CN107533775B - Safety door, elevator group management system, and elevator system - Google Patents

Abstract

The security gate (20) is disposed at an entrance of a specific area of a building and controls entry of a user of the building into the specific area. The safety door (20) is provided with: a body temperature sensor (29) (body temperature measuring unit) for measuring the body temperature of a user passing through the safety door (20); a door stopper (28) (restricting section) for controlling the entrance of a user into a specific area; and a secure server (100) (control unit). The security server (100) controls the door stop (28) to restrict the entry of the user into the specific area when the body temperature measured by the body temperature sensor (29) does not satisfy the predetermined body temperature condition.

Description

Safety door, elevator group management system, and elevator system

Technical Field

The present invention relates to a security gate, an elevator group management system having the security gate, and an elevator system.

Background

For example, in an airport, a person who is a member of the country who has developed an infectious disease detects a fever by using a thermal infrared imager or the like with one hand. In addition, in some enterprises, when entering a season in which influenza is prevalent, workers may detect a fever recipient using an infrared thermal imager or the like. In addition, some of the fevers take measures such as prohibiting entry into a specific area in airports and companies.

On the other hand, in an elevator, a body temperature detection device is provided in a car of the elevator, and when a fever person is detected by the body temperature detection device, the infection in the elevator is prevented by giving a warning to the fever person so as to leave the elevator (see patent document 1).

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2011-236020

Disclosure of Invention

Problems to be solved by the invention

In a large office building, there are many users of the building, and it is difficult for employees to reliably detect a heat generator using a thermal infrared imager or the like.

In addition, since elevators in large office buildings are very crowded during commuting and eating hours, users with low height and the like become blind spots in the body temperature detection device, and it is difficult to reliably detect a fever person.

The invention provides a security gate, an elevator group management system and an elevator system, which can restrict a user of a building from entering a specific area of the building when the user has a fever.

Means for solving the problems

The security gate of the present invention is disposed at an entrance of a specific area of a building, and controls entrance of a user of the building into the specific area.

The safety door is provided with:

a body temperature measuring unit for measuring the body temperature of a user passing through the safety door;

a restricting unit for controlling entry of a user into a specific area; and

a control unit.

The control unit controls the restriction unit to restrict the entry of the user into the specific area when the body temperature measured by the body temperature measurement unit does not satisfy the predetermined body temperature condition.

The group management system for an elevator of the present invention comprises:

the safety door of the present invention; and

the group management control device inputs the destination floor information outputted from the control unit of the security gate, and allocates the destination floor indicated by the input destination floor information to any one of the elevators.

The elevator system of the invention comprises:

the safety door of the present invention;

a plurality of elevators; and

the group management control device inputs the destination floor information outputted from the control unit of the security gate, and allocates the destination floor indicated by the input destination floor information to any one of the elevators.

Effects of the invention

According to the present invention, when a user of a building intends to enter a specific area of the building, the body temperature of the user who passes through a security gate arranged at an entrance of the specific area of the building is measured by the body temperature measuring unit. Then, when the measured body temperature does not satisfy the predetermined body temperature condition, the restricting unit is controlled to restrict the entry of the user into the specific area. Therefore, when a user of a building has a fever, the user can be automatically restricted from entering a specific area of the building without detecting the person who has a fever or the like with a thermal infrared imager or the like by one hand of an employee.

In addition, according to the present invention, the presence of a fever person in an elevator can be restricted. In addition, the user's destination floor can be automatically assigned to any one of the elevators based on the measurement result of the body temperature at the security gate.

Drawings

Fig. 1 is a schematic diagram showing the arrangement of a specific floor of a building to which an elevator system according to embodiment 1 is applied.

Fig. 2 is a block diagram showing the configuration of an elevator group management system according to embodiment 1.

Fig. 3 is a block diagram showing an electrical configuration of the group management control device according to embodiment 1.

Fig. 4 is a block diagram showing an electrical configuration of the destination layer registration apparatus according to embodiment 1.

Fig. 5 is a diagram showing an example of display of a display unit of a destination floor registration device in the group management system of an elevator according to embodiment 1.

Fig. 6 is a block diagram showing an electrical configuration of an elevator control device according to embodiment 1.

Fig. 7A is a perspective view (first example) showing the appearance of the security gate according to embodiment 1.

Fig. 7B is a perspective view (second example) showing the appearance of the safety door according to embodiment 1.

Fig. 7C is a perspective view (third example) showing the appearance of the safety door according to embodiment 1.

Fig. 8 is a block diagram showing an electrical configuration of the security gate according to embodiment 1.

Fig. 9 is a block diagram showing an electrical configuration of the door display according to embodiment 1.

Fig. 10 is a diagram showing an example of a display in which a door display provided in a security gate in the group management system of an elevator according to embodiment 1 guides a user of a car assigned by the group management system.

Fig. 11 is a block diagram showing an electrical configuration of the security server according to embodiment 1.

Fig. 12 is a diagram showing a configuration of a user DB stored in the storage unit of the security server according to embodiment 1.

Fig. 13 is a flowchart showing the operation of the safety door according to embodiment 1.

Fig. 14 is a flowchart showing the operation of the group management control device according to embodiment 1.

Fig. 15 is a diagram showing a configuration of a user DB stored in the storage unit of the security server according to embodiment 2.

Fig. 16 is a flowchart showing the operation of the safety door according to embodiment 2.

