CN209957160U - Elevator outbound control system - Google Patents

Abstract

The utility model relates to an elevator control technology field especially relates to control system is exhaled outward to elevator, including host system, be located each floor and be equipped with first ascending switch and first descending switch exhale the module outward and connect host system and the first CAN bus network who exhales the module outward, still including be located each floor and with correspond the floor between the elevator mouth have the second of predetermineeing the distance exhale the module outward, the second exhale the module outward and exhale the module outward with first, the second exhale the module outward and be equipped with the second that CAN trigger first ascending switch and open and CAN trigger the second descending switch that first descending switch opened. The application provides a control system is exhaled outward to elevator, the person taking advantage of the ladder can control the first up switch and the first down switch of elevator without arriving at the elevator mouth, then arrive the elevator mouth at the elevator door opening in-process and take the elevator, the rational utilization time resource and elevator operation resource, can also reduce just miss the elevator and will take the condition of next class.

Description

Elevator outbound control system

[ technical field ] A method for producing a semiconductor device

The application relates to the technical field of elevator control, in particular to an elevator outbound control system.

[ background of the invention ]

The outer calling plates of the elevator are generally arranged at the left side and the right side of an elevator opening of each floor, an ascending switch or a descending switch on the outer calling plates is required to be pressed down when the elevator is taken, and then the elevator car can open the elevator door to be taken by an elevator user after reaching the corresponding floor. In daily life, because the arrival time of each elevator riding person at the elevator entrance is different, the situation that the elevator door is just closed and the elevator is missed without any possibility appears in the short distance of the elevator entrance, so that not only is the running resource of the elevator wasted because the elevator can carry more people but also some important moments are missed sometimes.

[ summary of the invention ]

In order to solve the technical problem, an object of the present application is to provide an elevator hall call control system, a person taking an elevator can control an elevator without reaching an elevator entrance by the first up switch and the first down switch, and then reaches the elevator entrance to take the elevator in an elevator door opening process, so that time resources and elevator operation resources are reasonably utilized, and the situation that the person just misses the elevator and takes the elevator next shift can be reduced.

The application is realized by the following technical scheme:

calling control system outside elevator, including host system, be located each floor and be equipped with first ascending switch and first descending switch first calling module outside and connect host system with the first CAN bus network who calls the module outside still including being located each floor and with correspond the second calling module outside that has the distance of predetermineeing between the floor elevator mouth, the second calling module outside with first calling module connects outside, the second calling module outside is equipped with and triggers the second ascending switch that first ascending switch opened and CAN trigger the second descending switch that first descending switch opened.

According to the elevator outbound control system, the preset distance is 2-5 m.

The elevator outbound control system comprises a weight measuring module which is arranged in an elevator car and used for detecting whether the load of the elevator car exceeds the rated load or not, wherein the weight measuring module is respectively connected with the first outbound module and the second outbound module, when the weight measuring module detects that the load of the elevator car exceeds the rated load, the second outbound module is disconnected from the first outbound module, and when the weight measuring module detects that the load of the elevator car does not exceed the rated load, the second outbound module is connected with the first outbound module.

According to the elevator outbound control system, the second outbound module further comprises a display screen connected with the main control module, and the display screen is used for displaying overload information when the weight measuring module detects that the load of the elevator exceeds the rated load.

According to the elevator outbound control system, the first outbound module is connected with the voice control unit, and the voice control unit acquires preset voice information and then controls the first outbound module to turn on the first uplink switch or the first downlink switch.

The elevator hall call control system also comprises a speed detection module which is arranged at an entrance leading to the elevator direction and is used for detecting the speed value of a pedestrian walking towards the elevator direction;

the speed detection module is connected with the main control module through the CAN bus network, and when the speed value reaches a preset range, the main control module is triggered to control the current door closing time of the elevator car to be prolonged by a preset time value.

According to the elevator hall call control system, the speed detection module comprises a first infrared detector and a second infrared detector which are arranged in parallel at the entrance to the elevator direction, so that a pedestrian passes through the first infrared detector and the second infrared detector in sequence when passing through the entrance to the elevator direction, and the main control module obtains the speed value according to the time interval of the pedestrian passing detected by the first infrared detector and the second infrared detector in sequence and the distance between the first infrared detector and the second infrared detector.

According to the elevator outbound control system, the first outbound module is provided with the card swiping unit, and the card swiping unit is connected with the main control module and used for reading the user identity information in the IC card and sending the user identity information to the main control module through the CAN bus network so as to trigger each first outbound module to enter the ID self-learning function to determine the communication address of each outbound module.

Compared with the prior art, the method has the following advantages:

1. the elevator hall call control system has the advantages that a person taking the elevator can control the first up switch and the first down switch of the elevator without arriving at an elevator entrance, then arrives at the elevator entrance to take the elevator in the process of opening the door of the elevator, so that time resources and elevator running resources are reasonably utilized, and the situation that the person just misses the elevator and takes the next shift can be reduced.

