CN220412527U

CN220412527U - Elevator mainboard mounting structure

Info

Publication number: CN220412527U
Application number: CN202321505274.7U
Authority: CN
Inventors: 赵海; 黎洪; 梁家星
Original assignee: Shenzhen Shengbangtai Technology Co ltd
Current assignee: Shenzhen Shengbangtai Technology Co ltd
Priority date: 2023-06-13
Filing date: 2023-06-13
Publication date: 2024-01-30
Anticipated expiration: 2033-06-13

Abstract

The utility model relates to an elevator main board mounting structure, which comprises a bottom plate, a first vertical plate and a second vertical plate, wherein the first vertical plate and the second vertical plate are oppositely arranged on the bottom plate; the position that is close to the second riser on the bottom plate is provided with the second spout that extends to the bottom plate center, and the second spout is located relatively between two first spouts, is equipped with the second slider in the second spout, is provided with the second card strip on the second slider, still is connected with the second spring between second slider and the second riser, and the screw rod is worn to be equipped with by the screw thread on the second riser, and the screw rod passes the second spring and is connected with the second slider, can adapt to not unidimensional elevator mainboard, and mounting structure is simple, has improved the installation to elevator mainboard, dismantles and change efficiency.

Description

Elevator mainboard mounting structure

Technical Field

The utility model relates to the technical field of elevator main board installation, in particular to an elevator main board installation structure.

Background

The elevator main board is a core control component of an elevator and generally comprises an elevator main control main board and an elevator outbound main board, wherein the elevator main control main board is arranged in an elevator main control box body, and the elevator outbound main board is arranged in an elevator car; while the elevator main control box is usually installed in the elevator machine room; due to the operation property of the elevator, maintenance and management must be performed regularly by professionals to ensure that the elevator can operate efficiently and stably and ensure normal running and safety of the elevator; especially in current elevator main control box, most still adopt traditional screw installation's mode, with elevator main control mainboard direct mount on the box wall of elevator main control box, the locating hole that presets on it often is with the elevator main control mainboard matched with that the size corresponds, hardly with not unidimensional elevator main control mainboard looks adaptation, when installing, dismantling and change elevator main control mainboard moreover, need spend more time, hold off the recovery operating time of elevator easily, lead to unable satisfying the elevator demand of taking advantage of user.

Disclosure of Invention

The utility model aims to solve the technical problem of providing an elevator main board mounting structure aiming at the defects in the prior art.

The technical scheme adopted for solving the technical problems is as follows: the elevator main board mounting structure comprises a bottom plate, a first vertical plate and a second vertical plate, wherein the first vertical plate and the second vertical plate are oppositely arranged on the bottom plate, two first sliding grooves extending towards the center of the bottom plate are respectively arranged on the bottom plate close to the first vertical plate, first sliding blocks are respectively arranged in the two first sliding grooves in a sliding manner, a first clamping strip used for clamping the elevator main board is arranged on the two first sliding blocks, and first springs are respectively connected between the two first sliding blocks and the first vertical plate; the position on the bottom plate, which is close to the second vertical plate, is provided with a second sliding groove extending towards the center of the bottom plate, the second sliding groove is relatively positioned between the two first sliding grooves, a second sliding block is arranged in the second sliding groove, a second clamping strip used for clamping the elevator main board is arranged on the second sliding block, a second spring is further connected between the second sliding block and the second vertical plate, a screw rod is further threaded on the second vertical plate, and the screw rod penetrates through the second spring to be connected with the second sliding block.

Preferably, a first L-shaped opening for clamping the elevator main board is formed in the first clamping strip, and the first L-shaped opening faces to the first sliding block; the second clamping strip is provided with a second L-shaped opening used for clamping the elevator main board, and the second L-shaped opening faces to the second sliding block; the first L-shaped opening is opposite to the second L-shaped opening.

Preferably, the upper end faces of the two first sliding blocks are provided with first grooves, the two first grooves are internally provided with third springs, the top ends of the two third springs are provided with first wedge blocks, and the two first wedge blocks are partially located in the two first grooves.

