side of the angle steel is provided with a T-shaped groove (1011), and the end part of the side is provided with a through groove (1012) which is arranged along the length direction;

Mounting holes (1021) corresponding to the T-shaped grooves are formed in the two ends of the bayonet support, and a plurality of bayonet salient points (1023) are formed along the length direction of the bayonet support;

The sealing plate is provided with edges which are in clearance fit with the through grooves in the profile upright posts and buckling holes which are matched with the bayonet salient points on the bayonet brackets.

2. The simple mounting structure of the frame sealing plate of the elevator lifting platform according to claim 1, wherein the profile upright post (101) is of an unequal angle steel structure, and the long side is matched with the depth of the equipment room (2) at the rear part of the elevator lifting platform.

3. The simple mounting structure of an elevator landing frame seal plate according to claim 1, characterized in that the bayonet mount (102) is positioned inside two profile uprights (101) arranged in parallel, the bayonet mount having a supporting edge (1022) deviating towards the outside of the profile uprights, on which supporting edge several bayonet bumps (1023) are arranged.

4. A simple mounting structure for a frame closure plate of an elevator landing as claimed in claim 3, wherein a rubber strip (1024) is provided on the support edge (1022) at the root of the bayonet bump (1023).

5. The simple mounting structure of the frame sealing plate of the elevator lifting platform according to claim 1, wherein four sides of the sealing plate (103) are provided with folded edges, corners are welded, the folded edges corresponding to the profile upright posts (101) are in clearance fit with through grooves in the profile upright posts, and buckling holes matched with the bayonet protruding points (1023) are long holes.

6. A simple mounting structure for a frame sealing plate of an elevator lifting platform according to claim 3, wherein the bayonet bracket (102) is an angle steel structure, wherein the supporting edge (1022) deviates towards the outer side of one side of the angle steel structure, the edge where the mounting hole (1021) is located is parallel to the supporting edge (1022), and the distance between the edge where the mounting hole is located and the supporting edge is adapted to the position of the buckling hole in the sealing plate (103).