2. Through the on-off action of the weight measuring module on the second outbound module and the first outbound module, the first uplink switch and the first downlink switch can be stopped to be started when the elevator car is fully loaded or overloaded, so that the elevator door is prevented from being opened under the condition that the elevator cannot be carried, and the running resources of the elevator are saved.

3. The voice control unit controls the first outbound module to open the first uplink switch or the first downlink switch by collecting the voice of the elevator rider, and is more intelligent and more convenient.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic block diagram of an embodiment of the present application;

fig. 2 is a schematic layout diagram of one floor according to an embodiment of the present application.

[ detailed description ] embodiments

In order to make the technical problems, technical solutions and advantageous effects solved by the present application more clear and obvious, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

As shown in fig. 1 to 2, this application embodiment provides an elevator outbound control system, include host system 1, be located each floor and be equipped with first upward switch and first downstream switch exhale module 2 outward and connect host system 1 with the first CAN bus network 3 who exhales module 2 outward, still including be located each floor and with correspond the floor between the elevator mouth 100 have the second of predetermineeing the distance exhale module 4 outward, the second exhale module 4 outward with first exhale module 2 is connected outward, second exhale module 4 outward be equipped with CAN trigger the second upward switch that first upward switch opened and CAN trigger the second downstream switch that first downstream switch opened. It should be noted that the first up switch is activated to reserve the up function of the elevator, and the first down switch is activated to reserve the down function of the elevator.

Specifically, the preset distance is 2m to 5 m. In particular, the second hall module 4 is provided at the corner of the elevator of each floor. The elevator hall call control system has the advantages that a person taking the elevator can control the first up switch and the first down switch of the elevator without arriving at the elevator entrance 100, then arrives at the elevator entrance 100 to take the elevator in the process of opening the door of the elevator, so that the time resource and the elevator running resource are reasonably utilized, and the situation that the person just misses the elevator and takes the next shift can be reduced.

The elevator calling control system further comprises a weight measuring module 5 which is used for being arranged in the elevator car and detecting whether the load of the elevator car exceeds the rated load or not, the weight measuring module 5 is respectively connected with the first calling module 2 and the second calling module 4, when the weight measuring module 5 detects that the load of the elevator car exceeds the rated load, the second calling module 4 is disconnected with the first calling module 2, and when the weight measuring module 5 detects that the load of the elevator car does not exceed the rated load, the second calling module 4 is connected with the first calling module 2. Through the on-off action of the weight measuring module 5 on the second outbound module 4 and the first outbound module 2, the first uplink switch and the first downlink switch can be stopped to be started when the elevator car is fully loaded or overloaded, so that the elevator door is prevented from being opened under the condition that the elevator cannot be carried, and the running resources of the elevator are saved.

Preferably, the second outbound module 4 further comprises a display screen connected to the main control module 1, and is configured to display overload information when the weight measuring module 5 detects that the load of the elevator exceeds the rated load. Specifically, information such as "overload warning" can be displayed, and the elevator overload condition can be known more intuitively through the display of the display screen.

In this embodiment, the first outbound module 2 is connected to a voice control unit 6, and the voice control unit 6 controls the first outbound module 2 to turn on the first uplink switch or the first downlink switch after acquiring preset voice information. Specifically, the preset sound information may be sound information such as "elevator waiting for one time", "i want to take the elevator", "i want to go upstairs", or "i want to go downstairs", and a scene can be imagined that a person taking the elevator is in a hurry to an important meeting and needs to take the elevator to the thirtieth floor, and when he is five meters away from the elevator, the elevator door is being closed, and before the elevator door is closed, he shouts "i want to take the elevator", and the sound control unit 6 collects the sound and controls the elevator door to be opened again, and finally, the person taking the elevator successfully catches the meeting. The voice control unit 6 controls the first outbound module 2 to open the first uplink switch or the first downlink switch by collecting the voice of the elevator rider, so that the voice control unit is more intelligent and more convenient.

The elevator hall call control system also comprises a speed detection module 7 which is arranged at an entrance leading to the elevator direction, particularly, the speed detection module 7 is arranged at an entrance 200 of an elevator corner channel of each floor and is used for detecting the speed value of a pedestrian walking towards the elevator direction; the speed detection module 7 is connected with the main control module 1 through the CAN bus network 3, and when the speed value reaches a preset range, the main control module 1 is triggered to control the current door closing time of the elevator car to be prolonged by a preset time value. Specifically, the preset range of the speed value is 3-7 m/s, and the preset time value is 2-5 s. Because the walking speed of the elevator passenger is generally faster when the elevator passenger catches up with the elevator, the situation that the elevator is just not caught up can be effectively reduced by detecting the faster walking speed of the elevator passenger and prolonging the secondary door closing time of the elevator car, the running resources of the elevator are saved, and the time waste of the elevator passenger is reduced.

Specifically, the speed detection module 7 includes a first infrared detector and a second infrared detector which are arranged in parallel at the entrance to the elevator direction, so that a pedestrian passes through the first infrared detector and the second infrared detector in sequence when passing through the entrance to the elevator direction, and the main control module 1 obtains the speed value according to a time interval at which the first infrared detector and the second infrared detector detect that the pedestrian passes in sequence and a distance between the first infrared detector and the second infrared detector. In particular, the first infrared detector and the second infrared detector are arranged in parallel, and the speed can be quickly calculated through a formula that the speed is equal to the distance divided by the time.

