CN220618017U - Air imaging elevator terminal installation assembly structure - Google Patents

Abstract

The utility model relates to an air imaging elevator terminal installation assembly structure which comprises an installation shell, a back plate, a Chinese character 'ri' shaped partition plate, a fixed box and a circuit board, wherein the fixed box comprises a frame, a frame plate, a lead wire port, a limiting plate, a wire arranging mechanism and a fixing plate mechanism.

Description

Air imaging elevator terminal installation assembly structure

Technical Field

The utility model relates to the technical field of aerial imaging equipment for elevator calls, in particular to an aerial imaging elevator terminal installation assembly structure.

Background

The air imaging zero-contact elevator control equipment is characterized in that the principle of reflection projection and three-dimensional imaging is utilized, so that a user can click in the air for use, the building can be selected when in non-contact, the use frequency is high, the space is narrow, ventilation is unsmooth, bacteria are easy to remain, cross infection is formed, an air imaging elevator terminal is installed on a shell box body to form an assembly, and the elevator is convenient to install rapidly and seamlessly and carry for exhibition use.

The prior patent with the publication number of CN219448897U discloses an elevator control box which has no medium and can perform aerial imaging and can perform voice and gesture interaction, and comprises a shell; the optical panel is fixed in the shell, the protection cover plate which completely covers the shell opening is arranged on the side, close to the shell opening, of the optical panel, the overall structural design is reasonable, interaction can be completed only by a backlight plate with low cost when the holographic control box of the liquid crystal display screen is used relatively, the cost is low, and the floor prompting atmosphere lamp belt is convenient to use.

Based on the above situation, the inventor believes that when the elevator terminal equipment of our department is installed on the assembly shell structure, a certain space is often required for installing circuit boards and wires in the shell of the elevator terminal, after the assembly shell structure is installed in the elevator car, a certain electronic circuit installation space is also required between the assembly structure and the elevator, and when the installation space is in actual use, the circuit boards are more involved, the circuits are more complex, so that the reasonable installation and arrangement of the circuit boards in the assembly structure are difficult to perform at present, and the steps of an operator are complicated and time-consuming when the electronic boards are installed and removed, so the inventor proposes an improved elevator terminal installation assembly structure.

Disclosure of Invention

Based on the above description, the utility model provides an air imaging elevator terminal installation assembly structure to solve the technical problems.

The technical scheme for solving the technical problems is as follows: an air imaging elevator terminal installation assembly structure comprises an installation shell, a backboard, a Chinese character 'ri' -shaped partition board, a fixed box and a circuit board;

the front end of the mounting shell is provided with a physical key, a first holographic operation box and a second holographic operation box;

the back plate is fixedly arranged in the installation shell, the Chinese character 'ri' -shaped partition plates are fixedly arranged on the back plate at intervals, the adjacent Chinese character 'ri' -shaped partition plates are separated to form a first holographic operation box, a second holographic operation box and an installation space, the fixed box is fixedly arranged in the installation shell, and the circuit board is arranged on the fixed box;

the fixed box comprises a frame, a frame plate, a lead wire opening, a limiting plate, a wire arranging mechanism and a plate fixing mechanism, wherein the bottom of the frame plate is fixedly arranged in an installation shell, the left part and the right part of the frame plate are fixed with the frame plate, the lead wire opening is arranged at the side surface of the frame plate, which is close to the position of the frame plate, the upper part and the lower part of the lead wire opening are provided with the limiting plate, the bottom of the wire arranging mechanism is embedded and fixedly arranged on the limiting plate, and the plate fixing mechanism is arranged on the frame plate so as to fix the circuit board through the plate fixing mechanism.

On the basis of the technical scheme, the utility model can be improved as follows.

Further, the end part of the limiting plate is integrally fixed with the frame.

Further, reason line mechanism includes supporting shell, briquetting and spring, and the embedding of supporting shell outside is fixed in on the limiting plate, and briquetting top slidable mounting is on supporting shell, and the upper and lower part of spring carries out the rigid coupling with supporting shell and briquetting respectively.

Further, a pressing groove is formed in the bottom of the pressing block.