Preferably, the upper end face of the second sliding block is provided with a second groove, a fourth spring is arranged in the second groove, the top end of the fourth spring is provided with a second wedge block, and the second wedge block is partially positioned in the second groove.

Preferably, the inclined planes of the two first wedge-shaped blocks are upward and opposite to the second L-shaped openings; the upper end surfaces of the two first wedge-shaped blocks are both planes.

Preferably, the inclined surface of the second wedge-shaped block faces upwards and is opposite to the first L-shaped opening; the upper end face of the second wedge-shaped block is a plane.

Preferably, the heights of the two first sliding blocks are consistent with the height of the second sliding block.

Preferably, the heights of the two first sliding blocks are larger than the depths of the two first sliding grooves, and the height of the second sliding block is larger than the depth of the second sliding groove.

Preferably, the bottom plate is further provided with a plurality of positioning through holes.

The utility model has the beneficial effects that: compared with the prior art, the elevator main board mounting structure comprises a bottom plate, a first vertical plate and a second vertical plate, wherein the first clamping strip is moved through a first sliding groove, a first sliding block and a first spring; and through the position of second spout, second slider, second spring and screw adjustment location second card strip, can adapt to not unidimensional elevator mainboard, and mounting structure is simple, need not to additionally use tools such as screw and screwdriver to dismantle the elevator mainboard, has improved the efficiency to the installation of elevator mainboard, dismantlement and change.

Drawings

Fig. 1 is a schematic diagram of a front side view of an elevator motherboard mounting structure in an embodiment of the present utility model;

fig. 2 is a schematic front view of an elevator motherboard mounting structure in accordance with an embodiment of the present utility model;

in the figure, the name and the serial number are marked: a base plate-1; a first riser-2; a second riser-3; a first chute-11; a first slider-12; a first clamping strip-13; a first spring-14; a second chute-15; a second slider-16; a second clamping strip-17; a second spring-18; screw-19; a first L-shaped opening-131; a second L-shaped opening-171; a first groove-121; a third spring-122; a first wedge-block-123; a second groove-161; fourth spring-162; second wedge blocks-163; the through-hole-101 is located.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the following description will be made in detail with reference to the technical solutions in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by a worker of ordinary skill in the art based on the embodiments of the utility model without undue effort, are within the scope of the utility model. Furthermore, directional terms, such as "upper", "lower", "inner", "outer", etc., in the present utility model are merely referring to the directions of the attached drawings, and are used for better and more clear description and understanding of the present utility model, and do not indicate or imply a necessary orientation of the present utility model, and thus should not be construed as limiting the present utility model.

The embodiment of the utility model is shown in fig. 1 and 2, and the elevator main board mounting structure comprises a bottom board 1, a first vertical board 2 and a second vertical board 3, wherein the first vertical board 2 and the second vertical board 3 are oppositely arranged on the bottom board 1, two first sliding grooves 11 extending towards the center of the bottom board 1 are respectively arranged at positions, close to the first vertical board 2, on the bottom board 1, of the bottom board 1, a first sliding block 12 is arranged in each of the two first sliding grooves 11 in a sliding manner, a first clamping strip 13 which is used for clamping the elevator main board is arranged on the two first sliding blocks 12, and a first spring 14 is respectively connected between the two first sliding blocks 12 and the first vertical board 2; the position on the bottom plate 1, which is close to the second vertical plate 3, is provided with a second sliding groove 15 extending towards the center of the bottom plate 1, the second sliding groove 15 is relatively positioned between the two first sliding grooves 11, a second sliding block 16 is arranged in the second sliding groove 15, a second clamping strip 17 used for clamping the elevator main board is arranged on the second sliding block 16, a second spring 18 is further connected between the second sliding block 16 and the second vertical plate 3, a screw 19 is further threaded on the second vertical plate 3, and the screw 19 passes through the second spring 18 and is connected with the second sliding block 16.

