CN211310473U - Elevator touch panel and elevator car - Google Patents

Abstract

The utility model discloses an elevator touch panel and elevator car, elevator touch panel includes: the inner frame is used for being installed on the surface of the inner wall of the elevator car and comprises a first notch; the outer frame is used for being arranged on the inner frame and comprises a second notch; the first glass panel is embedded into the second gap of the outer frame, and floor numbers are sequentially arranged on the surface, facing the inner frame, of the glass panel; the bracket is used for being installed at the first notch, and the plurality of induction type button modules are installed on the bracket; each induction type button module comprises at least one button, and the buttons are connected in parallel. Through the utility model discloses an elevator touch panel and elevator car including it can provide and change in the installation, and the design is nimble, and it is convenient to maintain, elevator touch panel and elevator car that moreover can reduce cost.

Description

Elevator touch panel and elevator car

Technical Field

The utility model relates to an automatic elevator field, more specifically relates to control panel in elevator car and the elevator car.

Background

Elevator touch panels are widely used in elevator cars due to their aesthetically pleasing, fashionable, rugged, and wear-resistant appearance. However, since the elevator touch panel generally needs to use the glass outer screen, and the manufacture of the glass outer screen and the manufacture of the buttons are separated, the buttons which are configured more flexibly are needed to meet the glass outer screens with different designs, so that the manufacturing and installation efficiency of the elevator touch panel is improved, and the production cost is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem by providing an elevator touch panel of novel design.

According to an aspect of the utility model, a provide an elevator touch panel, include:

the inner frame is used for being installed on the inner wall of the elevator car and comprises a first notch;

the outer frame is used for being arranged on the inner frame and comprises a second notch;

the first glass panel is embedded into the second gap of the outer frame, and floor numbers are sequentially arranged on the surface, facing the inner frame, of the glass panel;

a bracket for being mounted at the first notch,

a plurality of inductive button modules mounted to the bracket;

each induction type button module comprises at least one button, and the buttons are connected in parallel.

Preferably, the floor numbers on the first glass panel are arranged in rows or columns, the support comprises hollowed-out rows or columns corresponding to the rows or columns of floor numbers, the inductive buttons are arranged in modules in the whole rows or columns, and the buttons corresponding to the floor numbers in the last row or column that are less than the whole rows or columns are arranged in modules as a whole.

Preferably, the outer frame further comprises a fourth gap located below the second gap, and the elevator touch panel further comprises a second glass panel embedded in the fourth gap, wherein the second glass panel comprises a hole for installing a mechanical button.

Preferably, the mechanical button is an alarm button.

Preferably, the inner frame includes a third notch corresponding to the fourth notch for mounting a button on the second glass panel.

Preferably, the second glass panel can be further provided with a function touch button for opening the elevator door and closing the elevator.

Preferably, the first glass pane and the second glass pane may be provided integrally or separately.

Preferably, the number of floor numbers arranged in rows or columns is n, and the induction type button modules respectively comprise n induction type buttons, n-1 induction type buttons and n-2 induction type buttons 2 … 1.

Preferably, the induction button module comprising n induction buttons comprises an integrated circuit board, n separate backlight panels arranged in correspondence with the rows or columns of numbers on the first glass panel, all induction buttons sharing a power supply.

Preferably, the numbers on the first glass panel are printed by screen printing on the surface facing the inner frame.

According to the utility model discloses another aspect provides an elevator car, wherein, is provided with preceding on the inside inner wall surface elevator touch panel

Through the utility model discloses an elevator touch panel and elevator car including it can provide and change in the installation, and the design is nimble, and it is convenient to maintain, elevator touch panel and elevator car that moreover can reduce cost.

Drawings

Fig. 1 is a front view of a glass panel of an elevator touch panel according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a bracket having different inductive button modules mounted in the last row and the same inductive button modules mounted in the remaining rows of an elevator touch panel according to an embodiment of the present invention;

fig. 3 is a schematic diagram of various inductive button modules of an elevator touch panel according to an embodiment of the present invention;

fig. 4 is a view showing a sensing button module structure for an elevator touch panel according to an embodiment of the present invention;

fig. 5 is a front view showing an outer frame and an inner frame of an elevator touch panel according to an embodiment of the present invention; and

fig. 6 is a perspective view showing an exploded inner frame of an outer frame of an elevator touch panel according to an embodiment of the present invention.

Detailed Description

The principles of the present invention will be described below by way of examples of specific embodiments with reference to the accompanying drawings, to which the invention is not limited.

