CN204643413U - Elevator optical communication apparatus - Google Patents

Abstract

The utility model relates to a kind of elevator optical communication apparatus, particularly relates to elevator optical communication apparatus light communication Distance Shortened being become shortest distance, comprising: data transmitter; Data sink; Antenna; Light communication transmitter, is wiredly connected to described data sink, is arranged on the wall of elevator, transmits for described digital data converting is become light data; Optical communication receiver, elevator is the taking of passenger/descending stair when stopping, and in the position relative to described light communication transmitter, is arranged on described elevator, receives data according to wireless light communication from light communication transmitter; Controller, is wiredly connected to described optical communication receiver at control cabin, receives data and make it be transformed into image data from optical communication receiver; And telltale, be wiredly connected to described controller, receive image data from controller and show.

Description

Elevator optical communication apparatus

Technical field

The utility model relates to elevator optical communication apparatus, more particularly, light communication Distance Shortened is become the elevator optical communication apparatus of shortest distance.

Background technology

Along with at elevator interior, the example of the telltale specifically arranged for showing information on the top ceiling such as door or wall increases gradually, in order to the situation transmitting data and selective light communication externally to telltale also increases gradually.

Fig. 1 is the section-drawing of the elevator presenting this optical communication mode.In order to light communication, generally light communication transmitter 140 is set in the bottom surface of elevator, optical communication receiver 150 is set in the bottom surface of the elevator E relative to light communication transmitter.In this case, under the state that general elevator E touches the bottom as accompanying drawing, between transmitter 140 and receptor 150, realize data transmission by light communication, this data are generally shown at telltale M and passenger can see.

In this case, as shown in the figure, the light communication distance between transmitter and receptor is roughly more than the height of 1 layer of building or the average height of general adult man, and therefore the quality of light communication is lower.Communication distance is shorter, and the quality of light communication is better.Further, shaft bottom is provided with transmitter, and therefore transmitter is exposed to mixed and disorderly environment and makes the full dust of transmitter face area or foreign matter.Especially, elevator because of the lifting moving of elevator very frequent, the foreign matters such as dust are very many, and the degree that transmitter surface is covered by foreign matter is very serious.In this case, understand stray light communication and cannot correctly realize data transmission.

And, as shown in the figure, need by wire cable connection control device C and light communication transmitter 140, controller C comprises the computer being arranged on the Machine Room being positioned at elevator upper end, therefore the length of wire cable is very long, can produce some problems in the maintenance management and expense etc. of wire cable.

Utility model content

(technical matters that will solve)

The utility model proposes to solve the described problem points of traditional approach, and object is, makes light communication distance the shortest, makes communication quality remain best.

Further, light communication transmitter and receptor are configured in cleaner environment by the utility model, thus prevent dust and foreign matter interfere with communications.

Further, the utility model reduces the expense of setting and maintenance management by the length of the wire cable being connected to optical communication receiver being minimized.

(means of dealing with problems)

For reaching the purpose of this utility model, the utility model provides a kind of elevator optical communication apparatus, comprising:

Data transmitter 10, on the wall being arranged on elevator door front adjacent hall or top ceiling;

Data sink 30, after the Room pressure button cover 20 being arranged on building elevator, is wirelessly connected to described data transmitter 10, receives digital data from data transmitter;

Antenna 32, is built in described Room pressure button cover 20, is connected to data sink 30;

Light communication transmitter 40, is wiredly connected to described data sink 30, is arranged on the wall of elevator P, transmit for described digital data converting is become light data;

Optical communication receiver 50, elevator E is the taking of passenger/descending stair when stopping, and in the position relative to described light communication transmitter 40, is arranged on described elevator E, receives data according to wireless light communication from light communication transmitter 40;

Controller C, is wiredly connected to described optical communication receiver 50, is arranged on the top ceiling of elevator E, receive data and make it be transformed into image data from optical communication receiver 50; And

Telltale M, is wiredly connected to described controller C, is arranged on the door of elevator E, wall or top ceiling, receives image data and show from controller.

According to optical communication apparatus of the present utility model, data transmitter 10 can utilize LTE, WiFi or WLAN etc. and transmit data.

Further, preferably, the interval of this light communication transmitter 40 and optical communication receiver 50, equals the interval between the Room door D1 of elevator E and cage door D2.

(effect of utility model)

According to the elevator optical communication apparatus of the present utility model with this structure, light communication distance can be made the shortest and best communication quality is provided.And, light communication transmitter and receptor are separately positioned on the wall of access to elevators and elevator and are not arranged on mixed and disorderly and to be covered with the elevator of foreign matter and dust inner, thus prevent light communication transmitter stack dust stratification dirt as far as possible, thus the communication countermeasures preventing foreign matter from causing.Further, the controller comprising computer is arranged on elevator top ceiling, thus minimizes the length of the wire cable connecting optical communication receiver and controller, reduce the expense of setting and maintenance management.

