CN216403462U - Self-adaptive coordination control device for elevator load operation - Google Patents

Abstract

The utility model discloses an elevator load operation self-adaptive coordination control device which comprises a power module, an external reminding device, an uplink weight sensor, a downlink weight sensor and a main control module. The elevator comprises a bottom layer elevator room door, a top layer elevator room door, a middle layer elevator room door, an ascending waiting area, a descending waiting area, an ascending weight sensor, a descending weight sensor and an external reminding device, wherein the ascending waiting area and the descending waiting area are arranged on the bottom layer elevator room door of the elevator according to actual demand marks, the ascending weight sensor is arranged in the bottom plate of the ascending waiting area, the descending weight sensor is arranged in the bottom plate of the descending waiting area, and the external reminding device is arranged on the elevator room door of each layer. The main control module is respectively connected with the power supply module, the built-in weight sensor, the elevator control button, the external reminding device, the uplink weight sensor and the downlink weight sensor, the power supply module is respectively connected with the external reminding device, the built-in weight sensor, the elevator control button, the uplink weight sensor and the downlink weight sensor, and the external reminding device is used for reminding whether the elevator stops. The utility model reduces the waste of time resources and power resources generated by the running of the elevator.

Description

Self-adaptive coordination control device for elevator load operation

Technical Field

The utility model relates to the technical field of elevator control, in particular to an elevator load operation self-adaptive coordination control device.

Background

With the development of social economy, an elevator becomes an indispensable carrying tool in daily life. However, as the number of floors in a travel route increases, the residence time, the starting time, the acceleration/deceleration time, and the like required for one elevator to stop at a floor during travel also increase. Particularly, during rush hours of commuting, many passengers are troubled by time delay caused by waiting for elevators and taking the elevators.

At present, the floor stopping of the elevator is basically controlled by artificial actions, including a floor selection button used by passengers inside the elevator and a passenger taking button outside the elevator, so that the lost time of the floor stopping of the elevator is mostly influenced by the artificial factors, and the mode of 'communication' between the elevator and the passengers is basically based on the load weight. When a new passenger can not enter the elevator again after full load, the elevator is still controlled by the riding button of the external waiting passenger, and unnecessary residence time waste is caused. In addition, the phenomenon that the high-rise elevator stops at the floor during the peak period of going to and going from work is prominent, and the loss of the high-rise elevator in the elevator residence time, the elevator starting time and the elevator acceleration and deceleration time is large.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the self-adaptive coordination control device for the load operation of the elevator is provided, the unnecessary stopping times of the elevator are reduced, and the time resource waste and the power resource waste generated by the operation of the elevator are reduced.

In order to solve the problems, the utility model adopts the following scheme:

an elevator load operation self-adaptive coordination control device comprises a car, and a built-in weight sensor and an elevator control button which are arranged in the car, wherein the elevator comprises a power module, an external reminding device, an uplink weight sensor, a downlink weight sensor and a main control module for controlling the operation of the elevator;

an ascending waiting area and a descending waiting area are respectively marked and arranged at the doorways of the elevator between the bottom layer and the top layer, the upgoing waiting area and the descending waiting area are respectively marked and arranged at the doorways of the elevator between the middle layer and the middle layer, the upgoing weight sensor is arranged in the bottom plate of the upgoing waiting area, the descending weight sensor is arranged in the bottom plate of the descending waiting area, and the external reminding devices are respectively arranged at the doorways of the elevator between each layer;

the main control module is respectively connected with the power module, the built-in weight sensor, the elevator control button, the external reminding device, the uplink weight sensor and the downlink weight sensor, the power module is respectively connected with the external reminding device, the built-in weight sensor, the elevator control button, the uplink weight sensor and the downlink weight sensor, and the external reminding device is used for reminding whether the elevator stays or not.

Further, the device also comprises an external stay button;

the external stop buttons are respectively arranged at the doorway of each floor of the elevator room and connected with the main control module.

Furthermore, the external reminding device comprises a display screen;

the display screen is respectively connected with the main control module and the power supply module and is used for displaying detection data of the uplink weight sensor and the downlink weight sensor which are positioned on adjacent layers.

Furthermore, the display screen is a light prompt display screen.