In the embodiment of the present utility model, as shown in fig. 1 and 2, the right ends of the two first springs 14 are respectively fixed on the left side walls of the two first sliders 12, and the left ends of the two first springs 14 are respectively fixed on the right side walls of the first risers 2; wherein, the two first sliding grooves 11 are parallel to each other, the two first springs 14 are also parallel to each other, when the elevator main board is installed, two opposite side ends of the elevator main board are correspondingly clamped into the first clamping strip 13 and the second clamping strip 17, and the two opposite side ends are left side end and right side end; when the elevator main board is installed, the relative position of the second sliding block 16 is adjusted through the screw 19, and then the first clamping strip 13 and the second clamping strip 17 relatively clamp the elevator main board under the action of the elastic force of the two first springs 14; to accommodate elevator motherboards of different sizes.

In order to facilitate the clamping of the elevator main board into the first clamping strip 13 and the second clamping strip 17, as shown in fig. 1 and 2, the first clamping strip 13 is provided with a first L-shaped opening 131 for clamping the elevator main board, and the first L-shaped opening 131 faces the first sliding block 12; the second clamping strip 17 is provided with a second L-shaped opening 171 for clamping the elevator main board, and the second L-shaped opening 171 faces the second sliding block 16; the first L-shaped opening 131 and the second L-shaped opening 171 are opposite.

Further, as shown in fig. 2, the upper end surfaces of the two first sliders 12 are respectively provided with a first groove 121, the two first grooves 121 are respectively provided with a third spring 122, the top ends of the two third springs 122 are respectively provided with a first wedge-shaped block 123, and the two first wedge-shaped blocks 123 are respectively positioned in the first grooves 121; for example, a portion of the lower end of the first wedge-shaped block 123 connected to the third spring 122 is located in the first groove 121, and the upper end of the first wedge-shaped block 123 protrudes from the first groove 121 and is located in the first L-shaped opening 131; similarly, a second groove 161 is formed in the upper end face of the second slider 16, a fourth spring 162 is arranged in the second groove 161, a second wedge block 163 is arranged at the top end of the fourth spring 162, and the second wedge block 163 is partially positioned in the second groove 161; for example, a portion of the lower end of the second wedge 163 connected to the fourth spring 162 is located in the second groove 161, and the upper end of the second wedge 163 protrudes from the second groove 161 and is located in the second L-shaped opening 171.

Wherein, the inclined surfaces of the two first wedge-shaped blocks 123 face upwards and are opposite to the second L-shaped openings 171; the upper end surfaces of the two first wedge-shaped blocks 123 are plane surfaces; the second wedge 163 faces upward and is opposite to the first L-shaped opening 131; the upper end surface of the second wedge block 163 is a plane; when the left side end and the right side end of the elevator main board are correspondingly clamped into the first L-shaped opening 131 and the second L-shaped opening 171, as the two first wedge-shaped blocks 123 and the second wedge-shaped blocks 163 are respectively provided with inclined planes, the resistance of the elevator main board during clamping is reduced, so that the elevator main board can be easily clamped into the first L-shaped opening 131 and the second L-shaped opening 171; and because the up end of two first wedge 123 and second wedge 163 are the plane, when the elevator mainboard card is in place, the up end of two first wedge 123 and second wedge 163 support tightly and laminate with the bottom face of elevator mainboard respectively, and at this moment, the top face of elevator mainboard supports tightly and laminate with the interior top surface of first L shape opening 131 and second L shape opening 171 respectively, under the effect of two third springs 122 and fourth springs 162, makes the elevator mainboard by the firm more stable of clamp.

Further, in the embodiment of the present utility model shown in fig. 1 and 2, the heights of the two first sliders 12 are consistent with the height of the second slider 16, so as to ensure the installation stability; wherein, make the degree of depth that highly is greater than two first spouts 11 of two first sliders 12, the degree of depth that highly is greater than the second spout 15 of second slider 16 is formed with the passageway between elevator mainboard and bottom plate 1 when installing the elevator mainboard in place, is favorable to the heat dissipation of elevator mainboard, and then can also set up heat dissipation device such as fan etc. in this passageway department for play better radiating effect to the elevator mainboard, guaranteed the normal operating of elevator mainboard.