Fig. 17 is a block diagram showing an electrical configuration of a security server according to embodiment 3.

Fig. 18 is a diagram showing the configuration of the body temperature DB stored in the storage unit of the security server according to embodiment 3.

Fig. 19 is a flowchart showing the operation of the safety door according to embodiment 3.

Fig. 20 is a block diagram showing an electrical configuration of a security server according to embodiment 4.

Fig. 21 is a diagram showing the configuration of the diagnostic DB stored in the storage unit of the security server according to embodiment 4.

Fig. 22 is a flowchart showing control of a security server to a security gate according to embodiment 4.

Fig. 23 is a flowchart showing control of a security server to a security gate according to embodiment 5.

Fig. 24 is a flowchart showing control of a security server to a security gate according to embodiment 6.

Fig. 25 is a flowchart showing control of a security server to a security gate according to embodiment 7.

Fig. 26 is a flowchart showing control of a security server to a security gate according to embodiment 8.

Detailed Description

A group management system for an elevator according to an embodiment of the present invention will be described with reference to the drawings.

(embodiment mode 1)

1. Structure of the product

1-1. Outline of elevator system

An outline of the elevator system of the present embodiment will be described. Fig. 1 is a schematic diagram showing the arrangement of a specific floor of a building (hereinafter, sometimes referred to as a "building") to which an elevator system according to embodiment 1 is applied. Here, the specific floor means, for example, a hall floor connected to the outside of the high building. Users of tall buildings move through a particular floor to other floors.

The elevator system of the present embodiment includes a plurality of elevators (hereinafter, appropriately referred to as "machines") 60A to 60F and a group management system. The group management system of the elevator comprehensively controls the movement and operation of elevators (a to F, hereinafter referred to as "machines") 60A to 60F. In the present embodiment, as an example, six elevators 60A to 60F from machine a to machine F are provided. The opening for taking each of the elevators 60A to 60F is provided on the elevator hall (elevator hall) side, and the user takes the elevator 60A to 60F from the elevator hall. The plurality of elevators 60A to 60F have the same configuration. Therefore, in the description of the structure and the like, each elevator is appropriately referred to as an "elevator 60" when it is not necessary to distinguish between them.

In the present embodiment, a security gate 20 is provided between an entrance and an elevator hall in a specific floor such as a hall floor of a high-rise building. The user enters the elevator hall through any one of the security doors 20 from the entrance side.

Here, there are cases where: in a high building (building), an area closer to the elevator hall than security gate 20 is hereinafter referred to as a "specific area" as appropriate. The specific area is an area that cannot be entered in a high-rise building (building) without passing through emergency gate 20 from the entrance side. Therefore, the specific area may include not only the elevator hall but also a space in the car of each elevator 60, a space of each floor to which the elevator 60 can be moved, and the like.

In addition, as shown in fig. 1, a destination floor registration device 30A is provided in the elevator hall at a specific floor. Further, destination floor registration devices 30B to 30Z (see fig. 2) are provided in each floor other than the specific floor where the security gate 20 is not provided. The destination floor registration device 30A of a specific floor is provided to be able to register an arbitrary destination floor when a user entering an elevator hall does not get on a designated elevator 60, or when the user moves to a floor not registered with an ID card. The plurality of destination floor registration devices 30A to 30Z have the same configuration. Therefore, in the description of the configuration and the like, each destination floor registration apparatus will be referred to as "destination floor registration apparatus 30" as appropriate without distinction.

The group management system for elevators according to the present embodiment employs a destination floor registration method, and performs control for assigning a newly generated destination floor call to any one of the elevators 60. The specific control will be described later.

1-2. Structure of group management system for elevator

1-2-1. Summary of the invention

The configuration of the elevator group management system according to the present embodiment will be described. Fig. 2 is a block diagram showing the configuration of an elevator group management system according to embodiment 1. The elevator group management system of the present embodiment includes a group management control device 10, a plurality of destination floor registration devices 30A to 30Z, a plurality of elevator control devices 40A to 40F, and a door display 70. Door display 70 is provided at security gate 20.

The group management system of the elevator performs assignment control of a new destination call to each elevator while communicating with the security server 100. The devices are connected to each other via a network NW capable of transmitting information. The network NW is configured by a lan (local Area network) such as Ethernet (registered trademark), for example, and various kinds of information are transmitted and received between the devices according to various kinds of protocols such as TCP/IP. The above-described devices connected to the network NW are capable of signal transmission (information transfer) between the devices based on communication performed according to various protocols such as TCP/IP, using input/output interfaces included in the devices. Further, the devices constituting the group management system may be connected to each other via a network of another signal format or a dedicated signal network.

Each of the elevators (machines) 60A to 60F has a car, a hoist (motor), a counterweight, and the like.

1-2-2. Group management control device

The group management control device 10 performs the following control: the destination floor corresponding to the personal ID (card ID) read from the ID card at the security gate 20 or the destination floor input to the destination floor registration device 30 is allocated to any of the elevators 60A to 60F (elevator).

Fig. 3 is a block diagram showing an electrical configuration of the group management control device 10 according to embodiment 1.

The group management control device 10 is configured by a computer, and includes a control unit 11, a storage unit 12, and an input/output interface 13.

The storage unit 12 is configured by, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores programs and various data. The program includes a program for realizing various functions of the group management control device 10 of the present embodiment.