Further, the number of the display screens positioned at the doorway of the elevator car in the middle floor of the elevator is two;

and the two display screens are respectively connected with the main control module and the power supply module and are respectively used for displaying the detection data of the uplink weight sensor and the downlink weight sensor on the upper layer and the lower layer.

Further, the external reminding device comprises a voice broadcasting device;

the external reminding devices are respectively arranged at the doorway of each floor of the elevator room and connected with the main control module.

Further, the external reminding device comprises signal lamps capable of displaying different colors;

the signal lamps are respectively arranged at the doorway of each floor of the elevator room and connected with the main control module.

Further, the lamp colors of the signal lamp are 4.

In conclusion, the beneficial effects of the utility model are as follows: the utility model provides an elevator load operation self-adaptation coordinated control device, a ascending waiting area has been marked at the elevator room gate of elevator, a descending waiting area or two waiting areas, and upward weighing transducer and descending weighing transducer have been built-in respectively in the bottom plate of two waiting areas, make the elevator know the total weight of waiting for the crowd in the floor of syntropy in real time at the operation in-process, and then the people of accessible external reminding device suggestion few floors go to wait with the people of adjacent some floors together, in order to reduce the number of times that the elevator need stop, still can inform the people that waits that the elevator has been fully loaded etc. in order to reduce some unnecessary stops, thereby reduce the time wasting of resources and the wasting of power resources that elevator operation produced.

Drawings

Fig. 1 is a configuration structure diagram of an intermediate floor elevator of an elevator load operation self-adaptive coordination control device according to an embodiment of the utility model;

FIG. 2 is an enlarged schematic view of the external reminder device shown in FIG. 1;

fig. 3 is a system block diagram of an intermediate layer configuration of an elevator load operation adaptive coordination control device according to an embodiment of the present invention.

Description of reference numerals:

1. a built-in weight sensor; 2. an elevator control button; 3. a power supply module; 4. an external reminding device; 5. an uplink weight sensor; 6. a downlink weight sensor; 7. a main control module; 8. an elevator; 9. an upstream waiting area; 10. a downlink waiting area; 11. an external stay button; 12. a display screen; 13. a voice broadcasting device; 14. a signal lamp.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 3, an elevator load operation self-adaptive coordination control device, where an elevator 8 includes a car, and a built-in weight sensor 1 and an elevator control button 2 which are arranged in the car, and includes a power module 3, an external reminding device 4, an uplink weight sensor 5, a downlink weight sensor 6, and a main control module 7 for controlling the operation of the elevator 8;

an ascending waiting area 9 and a descending waiting area 10 are respectively marked and arranged at the doorways of the bottom-layer elevator room and the top-layer elevator room of the elevator 8, the upgoing waiting area 9 and the descending waiting area 10 are respectively marked and arranged at the doorways of the middle-layer elevator room of the elevator 8, the upgoing weight sensor 5 is arranged in the bottom plate of the upgoing waiting area 9, the downgoing weight sensor 6 is arranged in the bottom plate of the downgoing waiting area 10, and the external reminding devices 4 are respectively arranged at the doorways of each layer of the elevator room of the elevator 8;

the main control module 7 is respectively connected with the power module 3, the built-in weight sensor 1, the elevator control button 2, the external reminding device 4, the uplink weight sensor 5 and the downlink weight sensor 6, the power module 3 is respectively connected with the external reminding device 4, the built-in weight sensor 1, the elevator control button 2, the uplink weight sensor 5 and the downlink weight sensor 6, and the external reminding device 4 is used for reminding whether the elevator 8 stays or not.

From the above description, the beneficial effects of the present invention are: the utility model provides an elevator 8 load operation self-adaptation coordinated control device, a ascending waiting area 9, a descending waiting area 10 or two waiting areas have been marked at elevator 8's elevator room gate, and built-in ascending weight sensor 5 and descending weight sensor 6 respectively in the bottom plate of two waiting areas, make elevator 8 know the total weight of waiting crowd in the floor of syntropy in real time in the operation process, and then accessible external reminding device 4 reminds the people of some few floors to go to wait with the people of some adjacent floors together, in order to reduce the number of times that elevator 8 need to stop, still can inform the people of waiting that elevator 8 is full load etc. in order to reduce some unnecessary stops, thereby reduce time wasting of resources and the wasting of power resources that elevator 8 operation produced.

