CN221027090U

CN221027090U - Adjustable medium plate monitoring device of heavy-duty escalator

Info

Publication number: CN221027090U
Application number: CN202323179023.7U
Authority: CN
Inventors: 干俊峰; 李玲玲
Original assignee: Canny Elevator Co Ltd
Current assignee: Canny Elevator Co Ltd
Priority date: 2023-11-24
Filing date: 2023-11-24
Publication date: 2024-05-28
Anticipated expiration: 2033-11-24

Abstract

The utility model relates to the technical field of medium plate monitoring components, in particular to an adjustable medium plate monitoring device of a heavy-duty escalator, which comprises an assembly bracket and a detection component; the assembly bracket is divided into a first assembly plate and a second assembly plate; the first assembling plate and the second assembling plate are respectively provided with a chute; the detection assembly comprises an auxiliary bracket, and a vertical long waist hole is formed in the auxiliary bracket; the auxiliary bracket is sequentially provided with an upper transverse plate, a middle transverse plate and a lower transverse plate from top to bottom, wherein the middle part of the auxiliary bracket is inserted with an assembly guide post, the periphery of the assembly guide post is loaded with an elastic piece, and the elastic piece is contacted between the middle transverse plate and the lower transverse plate; the side edge of the middle transverse plate is provided with a vertical plate, and a limit switch is externally connected to the same plane of the vertical plate; the technology is that an assembly bracket and a detection component are installed at middle plates at the upper part and the lower part of a truss, one end of the assembly bracket is fixed at an upper chord of the truss through a middle plate connecting plate, and the other end of the assembly bracket is installed through a chute and a middle plate detection component, so that the assembly bracket is safe and firm.

Description

Adjustable medium plate monitoring device of heavy-duty escalator

Technical Field

The utility model relates to the technical field of medium plate monitoring components, in particular to an adjustable medium plate monitoring device of a heavy-duty escalator.

Background

The edge plate is a supporting component between the floor plate and the steps of the escalator, so that passengers can smoothly transition between the floor plate and the moving steps. The existing back plate detection only carries out fault alarm on the loss of the back plate, but once the middle plate is overturned or lost, the escalator cannot give an alarm, so that the safety of passengers is not comprehensively guaranteed, and the safety is low. Thus, there is a need to install a midplane monitoring device that is robust and changes its angle and orientation.

Disclosure of utility model

The utility model aims to overcome the defects of the prior art and provides a technical scheme capable of solving the problems.

An adjustable middle plate monitoring device of a heavy-duty escalator comprises an assembly bracket and a detection assembly; the assembly bracket is divided into a first assembly plate and a second assembly plate, the plane of the first assembly plate is vertical to the plane of the second assembly plate, and the side edges of the first assembly plate are connected with the side edges of the second assembly plate through intermediate sectional materials; the first assembling plate and the second assembling plate are respectively provided with a chute; the detection assembly comprises an auxiliary bracket, wherein a vertical long waist hole is formed in the auxiliary bracket, and screws are inserted between the vertical long waist hole and the sliding groove in a matched mode; the auxiliary bracket is sequentially provided with an upper transverse plate, a middle transverse plate and a lower transverse plate from top to bottom, wherein the middle parts of the upper transverse plate, the middle folded plate and the lower transverse plate are penetrated with an assembly guide post, the periphery of the assembly guide post is loaded with an elastic piece, and the elastic piece is contacted between the middle transverse plate and the lower transverse plate; the side edge of the middle transverse plate is provided with a vertical plate, and the same plane of the vertical plate is externally connected with a limit switch.

Further, the auxiliary support is also provided with a transverse long waist hole, the limit switch is provided with a screw hole, and screws are inserted between the transverse long waist hole and the screw hole in a matching mode.

Further, the limit switch comprises a main body, a mechanical arm is arranged outside the end part of the main body, one end part of the mechanical arm is connected with a main body rotating shaft, and the other end part of the mechanical arm is provided with a rotating wheel joint.