Preferably, a card swiping unit 21 is arranged on the first outbound module 2, the card swiping unit 21 is connected with the main control module 1 and used for reading user identity information in an IC card and sending the user identity information to the main control module 1 through the CAN bus network 3 so as to trigger each first outbound module 2 to enter an ID self-learning function to determine a communication address of each outbound module. The user needs to set the ID of each floor elevator in the debugging process, and the working process of learning the ID is as follows: a user uses a special IC card to swipe the card through the card swiping unit, the card swiping unit reads a learning ID instruction in the IC card and then controls the main control module to issue the learning ID instruction to each first outbound module through the CAN bus network, and the first outbound modules on each floor sequentially learn IDs. Finally, debugging is completed, and convenience and rapidness are achieved.

In summary, the present application has, but is not limited to, the following beneficial effects:

1. the elevator hall call control system has the advantages that a person taking the elevator can control the first up switch and the first down switch of the elevator without arriving at the elevator entrance 100, then arrives at the elevator entrance 100 to take the elevator in the process of opening the door of the elevator, so that the time resource and the elevator running resource are reasonably utilized, and the situation that the person just misses the elevator and takes the next shift can be reduced.

2. Through the on-off action of the weight measuring module 5 on the second outbound module 4 and the first outbound module 2, the first uplink switch and the first downlink switch can be stopped to be started when the elevator car is fully loaded or overloaded, so that the elevator door is prevented from being opened under the condition that the elevator cannot be carried, and the running resources of the elevator are saved.

3. The voice control unit 6 controls the first outbound module 2 to open the first uplink switch or the first downlink switch by collecting the voice of the elevator rider, so that the voice control unit is more intelligent and more convenient.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not intended to limit the disclosure to the particular forms disclosed. Similar or identical methods, structures, etc. as used herein, or several technical inferences or substitutions made on the concept of the present application should be considered as the scope of the present application.

Claims (8)

1. Calling control system outside elevator, including host system (1), be located each floor and be equipped with first ascending switch and first descending switch first calling module (2) outward and connect host system (1) with first CAN bus network (3) of calling module (2) outward, its characterized in that still including be located each floor and with correspond the floor between the elevator mouth have the second of predetermineeing the distance and call module (4) outward, the second call module (4) outward with first calling module (2) is connected outward, the second is called module (4) outward and is equipped with and CAN trigger the second ascending switch that first ascending switch opened and CAN trigger the second descending switch that first descending switch opened.

2. The elevator hall control system of claim 1 wherein the predetermined distance is between 2m and 5 m.

3. The elevator outbound control system according to claim 1, characterized by comprising a weight measuring module (5) for being arranged in the elevator car to detect whether the load of the elevator car exceeds the rated load, wherein the weight measuring module (5) is respectively connected with the first outbound module (2) and the second outbound module (4), the second outbound module (4) is disconnected from the first outbound module (2) when the weight measuring module (5) detects that the load of the elevator car exceeds the rated load, and the second outbound module (4) is connected with the first outbound module (2) when the weight measuring module (5) detects that the load of the elevator car does not exceed the rated load.

4. The elevator hall call control system according to claim 3, wherein the second hall call module (4) further comprises a display screen connected to the main control module (1) for displaying overload information when the weight measuring module (5) detects that the load of the elevator exceeds the rated load.

5. The elevator outbound control system according to claim 1, wherein the first outbound module (2) is connected with a voice control unit (6), and the voice control unit (6) controls the first outbound module (2) to turn on the first up switch or the first down switch after collecting preset voice information.

6. The elevator hall control system according to any one of claims 1 to 5, further comprising a speed detection module (7) for detecting a speed value of a pedestrian walking in the elevator direction, the speed detection module being provided at an entrance to the elevator direction;

the speed detection module (7) is connected with the main control module (1) through the CAN bus network (3), and when the speed value reaches a preset range, the main control module (1) is triggered to control the current door closing time of the elevator car to be prolonged by a preset time value.

7. The elevator hall call control system according to claim 6, wherein the speed detection module (7) comprises a first infrared detector and a second infrared detector which are arranged in parallel at the entrance to the elevator direction, so that a pedestrian passes through the first infrared detector and the second infrared detector in sequence when passing through the entrance to the elevator direction, and the main control module (1) obtains the speed value according to the time interval of the pedestrian passing detected by the first infrared detector and the second infrared detector in sequence and the distance between the first infrared detector and the second infrared detector.

8. The elevator outbound control system according to claim 1, wherein a card swiping unit is arranged on the first outbound module (2), and the card swiping unit is connected with the main control module (1) and is used for reading user identity information in an IC card and sending the user identity information to the main control module (1) through the CAN bus network (3) so as to trigger each first outbound module (2) to enter an ID self-learning function to determine a communication address of each outbound module.

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