Further, the plate fixing mechanism comprises a support, a buckle plate and a torsion spring, wherein the bottom of the support is fixedly arranged on the frame plate, the buckle plate is rotationally connected with the frame plate, the torsion spring for helping the buckle plate to reset is arranged between the support and the buckle plate, and the bottom of the buckle plate is propped against the circuit board.

Further, the frame plate is provided with a shaft lever, the bottom of the buckle plate is rotatably arranged on the shaft lever, and the torsion spring is arranged on the shaft lever.

Compared with the prior art, the technical scheme of the application has the following beneficial technical effects:

the circuit board can be intensively installed in the fixed box, the circuit board is placed on the frame plate during installation, the circuit board can be pried through the bevel connection after moving into the frame plate, the pinch plate can be slightly overturned and then provided with elastic force through the torsion spring, the pinch plate can provide fastening force for the circuit board, the circuit board can be stably placed on the frame plate and is not easy to shift, the circuit board can be pulled out when the circuit board needs to be moved out, the whole operation step is quick and labor-saving, and the optimal utilization rate of the internal space of the shell assembly structure can be improved by the mode of intensively placing and installing the circuit board;

in addition, circuit board circuit can be along the swift wearing of lead wire mouth and put on the frame when the installation, and the circuit of inserting and establishing on the adjacent circuit board is mutually noninterfere, and the electric wire is pressed closely through the briquetting and can not shift easily, avoids the inside circuit winding disorder of shell, when needs shift out its circuit board, also can make its electric wire on it swiftly follow the lead wire mouth and shift out, improves convenient operation and avoid the installation space too chaotic.

Drawings

Fig. 1 is a schematic structural view of an installation assembly structure of an air imaging elevator terminal according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of the inside of the installation housing according to the embodiment of the present utility model;

FIG. 3 is a schematic structural view of a fixing case according to an embodiment of the present utility model;

FIG. 4 is a schematic diagram of a wire management mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic structural view of a plate fixing mechanism according to an embodiment of the present utility model;

fig. 6 is a schematic diagram of an assembly structure and an elevator wiring circuit in an embodiment of the utility model;

in the drawings, the list of components represented by the various numbers is as follows:

1. mounting a shell; 2. a back plate; 3. a Chinese character 'ri' shaped partition board; 4. a fixed box; 5. a circuit board; 11. an entity key; 12. a first holographic manipulation box; 13. a second holographic manipulation box; 14. a base; 41. a frame; 42. a frame plate; 43. a lead wire port; 44. a limiting plate; 45. a wire arranging mechanism; 421. a guide groove; 451. a support case; 452. briquetting; 453. a spring; 454. pressing a groove; 461. a support; 462. a buckle plate; 463. a torsion spring; 464. a shaft lever; 465. and (5) a bevel opening.

Detailed Description

In order to facilitate an understanding of the present application, a more complete description of the present application will now be provided with reference to the relevant figures. Examples of the present application are given in the accompanying drawings. This application may, however, be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

It will be understood that spatially relative terms, such as "under", "below", "beneath", "under", "above", "over" and the like, may be used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use and operation in addition to the orientation depicted in the figures.

As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," and/or the like, specify the presence of stated features, integers, steps, operations, elements, components, or groups thereof, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or groups thereof.

The embodiment of the utility model specifically provides an air imaging elevator terminal installation assembly structure, referring to fig. 1, 2 and 6, comprising an installation shell 1, a backboard 2, a Chinese character 'ri' shaped partition board 3, a fixing box 4 and a circuit board 5.

The bottom of the installation shell 1 is fixedly provided with a base 14, the front end of the installation shell 1 is provided with a physical key 11, a first holographic operation box 12 and a second holographic operation box 13, the front part of the installation shell 1 is of a transparent structure, the front part of the physical key 11 is embedded and arranged on the installation shell 1, the front end of the installation shell 1 is also provided with a display screen 15, the number of floors is prompted to a user through the display screen 15, and after the user selects the target number of floors through the first holographic operation box 12 and the second holographic operation box 13, the corresponding number of floors can be displayed through the display screen 15 in the elevator running process, so that the user can intuitively know the condition of the floors where the user is located;

when the method is implemented, the first holographic control box 12 is an outbound master control with a virtual digital keyboard, the second holographic control box 13 is an external control box with up-down buttons, and the virtual digital keyboard on the first holographic control box 12 is controlled to turn pages through the second holographic control box 13, so that the requirement of relative floor selection operation can be met after the elevator circuit is connected with the elevator circuit.