Further, the device also comprises an external stay button 11;

the external stop buttons 11 are respectively arranged at the doorway of each floor of the elevator room of the elevator 8 and connected with the main control module 7.

From the above description, through set up external stay button 11 at every floor elevator room gate, help some people that do not conveniently move to control elevator 8 and stop at its floor, also more humanized when intelligent, improve the convenience that elevator 8 used.

Further, the external reminding device 4 comprises a display screen 12;

the display screen 12 is connected to the main control module 7 and the power module 3, and is configured to display detection data of the uplink weight sensor 5 and the downlink weight sensor 6 located in adjacent layers.

From the above description, the display screen 12 is arranged at the doorway of each floor of the elevator room, so that people can know the number of waiting people in the adjacent floor, the elevator 8 can be waited by reasonably selecting the floor, and the elevator 8 is helped to reduce the time resource waste and the power resource waste generated by operation.

Further, the display screen 12 is a light prompting display screen 12.

As can be seen from the above description, the light prompt display 12 has a more significant reminding effect and is more noticeable to people.

Further, the number of the display screens 12 located at the doorway of the intermediate floor elevator car of the elevator 8 is two;

the two display screens 12 are respectively connected with the main control module 7 and the power module 3 and are respectively used for displaying detection data of the upper layer weight sensor 5 and the lower layer weight sensor 6.

As can be seen from the above description, the display screen 12 is divided into two parts and displays different data respectively, so that people can pay attention to the display data of one of the display screens 12 according to their actual needs, and the display division is clear and convenient to use.

Further, the external reminding device 4 comprises a voice broadcasting device 13;

the external reminding devices 4 are respectively arranged at the doorway of each floor of the elevator room of the elevator 8 and connected with the main control module 7.

As can be seen from the above description, the voice broadcasting device 13 reminds people of timely receiving information related to the operation status of the elevator 8 by voice broadcasting, so that the elevator taking service provided by the elevator 8 is more humanized and intelligent.

Further, the external reminding device 4 comprises signal lamps 14 capable of displaying different colors;

a plurality of signal lamps 14 are respectively arranged at the doorway of each floor of the elevator 8 and connected with the main control module 7.

As can be seen from the above description, the use of signal lights 14 that can display multiple colors facilitates the making of physical indications corresponding to different contents to alert people waiting for an elevator 8.

Further, the signal lamp 14 has 4 lamp colors.

As can be seen from the above description, the 4 light colors can represent the 4 prompting messages respectively, and the change is flexible and the use is convenient.

The self-adaptive coordination control device for elevator load operation is suitable for application scenes of elevator 8 operation control in daily life, and is specifically described by combining specific embodiments as follows:

referring to fig. 1 to 3, an elevator load operation self-adaptive coordination control device, an elevator 8 includes a car, and a built-in weight sensor 1 and an elevator control button 2 disposed in the car, and the coordination control device of the present embodiment includes a power module 3, an external reminder 4, an uplink weight sensor 5, an external stop button 11, a downlink weight sensor 6, and a main control module 7 for controlling the operation of the elevator 8, as shown in fig. 1 and 2. The main control module 7 is respectively connected with the power module 3, the built-in weight sensor 1, the elevator control button 2, the external reminding device 4, the uplink weight sensor 5 and the downlink weight sensor 6, the power module 3 is respectively connected with the external reminding device 4, the built-in weight sensor 1, the elevator control button 2, the uplink weight sensor 5 and the downlink weight sensor 6, and the external reminding device 4 is used for reminding whether the elevator 8 stays or not. A plurality of external stay buttons 11 are respectively arranged at the doorway of each floor of the elevator room of the elevator 8 and connected with the main control module 7.

In this implementation, as shown in fig. 1, the bottom layer of the elevator 8 and the top layer of the elevator room are respectively marked and provided with an uplink waiting area 9 and a downlink waiting area 10, the middle layer of the elevator room is marked and provided with an uplink waiting area 9 and a downlink waiting area 10, the bottom plate of the uplink waiting area 9 is internally provided with an uplink weight sensor 5, the bottom plate of the downlink waiting area 10 is internally provided with a downlink weight sensor 6, and the external reminding devices 4 are respectively arranged at the elevator room gates of each layer of the elevator 8. As shown in fig. 1, the area at the doorway of the elevator 8 is divided into two areas, left and right, by a partition line. On the right is an up-waiting area 9 for standing waiting elevators 8 for people going to high floors. On the left is a down-waiting area 10 for standing waiting elevators 8 for people going to lower floors. The external reminding device 4 and the external stop button 11 are arranged on the wall.