Fig. 1 is a front view of a glass panel of an elevator touch panel according to an embodiment of the present invention. The elevator touch panel generally comprises a glass panel 1 as shown in the figure, floor numbers are silk-screened on the upper surface of the glass panel, and sensing buttons corresponding to the floor numbers are arranged on the back surface side of the glass panel opposite to the front surface of the glass panel. In order to make the glass panel 1 durable, the floor numbers are usually screen printed on the back of the glass panel 1.

Fig. 2 is a schematic diagram of a last row of elevator touch panel's support that installs different response button modules, the same response button module of the other rows of installation according to the utility model discloses an embodiment. As shown in fig. 2, the bracket 2 includes a row of hollow parts corresponding to the floor numbers of the glass panel 1, and the hollow parts can be provided with the sensing button modules as required. According to the utility model discloses an elevator touch panel's response button is with module setting, as show in fig. 2, the response button module includes four button modules 6 including four response buttons that the width is the same width with the row of support 2, three button modules 5 including three response button that correspond with the last row of floor figure, two button modules 4 including two response buttons to and single button module 3 including single button. The type of the induction button module corresponding to the last row of floor numbers depends on the number of floors, as shown in a in fig. 2, the whole floor is 29 floors, four floor numbers in each row, the last row has one remaining floor number, using the single button module 3, as shown in b in fig. 2, the whole floor is 30 floors, as shown in each row with four floor numbers, the last row has two remaining floor numbers, using the double button module 4, as shown in c in fig. 2, the whole floor is 31 floors, the last row has three remaining floor numbers, using the three button module 5. Be provided with buckle spare on the support 2, can be fixed to support 2 with the response button module buckle for button module's installation and dismantlement are very convenient. Because the cooperation of support 2 and multiple button module is used, make according to the utility model discloses an elevator touch panel easily installs, and the design is nimble, and it is convenient to maintain, moreover can reduce cost.

The floor numbers of the elevator are not limited to four per row as shown in fig. 1 and 2, and may be set to n per row according to customer customization or actual needs, n being an integer greater than or equal to 1, e.g. three, five, etc., whereby by analogy, button modules may be provided which are modular with the whole row, as well as button modules comprising n-1 button numbers corresponding to the possible floor numbers of the last row. The button modules in each or the last row are also not limited to use with a full row of button modules or button modules corresponding to the number of buttons of the last row of possible floor numbers, but may be assembled using existing button module types. The buckle structure for fixedly mounting the button module on the bracket 2 can be a bendable or rotatable metal sheet, or a clamping groove, or any structure which can facilitate the fixed mounting of the button module on the bracket 2.

Fig. 3 is a schematic diagram of various inductive button modules of an elevator touch panel according to an embodiment of the present invention. The various button module types shown in fig. 2 are shown separately in fig. 3, with the illustrated embodiment including a single button module 3, a two button module 4, a three button module 5, and a four button module 6.

Fig. 4 is a view showing a sensing button module structure for an elevator touch panel according to an embodiment of the present invention. Fig. 4 shows a specific structure of the button module by taking the three-button module 5 as an example. The left side of the figure is a front view of the three-button module 5, the middle is a left side view of the three-button module 5, and the right side is a rear view of the three-button module 5. As can be seen, the three-button module 5 includes a circuit board 51, a sensor button 54 disposed on the circuit board 51, and a backlight panel 52 disposed above the sensor button 54. The sensor button 54 is a capacitance sensor button, when the user's hand touches the glass panel, the capacitance of the sensor button 54 is changed due to the difference between the human body medium and the air medium, and the circuit board 51 senses the capacitance change of the sensor button 54 to operate, so as to light the backlight panel 52 and control the operation of the elevator. As can also be seen in fig. 4, the sensor buttons 54 are arranged in parallel with each other, each sensor button 54 comprising a connection terminal 53, the connection terminals 53 being connected by leads to a common power supply and to the elevator control. The parallel arrangement of the sensing buttons 54 allows each sensing button 54 to operate independently of the other sensing buttons 54, and when one of them is damaged, does not affect the operation of the other sensing buttons 54.

Fig. 5 is a front view showing an outer frame and an inner frame of an elevator touch panel according to an embodiment of the present invention, and fig. 6 is a perspective view showing an outer frame and a disassembled inner frame of an elevator touch screen according to an embodiment of the present invention.