The control unit 11 is configured by, for example, a CPU, an MPU, or the like. The control unit 11 performs arithmetic processing using various data and the like based on the program read out from the storage unit 12, thereby realizing various functions of the group management control device 10, which will be described later.

The input/output interface 13 is configured by, for example, a LAN adapter or the like. The input/output interface 13 is an interface for transmitting and receiving various signals between the group management control device 10, the door display 70 of the security gate 20, the destination floor registration devices 30(30A to 30Z), and the elevator control devices 40(40A to 40F). The input/output interface 13 converts the signal output from the control unit 11 into a signal of a predetermined format, and outputs the signal to each of the door display 70, the destination floor registration device 30, and the elevator control device 40. The input/output interface 13 converts signals input from the door display 70 of the security gate 20, the destination floor registration device 30, and the elevator control device 40 into signals of a predetermined format, and outputs the signals to the control unit 11.

1-2-3. Destination layer registration device

Fig. 4 is a block diagram showing an electrical configuration of the destination layer registration apparatus 30 according to embodiment 1. The destination layer registration device 30 is a device for registering a destination layer by a user. The destination layer registration device 30 includes a control unit 31, a storage unit 32, an input/output interface 33, a display unit 34, and an operation unit 35.

The storage unit 32 is configured by, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores programs and various data. The program includes a program for realizing various functions of the destination floor registration apparatus 30 of the present embodiment.

The control unit 31 is configured by, for example, a CPU, an MPU, or the like. The control unit 31 performs arithmetic processing using various data and the like based on the program read out from the storage unit 32, thereby realizing various functions of the destination layer registration device 30, which will be described later.

The input/output interface 33 is configured by, for example, a LAN adapter or the like. The input/output interface 33 is an interface for transmitting/receiving various signals between the destination layer registration apparatus 30 and the group management control apparatus 10. The input/output interface 33 converts the signal output from the control unit 31 into a signal of a predetermined format, and outputs the signal to the group management control device 10. The input/output interface 33 converts the signal input from the group management control device 10 into a signal of a predetermined format, and outputs the signal to the control unit 31.

The operation unit 35 is an interface for a user to input a destination layer. The operation unit 35 outputs a signal corresponding to the operation content to the operation unit 35 to the control unit 31.

The display unit 34 performs display based on the display signal output from the control unit 31.

The display unit 34 and the operation unit 35 are integrally formed by a touch panel type display device in which a touch panel is disposed on a liquid crystal display panel or an organic EL display panel, for example. The display unit 34 and the operation unit 35 may be formed separately by different members.

Fig. 5 is a diagram showing an example of display of the display unit 34 of the destination floor registration device 30 in the group management system of an elevator according to embodiment 1. In this example, the numeric keys used to designate the number of layers are shown. In fig. 5, the designation of level 9, machine number a is shown. When the destination floor registration device 30 performs an input operation of the destination floor on the operation unit 35, it displays the input destination floor, and when receiving the assigned car information from the group management control device 10, it associates the assigned car name indicated by the received assigned car information with the destination floor being displayed and displays the associated car name as shown in fig. 5.

1-2-4. Elevator control device

The elevator control devices 40A to 40F control the operation of the hoisting machines (motors) and the like of the corresponding elevators 60A to 60F based on the control signal from the group management control device 10, thereby controlling the ascent, descent, stop, and the like of the cars of the elevators 60A to 60F. The elevator control devices 40A to 40F detect the car states of the corresponding elevators 60A to 60F including the car position, the moving direction, the door open/close states, the load, and the like, and output car state signals including information indicating the detected car states to the group management control device 10. The plurality of elevator control devices 40A to 40F have the same configuration. Therefore, in the description of the configuration and the like, each elevator control device is appropriately referred to as an "elevator control device 40" when it is not necessary to distinguish between them.

Fig. 6 is a block diagram showing an electrical configuration of an elevator control device according to embodiment 1. Each of the elevator control devices 40 (elevator control devices 40A to 40F) includes a control unit 41, a storage unit 42, and an input/output interface 43.

The storage unit 42 is configured by, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores programs and various data. The program includes a program for realizing various functions of the elevator control device 40 of the present embodiment.

The control unit 41 is configured by, for example, a CPU, an MPU, or the like. The control unit 41 performs arithmetic processing using various data and the like based on the program read from the storage unit 42, thereby realizing various functions of the elevator control device 40, which will be described later.

The input/output interface 43 is configured by a LAN adapter or the like, for example. The input/output interface 43 is an interface for transmitting/receiving various signals between the elevator control device 40 and the group management control device 10. The input/output interface 43 converts the signal output from the control unit 41 into a signal of a predetermined format, and outputs the signal to the group management control device 10. The input/output interface 43 converts the signal input from the group management control device 10 into a signal of a predetermined format, and outputs the signal to the control unit 41.

1-2-5. Safety door

The security gate 20 is a device for allowing or restricting a user to enter an elevator hall. The emergency gate 20 is provided as a safety device for a high-rise building. The security gate 20 allows only a user having a prescribed ID card to enter the elevator hall. The security gate 20 allows only users who satisfy a predetermined body temperature condition or the like to enter the elevator hall.