In this embodiment, as shown in fig. 3, the external reminding device 4 includes a voice broadcasting device 13, a signal lamp 14 and a display 12. The number of the display screens 12 located at the door of the middle elevator car of the elevator 8 is two, and the number of the display screens 12 located at the door of the top elevator car and the door of the bottom elevator car is one. The display screen 12 is respectively connected with the main control module 7 and the power module 3 and is respectively used for displaying the detection data of the uplink weight sensor 5 and the downlink weight sensor 6 of the adjacent layer. The external reminding devices 4 are respectively arranged at the doorway of each floor of the elevator room of the elevator 8 and are connected with the main control module 7. A plurality of signal lamps 14 are respectively arranged at the doorway of each floor of the elevator car 8 and connected with the main control module 7. Each signal lamp 14 can display different lamp colors, and can be set to 4 types according to actual use requirements.

In this embodiment, taking the example of the behavior under the elevator 8, the operation process of the elevator load operation adaptive coordination control device is as follows:

when the elevator 8 starts to go down, the main control module 7 acquires the detection data of each down weight sensor 6 to know the total weight of waiting people in the down waiting area 10 of each floor, and specifically includes articles carried by waiting people. When the elevator 8 selects the stopping floor, the floor selected by the passenger on the elevator control button 2 in the elevator 8 is used as a primary basis, and the detection data of the descending weight sensor 6 is used as a secondary basis. On this basis, main control module 7 judges the load condition of elevator 8 according to built-in weight sensor 1, and then notifies the waiting crowd on every layer through voice broadcast device 13 or signal lamp 14. The voice broadcast content comprises' full load, and entrance is forbidden; warning entry when the load is full; the load is not full and the three types of access are allowed to inform the waiting passengers of the running condition of the elevator 8.

When the signal lamp 14 is used, different types of lamp colors can be displayed according to different notification information, for example, a red lamp is used to represent: a situation in which the load in the elevator 8 has approached the threshold value, while the person in the elevator 8 has not opted to stay at a certain floor; at this point, the elevator 8 will no longer stay at that floor; the waiting passengers on the floor know the running condition of the elevator 8 through the red light; similarly, a yellow light is used for representation: the load in the elevator 8 has approached the threshold value, but there is a situation where the person in the elevator 8 has the option to stay at a certain floor at this time; using green light state representation: there is still a large surplus of load space in elevator 8, informing the waiting passengers that elevator 8 now allows more passengers to enter.

In addition, the signal lamp 14 is also provided with an orange lamp state, which represents that the load space in the elevator 8 is still relatively large, but the number of passengers on two floors adjacent to the floor with the orange signal lamp 14 is relatively large, and people in the elevator 8 do not select to stay on the floor; if the sum of the data of the built-in weight sensor 1 and the data of the downlink weight sensor 6 of the elevator 8 at the adjacent high floor does not exceed the load threshold value of the elevator 8, a green signal lamp 14 is displayed at the adjacent floor; suggestion elevator 8 can not stop at this floor and the people of suggestion this floor wait for elevator 8 to adjacent floor forward to reduce elevator 8's stop number of times, reach the effect of "people ladder is in coordination", avoid elevator 8 to stop at the invalid floor that is fully loaded or unmanned waiting, reduce elevator 8 and stop at a plurality of floors during the people flow peak operation, practiced thrift the energy resource consumption of elevator 8 system, improve elevator 8's operating efficiency, save passenger's waiting time. Meanwhile, the main control module 7 displays the detection data of the downlink weight sensor 6 of the adjacent floor in the downlink direction on the display screen 12 of the floor, so as to help people to know the conditions of other floors.

In addition, in order to take care of some persons with mobility disabilities, after the person on the floor receives the suggestion of going to the adjacent floor, the main control module 7 can control the elevator 8 to stay on the floor by pressing the external stay button 11.