Before the elevator main board is installed by adopting the elevator main board installation structure of the embodiment of the utility model, the bottom board 1 provided with the structure is fixed in the elevator main box, so that the elevator main board installation structure is shown in fig. 1, a plurality of positioning through holes 101 are further formed in the bottom board 1, corresponding positions for installing the structure, such as the inner bottom wall of the box body, are reserved in the elevator main box, a plurality of threaded holes are formed in the inner bottom wall of the box body, the bottom board 1 is fixed on the inner bottom wall of the box body in advance through the matching of a plurality of screws and the screws of the positioning through holes 101, and when the elevator main board is installed subsequently, the elevator main board can be installed by adopting the installation structure, so that the elevator main board installation structure not only can adapt to elevator main boards with different sizes, but also has a simple installation structure and is convenient for installing, disassembling and replacing the elevator main board, and the efficiency of installing, disassembling and replacing is greatly improved.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims

1. An elevator mainboard mounting structure, its characterized in that: the elevator comprises a bottom plate, a first vertical plate and a second vertical plate, wherein the first vertical plate and the second vertical plate are oppositely arranged on the bottom plate, two first sliding grooves extending towards the center of the bottom plate are respectively arranged at positions, close to the first vertical plate, on the bottom plate, of the bottom plate, first sliding blocks are respectively arranged in the two first sliding grooves in a sliding manner, a first clamping strip used for clamping an elevator main board is arranged on the two first sliding blocks, and first springs are respectively connected between the two first sliding blocks and the first vertical plate; the position on the bottom plate, which is close to the second vertical plate, is provided with a second sliding groove extending towards the center of the bottom plate, the second sliding groove is relatively positioned between the two first sliding grooves, a second sliding block is arranged in the second sliding groove, a second clamping strip used for clamping the elevator main board is arranged on the second sliding block, a second spring is further connected between the second sliding block and the second vertical plate, a screw rod is further threaded on the second vertical plate, and the screw rod penetrates through the second spring to be connected with the second sliding block.

2. The elevator motherboard mounting structure of claim 1, wherein: the first clamping strip is provided with a first L-shaped opening used for clamping the elevator main board, and the first L-shaped opening faces to the first sliding block; the second clamping strip is provided with a second L-shaped opening used for clamping the elevator main board, and the second L-shaped opening faces to the second sliding block; the first L-shaped opening is opposite to the second L-shaped opening.

3. The elevator motherboard mounting structure of claim 2, wherein: the upper end faces of the two first sliding blocks are respectively provided with a first groove, the two first grooves are respectively internally provided with a third spring, the top ends of the two third springs are respectively provided with a first wedge-shaped block, and the two first wedge-shaped blocks are respectively and partially positioned in the two first grooves.

4. The elevator motherboard mounting structure of claim 3, wherein: the upper end face of the second sliding block is provided with a second groove, a fourth spring is arranged in the second groove, the top end of the fourth spring is provided with a second wedge block, and the second wedge block is partially located in the second groove.

5. The elevator motherboard mounting structure of claim 4, wherein: the inclined surfaces of the two first wedge-shaped blocks face upwards and are opposite to the second L-shaped opening; the upper end surfaces of the two first wedge-shaped blocks are both planes.

6. The elevator motherboard mounting structure of claim 5, wherein: the inclined surface of the second wedge-shaped block faces upwards and is opposite to the first L-shaped opening; the upper end face of the second wedge-shaped block is a plane.

7. The elevator motherboard mounting structure of claim 1, wherein: the heights of the two first sliding blocks are consistent with the height of the second sliding block.

8. The elevator motherboard mounting structure of claim 7, wherein: the heights of the two first sliding blocks are larger than the depths of the two first sliding grooves, and the height of the second sliding block is larger than the depth of the second sliding groove.

9. The elevator motherboard mounting structure of claim 1, wherein: and a plurality of positioning through holes are also formed in the bottom plate.