Fig. 7A is a perspective view showing the appearance of a first example of the safety door 20 according to embodiment 1. The security gate 20 includes gate main bodies 20L and 20R, a first sensor 26, a second sensor 27, a card reader 25, a gate display 70, a gate shutter 28, and a body temperature sensor 29.

The first sensor 26, the second sensor 27, the card reader 25, and the door display 70 are mounted on the outer surfaces of the door bodies 20L and 20R. The door bodies 20L and 20R are housings that house a control unit 21 and the like described later. The door bodies 20L and 20R are arranged in parallel with each other at a predetermined distance along the entering direction of the user (see fig. 1). A passage PA through which a user can pass is formed between the door main body 20L and the door main body 20R.

The card reader 25 reads the personal ID recorded on the ID card held by the user who passes through the security gate 20. The card reader 25 is constituted by, for example, a contactless card reader of an electromagnetic induction system. The card reader 25 may be a contact type card reader. The card reader 25 is an example of an identification information acquisition unit.

The card reader 25 includes a control unit, a storage unit, an input/output interface, a reader main body, and the like, and the control unit performs arithmetic processing on various data based on a program stored in the storage unit, thereby realizing various functions of the card reader 25. The storage unit stores, as data, device identification information (hereinafter, referred to as "device ID" as appropriate) of the security gate 20 in which the card reader 25 is disposed, for example.

The door display 70 displays the assigned car information. Details of the door display 70 will be described later.

The first sensor 26 detects the movement of the user on the entrance 20i side of the passage PA of the security gate 20. The first sensor 26 outputs a detection signal when detecting the movement of the user.

The second sensor 27 detects the movement of the user on the exit 20e side of the passage PA of the safety door 20. The second sensor 27 outputs a detection signal when detecting the movement of the user.

The door guard 28 is a door leaf that can be opened and closed freely. The door check 28 enables a user to pass through the emergency gate 20 in an open state. The door check plate 28 prevents a user from passing through the emergency gate 20 in a closed state.

The body temperature sensor 29 is a temperature sensor that measures the body temperature of the user who passes through the safety door 20. The body temperature sensor 29 can be formed, for example, by a thermal infrared imager. The body temperature sensor 29 can be formed in a configuration similar to that of fig. 7A to 7C. Fig. 7A to 7C are perspective views showing the external appearance of first to third examples of the safety door 20 according to embodiment 1.

In safety door 20(20A) of fig. 7A, body temperature sensor 29 is disposed on the upper surface of door main body 20R. Accordingly, the body temperature can be measured with the upper half of the user of the building as the center.

In the safety door 20(20B) of fig. 7B, the body temperature sensor 29 may be disposed on a surface parallel to the entering direction out of the side surfaces of the door main body 20L. This enables the body temperature to be measured around the lower body of the user of the building.

In safety door 20(20C) of fig. 7C, body temperature sensor 29 is disposed at a position equal to or higher than a predetermined height above passage PA through which a user can pass between door main body 20L and door main body 20R. The predetermined height is, for example, a height sufficiently higher than the height of a person. This enables the body temperature to be measured around the upper side of the user of the building, particularly the head.

Fig. 8 is a block diagram showing an electrical configuration of the security gate 20 according to embodiment 1. The security gate 20 further includes a control unit 21, a storage unit 22, and an input/output interface 23 in addition to the above-described components.

The storage unit 22 is configured by, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores programs and various data. The program includes a program for realizing various functions of the security gate 20 of the present embodiment.

The control unit 21 is configured by, for example, a CPU, an MPU, or the like. The control unit 21 performs arithmetic processing using various data based on the program stored in the storage unit 22, thereby realizing various functions of the security gate 20, which will be described later.

The control unit 21 opens and closes the door shutter 28 based on the detection signals from the first sensor 26 and the second sensor 27, and the door opening signal and the door closing signal from the security server 100.

When reading the personal ID recorded in the ID card, the card reader 25 transmits the read personal ID and the device ID of the security gate 20 to the security server 100.

The input/output interface 23 is configured by, for example, a LAN adapter or the like. The input/output interface 23 is an interface for transmitting/receiving various signals between the security gate 20 and the security server 100. The input/output interface 23 converts signals output from the control unit 21 and the card reader 25 into signals of a predetermined format, and outputs the signals to the security server 100. The input/output interface 23 converts the signal input from the security server 100 into a signal of a predetermined format, and outputs the signal to the control unit 21.

1-2-6. Door display

The door display 70 is a display device that displays assigned elevator information indicating an elevator assigned to a user (a personal ID corresponding to an ID card presented by the user) who passes through the security gate 20 provided with the door display 70.

Fig. 9 is a block diagram showing an electrical configuration of a door display 70 according to embodiment 1. The door display 70 is configured by a computer so as to be able to perform display control based on information received from the group management control device 10. As shown in fig. 9, the door display 70 includes a control unit 71, a storage unit 72, an input/output interface 73, and a display unit 74.

The storage unit 72 is configured by, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores programs and various data. The program includes a program for realizing various functions of the door display 70 of the present embodiment, which will be described later.

The control unit 71 is configured by, for example, a CPU, an MPU, or the like. The control unit 71 performs arithmetic processing using various data based on the program read from the storage unit 72, thereby realizing various functions of the door display 70, which will be described later.