The backboard 2 is fixedly arranged in the installation shell 1, a circular hollowed-out hole 21 is formed in the backboard 2, and the rear end of the entity key 11 is fixedly arranged on the backboard 2 through the circular hollowed-out hole 21.

The solar-shaped partition plates 3 are fixedly arranged on the backboard 2 at intervals, the adjacent solar-shaped partition plates 3 are separated to form installation spaces of a first holographic operation box 12 and a second holographic operation box 13, the fixed box 4 is fixedly arranged in the installation shell 1, the circuit board 5 is arranged on the fixed box 4, and it is worth to be noted that the connection part of the backboard 2 and the display screen 15 is also provided with a hollowed-out hole, and the adjacent part of the backboard 2 and the first holographic operation box 12 and the second holographic operation box are also provided with hollowed-out holes (not shown in the figure) for fixing the first holographic operation box 12 and the second holographic operation box;

further, referring to fig. 3, the fixing box 4 includes a frame 41, a frame plate 42, lead openings 43, a limiting plate 44, a wire arranging mechanism 45 and a plate fixing mechanism, wherein the bottom of the frame 41 is fixedly installed in the installation housing 1, the left and right parts of the frame plate 42 are fixed with the frame 41, the lead openings 43 are arranged at the side surface of the frame 41 and are close to the frame plate 42, the number of the frame plate 42 is two or more, and the number of the lead openings 43 is matched with the frame plate 42;

wherein, the upper and lower portion of lead wire mouth 43 is provided with limiting plate 44, and limiting plate 44 tip and frame 41 are integrative fixed, and when circuit board 5 installs on frame board 42, circuit line body can insert to circuit board 5 in through lead wire mouth 43 from outside, can normally go up and down wire connection between the upper and lower adjacent circuit board 5 to this distinguishes outside and adjacent electric wire of inserting and establish, improves wiring order, conveniently carries out wiring and operation of taking out stitches.

Specifically, referring to fig. 3 and 4, the bottom of the wire arranging mechanism 45 is embedded and fixedly mounted on the limiting plate 44, the wire arranging mechanism 45 includes a supporting shell 451, a pressing block 452 and a spring 453, the outer side of the supporting shell 451 is embedded and fixed on the limiting plate 44, the limiting plate 44 is the limiting plate 44 located above the wire leading port 43, the bottom of the supporting shell 451 is embedded into the limiting plate 44 and extends out of the lower surface of the limiting plate 44, the top of the pressing block 452 of the limiting plate 44 is slidably mounted on the supporting shell 451, the upper and lower parts of the spring 453 are fixedly connected with the supporting shell 451 and the pressing block 452 respectively, so that when a wire moves into the lower part of the pressing block 452, the pressing block 452 can exert an attaching force on the wire through the spring 453, the wire displacement is avoided, the wire arrangement rationality and the wire stability in the mounting shell 1 are improved, and the wire disorder is avoided.

The number of the wire handling mechanisms 45 can be 1, two or more than two to meet the requirement of daily wiring.

Wherein, the pressure groove 454 has been seted up to briquetting 452 bottom to contact with the line body through pressure groove 454, improve the application of force and paste tight effect.

Further, referring to fig. 4, a board fixing mechanism is disposed on the frame plate 42 to fix the circuit board 5 by the board fixing mechanism, the board fixing mechanism includes a support 461, a buckle 462 and a torsion spring 463, the bottom of the support 461 is fixedly mounted on the frame plate 42, the buckle 462 is rotationally connected with the frame plate 42, the torsion spring 463 for helping the reset of the buckle 462 is disposed between the support 461 and the buckle 462, and the bottom of the buckle 462 is in contact with the circuit board 5.