Further, the intermediate section is arc-shaped.

Further, the main body is also provided with a telescopic rod, and the end part of the telescopic rod is connected with the middle part of the mechanical arm in a joint way.

The beneficial effects of the utility model are as follows: the assembly bracket and the detection assembly are installed at the middle plates at the upper part and the lower part of the truss, one end of the assembly bracket is fixed at the upper chord of the truss through a middle plate connecting plate, and the other end of the assembly bracket is installed through a chute and the middle plate detection assembly, so that the assembly bracket is safe and firm; the sliding groove of the bracket and the long waist hole of the detection assembly can be freely adjusted in position.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of the assembled escalator of the present utility model.

Fig. 3 is a schematic view of an assembled bracket structure.

Fig. 4 is a schematic diagram of a limit switch structure.

The figures in the drawings are respectively:

The device comprises an assembly bracket-1, a detection component-2, a first assembly plate-101, a second assembly plate-102, a middle section bar-103, a chute-104, an auxiliary bracket-201, a vertical long waist hole-202, an upper transverse plate-203, a middle transverse plate-204, a lower transverse plate-205, an assembly guide post-206, an elastic piece-207, a vertical plate-208, a limit switch-209, a transverse long waist hole-210, a main body-211, a mechanical arm-212 and a rotating wheel joint-213.

Detailed Description

The following description of the technical solutions in the embodiments of the present utility model will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 4, the device comprises an assembly bracket 1 and a detection component 2; the assembly bracket 1 is divided into a first assembly plate 101 and a second assembly plate 102, the plane of the first assembly plate 101 is vertical to the plane of the second assembly plate 102, and the side edges of the first assembly plate 101 and the side edges of the second assembly plate 102 are connected through an intermediate section 103; the first assembling plate 101 and the second assembling plate 102 are respectively provided with a chute 104; the detection assembly 2 comprises an auxiliary support 201, wherein a vertical long waist hole 202 is formed in the auxiliary support 201, and screws are inserted between the vertical long waist hole 202 and the sliding groove 104 in a matched mode; the auxiliary bracket 201 is sequentially provided with an upper transverse plate 203, a middle transverse plate 204 and a lower transverse plate 205 from top to bottom, wherein an assembly guide post 206 is inserted in the middle of the upper transverse plate 203, the middle folded plate and the lower transverse plate 205, an elastic piece 207 is loaded at the periphery of the assembly guide post 206, and the elastic piece 207 is contacted between the middle transverse plate 204 and the lower transverse plate 205; the side edge of the middle transverse plate 204 is provided with a vertical plate 208, and a limit switch 209 is externally connected to the same plane of the vertical plate 208.

The assembly is mainly used for being assembled on an escalator structure, the assembly bracket 1 comprises a first assembly plate 101 and a second assembly plate 102, the plane of the first assembly plate 101 and the plane of the second assembly plate 102 are perpendicular to each other, and the first assembly plate 101 and the second assembly plate 102 are connected through an arc-shaped middle section bar 103.

For the first assembling plate 101, the sliding groove 104 on the first assembling plate can be assembled on the middle plate of the escalator, the sliding groove 104 on the second assembling plate 102 is used for assembling the detecting assembly 2, the vertical long waist hole 202 on the detecting assembly 2 is matched with the sliding groove 104 to be used as a fixing, and the first assembling plate 101 and the middle plate of the escalator are assembled in the same way, so that the structure is simple, and the position is freely adjusted through the design of the long waist hole.

For the design of the auxiliary support 201, an upper transverse plate 203, a middle transverse plate 204 and a lower transverse plate 205 are sequentially arranged from top to bottom, an assembly guide post 206 is inserted in the middle of the upper transverse plate 203, the middle folded plate and the lower transverse plate 205, an elastic piece 207 is loaded at the periphery of the assembly guide post 206, the elastic piece 207 is contacted between the middle transverse plate 204 and the lower transverse plate 205, one end of the assembly guide post 206 is safe and firm when being further installed on other parts of the escalator through assembly, and the other end of the assembly guide post 206 can be used for fixing other parts.