The input/output interface 73 is configured by, for example, a LAN adapter or the like. The input/output interface 73 is an interface for transmitting/receiving various signals between the door display 70 and the group management control device 10. The input/output interface 73 converts the signal output from the control unit 71 into a signal of a predetermined format, and outputs the signal to the group management control device 10. The input/output interface 73 converts the signal input from the group management control device 10 into a signal of a predetermined format, and outputs the signal to the control unit 71.

The display unit 74 is configured by, for example, a liquid crystal display panel or an organic EL display panel.

Fig. 10 is a diagram showing an example of the display of a door display 70 of the elevator group management system according to embodiment 1. The door display 70 is a display provided in the security gate 20 and used to guide the number assigned to the group management control device 10 to the user. The door display 70 is provided at the emergency gate 20, but is controllably connected to the group management control device 10. In this example, door display 70 shows that machine number a is assigned.

1-2-7. Security server

The security server 100 performs authentication based on the personal ID read by the card reader 25 of the security gate 20, determines whether or not the user can pass based on the body temperature measured by the body temperature sensor 29, and transmits a gate opening signal or a gate closing signal to the control unit 21 of the security gate 20 based on the authentication result and the determination result of whether or not the user can pass. The security server 100 outputs the destination layer information, the departure layer information, and the device ID to the group management control device 10.

Fig. 11 is a block diagram showing an electrical configuration of the security server 100 according to embodiment 1. The security server 100 is configured by a computer, and includes a control unit 101, a storage unit 102, and an input/output interface 103.

The storage unit 102 is configured by, for example, a RAM, a ROM, an HDD, an SSD, or the like, and stores programs and various data. The program includes a program for realizing various functions of the security server 100 of the present embodiment, which will be described later. The storage unit 102 stores, for example, a user database (hereinafter, referred to as "user DB") described below as data.

Fig. 12 is a diagram showing a configuration of a user DB stored in the storage unit 102 of the security server 100 according to embodiment 1. The user DB is associated with the personal ID of the user registered in the ID card, and records information on the destination layer of the user (destination layer information). In the user DB, for example, "10 layers" are recorded as destination layer information in association with the personal ID "00001". "8 layers" are recorded as destination layer information in association with the personal ID "00002". "15 layers" are recorded as destination layer information in association with the personal ID "00003". For other personal IDs, corresponding destination layers are also recorded in the same manner.

Further, storage unit 102 stores installation layer information indicating the installation layer of security gate 20 as data. The installation level information is used as departure level information of the user who has passed through the security gate 20. When the security gate 20 is provided in a plurality of layers, the storage unit 102 may store a gate information table in which the device ID of the security gate 20 and the installation layer information are recorded in association with each other, for example. In this case, when the device ID is received from the security gate 20, the installation layer information corresponding to the device ID is acquired from the gate information table, and the acquired installation layer information may be used as the departure layer information.

The control unit 101 is configured by, for example, a CPU, an MPU, or the like. The control unit 101 performs arithmetic processing using various data and the like based on the program read from the storage unit 102, thereby realizing various functions of the security server 100, which will be described later.

The input/output interface 103 is configured by a LAN adapter or the like, for example. The input/output interface 103 is an interface for transmitting and receiving various signals between the security server 100 and the security gate 20 (the card reader 25 and the control unit 21). The input/output interface 103 converts the signal output from the control unit 101 into a signal of a predetermined format and outputs the signal to the security gate 20 (the card reader 25 and the control unit 21). The input/output interface 103 converts the signal input from the security gate 20 (the card reader 25 and the control unit 21) into a signal of a predetermined format and outputs the signal to the control unit 101.

2. Movement of

2-1. Summary of the invention

The opening and closing operation of the door shutter 28 of the security gate 20 and the number assignment control of the group management system will be described in time series with reference to fig. 2.

2-1-1. Opening and closing of door stop of safety door

First, the opening and closing operation of the door shutter 28 of the safety door 20 will be described in time series. When the user enters the security gate 20 while bringing the ID card into contact with or close to the card reader 25, ID information (personal ID, device ID) is transmitted from the card reader 25 to the security server 100, and a body temperature signal is transmitted from the body temperature sensor 29. When the personal ID included in the received ID information is correct and the body temperature indicated by the body temperature signal satisfies the first body temperature condition, the security server 100 transmits a door open signal to the control unit 21 of the security gate 20 corresponding to the device ID. In this case, the controller 21 maintains the door shutter 28 in the open state. Thereby, the user can pass through the emergency gate 20.

On the other hand, if the personal ID (ID card) is not correct, the security server 100 transmits a door close signal to the control unit 21 of the security gate 20 of the device ID. In this case, the controller 21 closes the door shutter 28. Therefore, a user who presents an incorrect ID card cannot pass through the security gate 20.

When the personal ID included in the received ID information is correct but the body temperature indicated by the body temperature signal does not satisfy the first body temperature condition, the security server 100 transmits a door close signal to the control unit 21 of the security gate 20 corresponding to the device ID. In this case, the controller 21 closes the door shutter 28. Therefore, a user whose body temperature does not satisfy the first body temperature condition cannot pass through the safety door 20.

In addition, when the signal from the first sensor 26 is received in a state where the door opening signal is not received from the security server 100, the control unit 21 of the security gate 20 controls the door shutter 28 to be in the closed state. This is because there is a possibility that a user who does not have an ID card violation may want to pass through the security gate 20, and this is prevented.