The guide groove 421 is arranged on the frame plate 42, the left side and the right side of the circuit board 5 can slide into the frame plate 42 along the guide groove 421, and the circuit board 5 can move into the frame plate 42 and then apply force to the bottom of the buckle plate 462, so that the buckle plate 462 is pressed against the circuit board 5 through the torsion spring 463 after being overturned, the circuit board 5 is placed stably, and the circuit board 5 is directly pulled out from the frame plate 2 when the circuit board 5 needs to be moved out.

Wherein, the frame plate 42 is provided with a shaft 464, the bottom of the buckle 462 is rotatably mounted on the shaft 464, and the torsion spring 463 is mounted on the shaft 464 to meet the rotation and resetting requirements of the buckle 462.

Wherein, the end of the pinch plate 462 is provided with an inclined opening 465, and the circuit board 5 can apply force to the pinch plate 462 conveniently through the inclined opening 465, so as to pry the pinch plate 462 rapidly to press the circuit board 5.

The control mode of the utility model is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the supply of power also belongs to common knowledge in the art, and the utility model is mainly used for protecting a mechanical device, so the utility model does not explain the control mode and circuit connection in detail.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. An air imaging elevator terminal installation assembly structure which characterized in that: comprises a mounting shell (1), a back plate (2), a Chinese character 'ri' -shaped partition plate (3), a fixing box (4) and a circuit board (5);

the front end of the mounting shell (1) is provided with a physical key (11), a first holographic control box (12) and a second holographic control box (13);

the back plate (2) is fixedly arranged in the installation shell (1), the Chinese character 'ri' -shaped partition plates (3) are fixedly arranged on the back plate (2) at intervals, the adjacent Chinese character 'ri' -shaped partition plates (3) are separated to form installation spaces of a first holographic operation box (12) and a second holographic operation box (13), the fixed box (4) is fixedly arranged in the installation shell (1), and the circuit board (5) is arranged on the fixed box (4);

the fixed box (4) comprises a frame (41), a frame plate (42), a lead wire opening (43), a limiting plate (44), a wire arranging mechanism (45) and a plate fixing mechanism, wherein the bottom of the frame plate (41) is fixedly arranged in an installation shell (1), the left part and the right part of the frame plate (42) are fixed with the frame plate (41), the lead wire opening (43) is arranged at the side surface of the frame plate (41) and is close to the position of the frame plate (42), the limiting plate (44) is arranged at the upper part and the lower part of the lead wire opening (43), the bottom of the wire arranging mechanism (45) is embedded and fixedly arranged on the limiting plate (44), and the plate fixing mechanism is arranged on the frame plate (42) so as to fix the circuit board (5) through the plate fixing mechanism.

2. An air imaging elevator terminal mounting assembly according to claim 1, wherein the end of the limiting plate (44) is integrally secured to the frame (41).

3. The air imaging elevator terminal installation assembly structure according to claim 2, wherein the wire arranging mechanism (45) comprises a supporting shell (451), a pressing block (452) and a spring (453), the outer side of the supporting shell (451) is embedded and fixed on the limiting plate (44), the top of the pressing block (452) is slidably installed on the supporting shell (451), and the upper portion and the lower portion of the spring (453) are fixedly connected with the supporting shell (451) and the pressing block (452) respectively.

4. An air imaging elevator terminal mounting assembly according to claim 3, wherein the bottom of the press block (452) is provided with a pressing groove (454).

5. The air imaging elevator terminal installation assembly structure according to claim 1, wherein the plate fixing mechanism comprises a support (461), a buckle plate (462) and a torsion spring (463), the bottom of the support (461) is fixedly arranged on the frame plate (42), the buckle plate (462) is rotationally connected with the frame plate (42), the torsion spring (463) for helping the buckle plate (462) to reset is arranged between the support (461) and the buckle plate (462), and the bottom of the buckle plate (462) is abutted against the circuit board (5).

6. The air-imaging elevator terminal mounting assembly of claim 5, wherein the frame plate (42) is provided with a shaft (464), the bottom of the buckle (462) is rotatably mounted on the shaft (464), and the torsion spring (463) is mounted on the shaft (464).

7. An air imaging elevator terminal mounting assembly according to claim 5, wherein the gusset (462) is provided with a bevel (465) at an end thereof.