An elastic piece 207 is loaded at the periphery of the assembly guide post 206, the elastic piece 207 is contacted between the middle transverse plate 204 and the lower transverse plate 205, a vertical plate 208 is loaded at the side edge of the middle transverse plate 204, a limit switch 209 is externally connected to the same plane of the vertical plate 208, after the assembly with the escalator is completed, once the middle plate is lost and overturned, the assembly bracket 1 synchronously moves, the elastic piece 207 on the auxiliary bracket 201 presses the middle transverse plate 204, the limit switch 209 is synchronously moved, the escalator immediately stops, and the safety is high.

For the design of limit switch 209, limit switch 209 includes main part 211, and the main part 211 tip outside is equipped with arm 212, and arm 212 one end is connected with main part 211 pivot, and arm 212 other end is equipped with runner joint 213, promptly when riser 208 receives elastic component 207 pressure, can drive arm 212 rotation to runner joint 213 on the mechanical table contacts the contact, thereby realizes limit switch 209 work.

The main body 211 is also provided with a telescopic rod, the end part of the telescopic rod is articulated with the middle part of the mechanical arm 212, and a user stabilizes the assembly of the mechanical arm 212 and the main body 211.

Meanwhile, the auxiliary support 201 is further provided with a transverse long waist hole 210, the limit switch 209 is provided with a screw hole, and screws are inserted between the transverse long waist hole 210 and the screw hole in a matching mode, and the design is mainly used for adjusting the position of the limit switch 209, so that the whole support and the escalator are conveniently assembled, and the escalator is conveniently detected.

The present utility model is not limited to the preferred embodiments, but is intended to be limited to the following description, and any modifications, equivalent changes and variations in light of the above-described embodiments will be apparent to those skilled in the art without departing from the scope of the present utility model.

Claims

1. An adjustable medium plate monitoring device of heavy-duty escalator, its characterized in that: comprises an assembly bracket (1) and a detection component (2);

The assembly bracket (1) is divided into a first assembly plate (101) and a second assembly plate (102), the plane of the first assembly plate (101) and the plane of the second assembly plate (102) are perpendicular to each other, and the side edges of the first assembly plate (101) and the side edges of the second assembly plate (102) are connected through an intermediate section bar (103);

The first assembling plate (101) and the second assembling plate (102) are respectively provided with a chute (104);

The detection assembly (2) comprises an auxiliary support (201), wherein a vertical long waist hole (202) is formed in the auxiliary support (201), and screws are inserted between the vertical long waist hole (202) and the sliding groove (104) in a matching mode;

The auxiliary support (201) is sequentially provided with an upper transverse plate (203), a middle transverse plate (204) and a lower transverse plate (205) from top to bottom, an assembly guide post (206) is inserted in the middle of the upper transverse plate (203), the middle folded plate and the lower transverse plate (205), an elastic piece (207) is loaded at the periphery of the assembly guide post (206), and the elastic piece (207) is contacted between the middle transverse plate (204) and the lower transverse plate (205);

The side edge of the middle transverse plate (204) is provided with a vertical plate (208), and a limit switch (209) is externally connected at the same plane of the vertical plate (208).

2. The adjustable medium plate monitoring device for heavy duty escalator of claim 1, wherein: the auxiliary support (201) is also provided with a transverse long waist hole (210), the limit switch (209) is provided with a screw hole, and screws are inserted between the transverse long waist hole (210) and the screw hole in a matching way.

3. The adjustable medium plate monitoring device for heavy duty escalator of claim 1, wherein: the limit switch (209) comprises a main body (211), a mechanical arm (212) is arranged outside the end part of the main body (211), one end part of the mechanical arm (212) is connected with a rotating shaft of the main body (211), and the other end part of the mechanical arm (212) is provided with a rotating wheel joint (213).

4. The adjustable medium plate monitoring device for heavy duty escalator of claim 1, wherein: the intermediate section (103) is arc-shaped.