In this way, a user who has a correct ID card and whose body temperature represented by the body temperature signal satisfies the first body temperature condition can enter the elevator hall, whereas a user who does not have an ID card, a user who has an incorrect ID card, and a user whose body temperature does not satisfy the first body temperature condition cannot enter the elevator hall. Therefore, safety in the building can be ensured, and hygiene for infectious diseases and the like in the building can be ensured.

2-1-2. Elevator car allocation control

When the personal ID included in the ID information (personal ID, device ID) received from the card reader 25 of the security gate 20 is correct, the security server 100 reads destination layer information corresponding to the personal ID from the user DB, and transmits the read destination layer information, departure layer information, and device ID to the group management control device 10. As the departure floor information, the installation floor information corresponding to the device ID of the security gate 20 is used as described above. Hereinafter, the acquired destination layer information, departure layer information, and device ID are collectively referred to as "allocation request information" as appropriate.

Upon receiving the assignment request information (destination layer information, departure layer information, and device ID), the group management control device 10 determines an assignment number machine based on the destination layer information and the departure layer information included in the received assignment request information. Then, the group management control device 10 transmits the assigned car information indicating the determined assigned car to the door display 70 indicated by the received device ID.

When the door display 70 receives the assigned car information from the group management control device 10, it displays the assigned car information.

2-1-3. Number assignment control when destination layer registration device has user-performed destination layer input operation

When the user does not get on the assigned car or when the user needs to go to a floor other than the destination floor registered in association with the ID card, the user can specify the destination floor using the destination floor registration device 30. The number assignment control of the group management system in this case will be described in time series.

When a user has performed an input operation for a destination layer, the destination layer registration apparatus 30 transmits destination layer information indicating the input destination layer, departure layer information, and a device ID of the destination layer registration apparatus 30 to the group management control apparatus 10. The destination floor registration device 30 stores installation floor information indicating the installation floor of the device itself, and sets the installation floor of the stored installation floor information of the device itself as the departure floor of the departure floor information. Hereinafter, the acquired destination layer information, departure layer information, and device ID are collectively referred to as "allocation request information" as appropriate.

Upon receiving the assignment request information (destination layer information, departure layer information, and device ID), the group management control device 10 determines an assignment number machine based on the destination layer information and the departure layer information included in the received assignment request information. Then, the group management control apparatus 10 transmits the assigned car information indicating the determined assigned car to the destination layer registration apparatus 30 indicated by the received device ID.

When receiving the assigned car information from the group management control device 10, the destination layer registration device 30 displays the assigned car name indicated by the assigned car information.

2-2. Concrete actions of group management system

2-2-1. Concrete operation of security gate (security server)

Specific operations of the group management system will be described. First, the processing of the security server performed when the user passes through the security gate 20 will be described. Fig. 13 is a flowchart showing the operation of the safety door 20 according to embodiment 1.

When reading a personal ID from an ID card, the card reader 25 transmits the read personal ID and the device ID of the security gate 20 in which the card reader 25 is disposed to the security server 100. Hereinafter, the personal ID and the device ID are collectively referred to as "ID information" as appropriate.

When the security server 100 (control unit 101) receives the ID information (personal ID, device ID) from any one of the plurality of card readers 25, it performs authentication to determine whether the personal ID included in the received ID information is correct (S11). For example, the control unit 101 of the security server 100 refers to the user DB stored in the storage unit 102, and determines whether or not the personal ID included in the received ID information is registered.

If it is determined that the personal ID is correct (yes in S11), that is, if the authentication is successful, control unit 101 of security server 100 acquires a body temperature signal indicating the body temperature of the user who passes through security gate 20 from body temperature sensor 29 (S12).

The control unit 101 of the security server 100 determines whether or not the body temperature indicated by the acquired body temperature signal is normal (whether or not a predetermined body temperature condition is satisfied) (S13). The predetermined body temperature condition will be described later.

When it is determined that the body temperature is normal (yes in S13), the control unit 101 of the security server 100 refers to the user DB stored in the storage unit 102 and acquires destination layer information corresponding to the personal ID (S14).

The control unit 101 of the security server 100 transmits the assignment request information including the acquired destination layer information, departure layer information, and device ID included in the received ID information to the group management control device 10 (S15). As the departure floor information, the installation floor information corresponding to the device ID of the security gate 20 is used as described above.

The control unit 101 of the security server 100 transmits a door opening signal to the security gate 20 (S16). Upon receiving the door opening signal, the controller 21 of the security gate 20 controls the door shutter 28 to be in the open state so that the user can pass through the security gate 20.

On the other hand, if it is determined that the personal ID is not correct (no in S11), that is, if the authentication is not established, or if it is determined that the body temperature is abnormal (abnormal) (no in S13), the control unit 101 of the security server 100 transmits a door close signal to the security gate 20 (S17). Upon receiving the door closing signal, controller 21 of security gate 20 controls door shutter 28 to the closed state, and blocks (restricts) the passage of the user through security gate 20.

Here, the first to fourth examples will be described as specific examples of the condition (predetermined body temperature condition) for determining whether or not the body temperature is normal in step S13. In step S13, the determination accuracy required and the environment in which the security gate 20 is used may be appropriately set. The third and fourth examples can be applied to embodiments 3, 4, 7, and 8 in which the body temperature DB is provided.