Accompanying drawing explanation

Fig. 1 is the section-drawing of the elevator presenting traditional elevator optical communication mode;

Fig. 2 is the planar view of an example of the present utility model;

Fig. 3 is the III-III line section-drawing of Fig. 2;

Fig. 3 A is the expanded view of the part A of Fig. 3;

Fig. 4 is the front elevation of the Room pressure button cover 20 presenting antenna 32;

Fig. 5 is the V-V line section-drawing of Fig. 4;

Fig. 6 is the block diagram of the state stopping at elevator from rear side viewing elevator;

Fig. 7 is the block diagram of annexation presenting elevator E and cage door D2, optical communication receiver 50, controller C, telltale M.

Detailed description of the invention

Fig. 2 is the planar view of an example of the present utility model, and Fig. 3 is the III-III line section-drawing of Fig. 2, and Fig. 3 A is the expanded view of the part A of Fig. 3.

As shown in the figure, different from traditional approach, wall or the top ceiling in hall, elevator front (corridor) are provided with data transmitter 10.Such as, as shown in Figure 2, the wall in 1 layer of elevator door front, or as Fig. 3, the top ceiling of 1 layer of hall (corridor) is provided with data transmitter 10.Data transmitter 10 transmits data by the existing any mode comprising LTE, WiFi or WLAN etc., especially digital data.

The configuration Room, elevator door side pressure button cover 20, for selecting required floor or lifting, this Room pressure button cover 20 is provided with data sink 30 below, and this data sink and data transmitter 10, with wireless connections, receive digital data from data transmitter.Preferably, on Room pressure button cover 20, arrange antenna 32 for data receiver, this antenna is connected to data sink 30.

Fig. 4 is the front elevation of the Room pressure button cover 20 presenting antenna 32, and Fig. 5 is the V-V line section-drawing of Fig. 4.

As shown in the figure, antenna 32 is configured in the both sides up and down of Room pressure button cover 20 with linear pattern, is generally covered by the plastics being conducive to receiving electric wave.But, according to required, antenna 32 only can be arranged on the side in other places of Room pressure button cover 20.This antenna 32, as Fig. 5, generally to be wiredly connected to the data sink 30 be configured on rear side of button substrate 22, but also can be arranged on elevator lobby, with the elevator position telltale or entrance hall indicator lamp etc. of lobby button similar.

Further, as shown in Figure 3A, being wiredly connected to data sink 30, for digital data converting being become light data and the wall of the light communication transmitter 40 settings elevator P transmitted, specifically, being arranged on the part relative to optical communication receiver 50.The position relative with light communication transmitter 40, elevator E arranges optical communication receiver 50.Specifically, elevator E is the taking of passenger/descending stair when stopping, and as Fig. 3, under 1 layer of state stopped, in the position that optical communication receiver 50 is relative with light communication transmitter 40, being arranged on elevator E.The data receiver according to wireless light communication is formed between this light communication transmitter 40 and optical communication receiver 50.

Fig. 6 is the block diagram of the state stopping at elevator from rear side viewing elevator.As shown in the figure, the controller C being wiredly connected to optical communication receiver 50 is arranged on the top ceiling of elevator E, and this controller C receives data from optical communication receiver 50 and makes it be transformed into image data.

Fig. 7 is the block diagram of annexation presenting elevator E and cage door D2, optical communication receiver 50, controller C, telltale M.As shown in the figure, telltale M is wiredly connected to controller C.Accompanying figures illustrate telltale M and be arranged on cage door D2, but according to required, also telltale can be arranged on wall or the top ceiling of elevator E inside.Telltale M receives image data by controller and shows, but also can show various information according to the control of control cabin by controller.

As Fig. 3 A, according to the utility model, the interval of light communication transmitter 40 and optical communication receiver 50 is only the interval between the Room door D1 of elevator E and cage door D2, therefore, it is possible to minimize light communication distance.

Be explained above structure of the present utility model, specifically, the utility model is preferably presented in elevator and stops maximum floors, such as 1 layer.But, according to required, also can be presented in other floors, as the case may be, also can be presented in multilayer instead of a floor.

Claims (3)

1. an elevator optical communication apparatus, is characterized in that, comprising:

Data transmitter (10), on the wall being arranged on elevator door front adjacent hall or top ceiling;

Data sink (30), after the Room pressure button cover (20) being arranged on building elevator, is wirelessly connected to described data transmitter (10), receives digital data from data transmitter;

Antenna (32), is built in described Room pressure button cover (20), is connected to data sink (30);

Light communication transmitter (40), is wiredly connected to described data sink (30), is arranged on the wall of elevator (P), transmit for described digital data converting is become light data;

Optical communication receiver (50), what elevator (E) was passenger take/descending stair and when stopping, in the position relative to described light communication transmitter (40), be arranged on described elevator (E), receive data according to wireless light communication from light communication transmitter (40);

Controller (C), be wiredly connected to described optical communication receiver (50), be arranged on the top ceiling of elevator (E), receive data from optical communication receiver (50) and make it be transformed into image data, accepting the control of control cabin; And

Telltale (M), is wiredly connected to described controller (C), is arranged on the door of elevator (E), wall or top ceiling, receives image data and show from controller.

2. elevator optical communication apparatus according to claim 1, is characterized in that,

Described data transmitter (10) utilizes LTE, WiFi or WLAN and transmits data.

3. elevator optical communication apparatus according to claim 1 and 2, it is characterized in that, the interval of described light communication transmitter (40) and optical communication receiver (50), equals the interval between the Room door (D1) of elevator (E) and cage door (D2).