As shown in fig. 5 and 6, the inner frame 8 and the outer frame 7 of the touch panel for an elevator are shown, and each function key corresponding to the outer frame 7 is provided on the inner frame 8. The inner frame 8 comprises a first opening 81 (see fig. 6) in which the holder 2 with the example of the induction button module 6 is mounted. The bracket 2 is fixed to the inner frame 8 by screws or other fastening means. The inner frame 8 also comprises a third opening 82 (see fig. 6) in which a control 92 with a mechanical button is mounted, which, after assembly, protrudes through an opening 91 in the other glass panel 9 of the outer frame 7. A variety of other elevator control elements may also be provided on the inner frame 8, the other elevator control elements being the same as those commonly used in the art and not described in detail herein. The outer frame 7 is an outer panel of the touch panel of the elevator, and provides a control function and an attractive appearance. As can be seen, the outer frame 7 is provided with a plurality of functional areas, and the glass panel 1 is inserted in a second opening (not shown) of the outer frame 7, corresponding to the first opening 81 of the inner frame 8, for providing a floor selection function. It can also be seen that the outer frame 7 is further provided with another glass panel 9, which is embedded in a fourth opening (not shown) of the outer frame 7 and is provided with an opening 91 for installing a mechanical button, for example, a function button such as an alarm button, which can be provided in the form of a mechanical button to avoid confusion due to accidental touch. The fourth opening corresponds in position to the third opening 82 of the inner frame 8. Other touch function marks can be arranged on the other glass panel 9 to provide necessary elevator control functions.

With further reference to fig. 6, during assembly, the inner frame 8 is assembled first, the induction button module 6 is fixedly mounted to the bracket 2, then the bracket 2 with the induction button module 6 is mounted to the inner frame 8, the mechanical buttons 92 and other functional elements are also mounted to the inner frame 8, other elevator control functional elements are also mounted to the inner frame 8, then the inner frame is mounted to the inner wall of the elevator car, and finally the outer frame 7 inlaid with the glass panel 1 and the other glass panel 9 is covered outside the inner frame 8, thereby completing the assembly.

The inner frame 8, the outer frame 7 and the frame 2 may be made of metal or other suitable material.

It should be noted that the separate arrangement of the other glass panel 9 having the opening 91 from the glass panel 1 facilitates the processing of the respective glass panels, because the screen printing process of the glass panel 1 and the opening process of the other glass panel 9 cannot be performed in one process, that is, the manufacturing process needs to be performed in different places, and the separate arrangement is more advantageous for designing the processing and shortening the construction period. For this reason, other touch function marks on the other glass panel 9 may also be provided in the glass panel 1 shown in fig. 1 to facilitate the processing of the glass panel more.

While the best modes for carrying out the invention have been described in detail, those familiar with the art to which this invention relates will recognize various alternative designs and embodiments for practicing the invention within the scope of the invention.

Claims (11)

1. An elevator touch panel, comprising:

the inner frame is used for being installed on the inner wall of the elevator car and comprises a first notch;

the outer frame is used for being arranged on the inner frame and comprises a second notch;

the first glass panel is embedded into the second gap of the outer frame, and floor numbers are sequentially arranged on the surface, facing the inner frame, of the glass panel;

a bracket for being mounted at the first notch,

a plurality of inductive button modules mounted to the bracket;

each induction type button module comprises at least one button, and the buttons are connected in parallel.

2. The elevator touch panel according to claim 1, wherein the floor numbers on the first glass panel are arranged in rows or columns, the brackets comprise hollowed-out rows or columns corresponding to the rows or columns of floor numbers, the inductive buttons are arranged in whole rows or columns in modules, and the buttons corresponding to the floor numbers of the last row or column that are less than the whole rows or columns are arranged in whole modules.

3. The elevator touch panel according to claim 1, wherein the bezel further comprises a fourth notch below the second notch, the elevator touch panel further comprising a second glass panel for fitting into the fourth notch, the second glass panel comprising a hole for mounting the mechanical button.

4. The elevator touch panel of claim 3, wherein the mechanical button is an alarm button.

5. The elevator touch panel of claim 3, wherein the inner frame includes a third notch corresponding to the fourth notch for receiving a button on the second glass panel.

6. The elevator touch panel according to claim 3 or 4, wherein the second glass panel is further provided with a function touch button for opening the elevator door and closing the elevator.

7. The elevator touch panel according to any of claims 1-5, wherein the first glass panel and the second glass panel are integrally or separately disposed.

8. Elevator touch panel according to any one of claims 1-5, characterized in that the number of floor numbers arranged in rows or columns is n, and the inductive button modules comprise n, n-1, n-2 … 1 inductive buttons, respectively.

9. The elevator touch panel of claim 8, wherein the inductive button module comprising n inductive buttons comprises an integrated circuit board, n separate backlight panels disposed in correspondence with rows or columns of numbers on the first glass panel, all inductive buttons sharing a power source.

10. Elevator touch panel according to any one of claims 1-5, characterized in that the numbers on the first glass panel are printed by means of screen printing on the surface facing the inner frame.

11. Elevator car, characterized in that an inner wall surface is provided with an elevator touch panel according to any of claims 1-10.

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