First example-

In the general human sense, when the body temperature is 37 ℃ or higher, fever is often regarded as fever. Therefore, the determined reference body temperature is set to 37 ℃, and the normal state (yes) is set when the measured body temperature is lower than 37 ℃, and the abnormal state (no) is set when the measured body temperature is not lower than 37 ℃.

Second example-

In the infectious disease law in japan, a body temperature of 37.5 ℃ or higher is classified as "fever", and a body temperature of 38.0 ℃ or higher is classified as "high fever". Therefore, the reference body temperature is determined to be 37.5 ℃, and the normal state (yes) is determined when the measured body temperature is lower than 37.5 ℃, and the abnormal state (no) is determined when the measured body temperature is not lower than 37.5 ℃.

Third example-

The temperature of the user is normal (yes) when the temperature is lower than 37 ℃, and is abnormal (no) when the temperature is not lower than 37.5 ℃. On the other hand, when the body temperature of the user is in the range of 37 ℃ to 37.5 ℃, the determination is made with reference to the average body temperature (normal body temperature) of each user over the past predetermined period, which is obtained from the body temperature DB. For example, the user whose average body temperature (normal body temperature) is 36.5 ℃ or less, that is, the user whose normal body temperature is low, is determined as "fever" and is abnormal (no), and the user whose average body temperature (normal body temperature) is 36.5 to 37 ℃, that is, the user whose normal body temperature is high, is determined as "normal body temperature" and is normal (yes).

Fourth example-

The average body temperature (normal body temperature) of each user in the past predetermined period, which is obtained from the body temperature DB, is used as the reference body temperature for the judgment of each user. When the measured body temperature is equal to or higher than the body temperature obtained by adding 1 ℃ to the average body temperature of each user, it is determined as "fever", and it is determined as abnormal (no), and when the measured body temperature is lower than the body temperature obtained by adding 1 ℃ to the average body temperature of each user, it is determined as "normal body temperature", and it is determined as normal (yes).

2-2-2. Concrete operation of the group management control device

The determination process of the assigned number machine of the group management control device 10 will be described. Fig. 14 is a flowchart showing the operation of the group management control device 10 according to embodiment 1.

The group management control device 10 determines whether or not the assignment request information (destination layer information, departure layer information, and device ID) is received from the security server 100 or the destination layer registration device 30 (S21).

When the allocation request information is received (S21), an allocation number machine is determined based on the destination layer information and the departure layer information included in the received allocation request information (S22).

Specifically, for example, the group management control device 10 first calculates an evaluation value for selecting an elevator (assigned car) to which a destination floor should be assigned for each elevator based on the operation information of each elevator. Here, the operation information of each elevator includes information indicating, for example, a car state (including a position of the car, a moving direction, an open/close state of a door, a load, and the like), a predicted waiting time (a time required for the assigned car to reach the departure floor), a predicted service completion time (a time required for the assigned car to reach the destination floor), a predetermined number of stops of the car (a predetermined number of stops of the elevator until the completion of the service), and the like. After calculating the evaluation values, the group management control device 10 selects, for example, an elevator having the highest evaluation value from the elevators 60A to 60F, and assigns the destination floor to the selected elevator. In addition to this, the group management control apparatus 10 may allocate the destination floor to any elevator using a known conventional method.

When the assigned car is determined, the group management control device 10 transmits the assigned car information indicating the determined assigned car to the door display 70 of the security gate 20 or the destination floor registration device 30 corresponding to the received device ID (S23). The group management control device 10 also transmits a command to the elevator control device 40 corresponding to the assigned elevator so that the car of the assigned elevator moves based on the destination floor information and the departure floor information included in the assignment request information.

(embodiment mode 2)

Embodiment 2 will be explained. Fig. 15 is a diagram showing a configuration of a user DB stored in the storage unit 102 of the security server 100 according to embodiment 2. In the user DB of the present embodiment, temporary permission information is recorded in comparison with the user DB of embodiment 1. Specifically, the user DB of the present embodiment records destination layer information and temporary license information in association with the personal ID of the ID card.

The temporary license information is the following information: it is indicated that the user who is determined that the measured body temperature is abnormal (abnormal) and cannot pass through the security gate 20 is allowed or not allowed to temporarily enter the specific area regardless of the measured body temperature. The temporary permission information is registered by the front desk, the person in charge (including the leader), for example, by the person with abnormal body temperature contacting the front desk, the person in charge (including the leader) of the business. The temporary license information is set to "valid" indicating that the temporary license is valid. On the other hand, the temporary license information is set to "invalid" indicating that the temporary license is invalid. In addition, the temporary license information is set to "invalid" by default.

The temporary permission information is set to "valid" when a predetermined temporary permission condition is satisfied. The predetermined temporary permission condition is a condition that satisfies a plurality of items, such as notifying the doctor's diagnosis result to the front desk, a person in charge (including a leader) (in the case where the diagnosis DB cannot be registered), wearing a mask for preventing infection, having no overseas history, obtaining permission for the leader, and measuring the body temperature with a thermometer.

In this example, the destination layer information is recorded as "10 layers" and the temporary license information is recorded as "valid" in association with the personal ID "00001". In addition, the destination layer information is recorded as "8 layers" and the temporary license information is recorded as "invalid" in association with the personal ID "00002". In addition, the destination layer information is recorded as "15 layers" and the temporary license information is recorded as "invalid" in association with the personal ID "00003". For the other individual IDs, destination layer information and temporary license information are recorded in association with each individual ID.