The ascending situation of the elevator 8 is similar to the above-mentioned process, and the description thereof is not repeated in this embodiment. It should be noted that what is disclosed and protected in this embodiment is an adaptive coordination control device installed in an operation situation of the elevator 8, including the external reminder device 4, the uplink weight sensor 5, the downlink weight sensor 6, and the like, and the main control module 7 collects the detection data of the weight sensors to perform weight comparison calculation, and displays data on the display screen 12, and the like, all can be implemented by means of the existing algorithm, which is not the content to be protected in this embodiment.

To sum up, the utility model discloses an elevator load operation self-adaptation coordinated control device, a waiting area that goes upward has been markd at the elevator room gate of elevator, a waiting area that goes down or two waiting areas, and built-in going upward weight sensor and the down weight sensor of bottom plate at two waiting areas respectively, make the elevator know the total weight of waiting for the crowd in the floor of syntropy in real time in the operation process, and then the accessible is by the display screen, the external reminding device that voice broadcast device and signal lamp are constituteed reminds the people of some few floors of people to go to wait with the people of some adjacent floors together, in order to reduce the number of times that the elevator needs to stop, still can inform the people elevator of waiting to have full load and wait, in order to reduce some unnecessary stops, thereby reduce the time wasting of resources and the wasting of power resources that elevator operation produced.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent modifications made by the contents of the present specification and the drawings, or applied to the related technical fields directly or indirectly, are included in the scope of the present invention.

Claims (8)

1. An elevator load operation self-adaptive coordination control device comprises a car, and a built-in weight sensor and an elevator control button which are arranged in the car, and is characterized by comprising a power module, an external reminding device, an uplink weight sensor, a downlink weight sensor and a main control module for controlling the operation of the elevator;

an ascending waiting area and a descending waiting area are respectively marked and arranged at the doorways of the elevator between the bottom layer and the top layer, the upgoing waiting area and the descending waiting area are respectively marked and arranged at the doorways of the elevator between the middle layer and the middle layer, the upgoing weight sensor is arranged in the bottom plate of the upgoing waiting area, the descending weight sensor is arranged in the bottom plate of the descending waiting area, and the external reminding devices are respectively arranged at the doorways of the elevator between each layer;

the main control module is respectively connected with the power module, the built-in weight sensor, the elevator control button, the external reminding device, the uplink weight sensor and the downlink weight sensor, the power module is respectively connected with the external reminding device, the built-in weight sensor, the elevator control button, the uplink weight sensor and the downlink weight sensor, and the external reminding device is used for reminding whether the elevator stays or not.

2. The adaptive coordination control device for elevator load-carrying operation according to claim 1, characterized by further comprising an external stop button;

the external stop buttons are respectively arranged at the doorway of each floor of the elevator room and connected with the main control module.

3. The elevator load-carrying operation self-adaptive coordination control device according to claim 1, characterized in that the external reminding device comprises a display screen;

the display screen is respectively connected with the main control module and the power supply module and is used for displaying detection data of the uplink weight sensor and the downlink weight sensor which are positioned on adjacent layers.

4. The elevator load-carrying operation self-adaptive coordination control device according to claim 3, characterized in that the display screen is a light prompt display screen.

5. The adaptive coordination control device for elevator load-carrying operation according to claim 3, characterized in that the number of said display screens located at the door of the elevator room in the middle floor of said elevator is two;

and the two display screens are respectively connected with the main control module and the power supply module and are respectively used for displaying the detection data of the uplink weight sensor and the downlink weight sensor on the upper layer and the lower layer.

6. The elevator load-carrying operation self-adaptive coordination control device according to claim 1, characterized in that the external reminding device comprises a voice broadcasting device;

the external reminding devices are respectively arranged at the doorway of each floor of the elevator room and connected with the main control module.

7. The elevator load-carrying operation self-adaptive coordination control device according to claim 1, characterized in that the external reminding device comprises signal lamps capable of displaying different colors;

the signal lamps are respectively arranged at the doorway of each floor of the elevator room and connected with the main control module.

8. The adaptive coordination control device for elevator load-carrying operation according to claim 7, wherein said signal lamps have 4 colors.

Images