Fig. 16 is a flowchart showing the operation of the safety door 20 according to embodiment 2. In steps S31 and S34 to S39, the same processing as in steps S11 and S12 to S17 of embodiment 1 (fig. 13) is performed. Therefore, the description will be focused on the differences.

That is, when the authentication is established (S31: YES), the control unit 101 of the security server 100 refers to the user DB stored in the storage unit 102, and acquires temporary permission information corresponding to the personal ID included in the received ID information (S32)

The control unit 101 of the secure server 100 determines whether the acquired temporary license information is "valid" or "invalid", that is, whether a temporary license is indicated (S33).

If the temporary permission information indicates "valid" (yes at S33), the process proceeds to step S36, bypassing the determination of whether or not the body temperature is normal at step S34 and step S35. Accordingly, regardless of the body temperature of the user, the same control as that in the case where the body temperature is determined to be normal is performed in steps S36 to S38.

On the other hand, when the temporary permission information indicates "invalid" (NO in S33), the body temperature signal is acquired (S34), and then, it is determined whether or not the body temperature is normal (S35), and thereafter, control is performed in accordance with the result of the determination.

That is, when it is determined that the body temperature is normal (yes in S35), the same processes (S36 to S38) as those (S14 to S16) performed when it is determined that the body temperature is normal (yes in S13) in embodiment 1 are performed. That is, the distribution request information including the information of the destination floor and the departure floor of the user is transmitted to the group management control device 10 (S36, S37), and the door opening signal is transmitted to the security gate 20 (S38). The door check 28 is controlled to be in an open state so that a user can pass through the emergency gate 20.

On the other hand, when it is determined that the body temperature is abnormal (no in S35), the same process as the process (S17) performed when it is determined that the body temperature is abnormal (abnormal in S13) in embodiment 1 is performed in step S39 (S39). That is, a door closing signal is transmitted to the emergency gate 20 (S39). The door shutter 28 is controlled to be in a closed state to restrict a user from passing through the emergency gate 20.

According to the present embodiment, even when the body temperature measured by the body temperature sensor 29 is abnormal (does not satisfy the predetermined body temperature condition), the user can be allowed to enter the specific area in an emergency or the like.

(embodiment mode 3)

Embodiment 3 will be explained. Fig. 17 is a block diagram showing an electrical configuration of the security server 100 according to embodiment 3. In the present embodiment, the storage unit 102 of the security server 100 stores not only the user DB but also a body temperature database (hereinafter, referred to as "body temperature DB"). The user DB has the same configuration as that of embodiment 1.

Fig. 18 is a diagram showing the configuration of the body temperature DB stored in the storage unit 102 of the security server 100 according to embodiment 3. The body temperature DB is associated with the individual ID of the ID card, and records the date and time of body temperature measurement, body temperature information, and determination result information in association with each other. The body temperature measurement date and time is the date and time at which the body temperature was measured. The body temperature information is information indicating the body temperature measured by the body temperature sensor 29. The determination result information is information indicating a result of determining whether the body temperature is normal based on the measured body temperature. The judgment result information is recorded as "normal" or "abnormal".

In the example of fig. 18, the date and time of the body temperature measurement, the body temperature information, and the determination result information are recorded as "201509010845", "36.5", and "normal" in association with the personal ID "00001". Further, the date and time of body temperature measurement, body temperature information, and determination result information are recorded as "201509020850", "36.5", and "normal" in association with the personal ID "00001". Further, the date and time of body temperature measurement, body temperature information, and determination result information are recorded as "201509030830", "36.5", and "normal" in association with the personal ID "00001". Further, the date and time of body temperature measurement, body temperature information, and determination result information are recorded as "201509020825", "36.5", and "normal" in association with the personal ID "00002". Further, the date and time of body temperature measurement, body temperature information, and determination result information are recorded as "201509021250", "36.5", and "normal" in association with the personal ID "00002". Further, the date and time of body temperature measurement, body temperature information, and determination result information are recorded as "201509030830", "37.5", and "abnormal" in association with the personal ID "00002".

The recording of the personal ID, the date and time of the body temperature measurement, the body temperature information, and the judgment result information into the body temperature DB is performed each time the user of the building passes through the security gate 20. Based on the data of the body temperature DB, for example, the average body temperature (average value of body temperatures determined to be normal) of each person over a predetermined period (past one month or the like) can be calculated.

Fig. 19 is a flowchart showing the operation of the safety door 20 according to embodiment 3. In steps S41 and S45 to S48, the same processing as in steps S11 and S14 to S17 of embodiment 1 (fig. 13) is performed. Therefore, the description will be focused on the differences.

That is, when authentication is established (yes in S41), control unit 101 of security server 100 acquires a body temperature signal indicating the body temperature of the user who passes through security gate 20 from body temperature sensor 29 (S42). The control unit 101 of the security server 100 records the body temperature indicated by the body temperature signal acquired this time, the body temperature acquisition date, and the body temperature acquisition time in the body temperature DB of the storage unit 102 in association with the acquired personal ID.

The control unit 101 of the secure server 100 determines whether or not the body temperature indicated by the acquired body temperature signal is normal (S43). The determination conditions are the same as those in embodiment 1. The control unit 101 of the security server 100 records the determination result information in the body temperature DB in the storage unit 102 in association with the personal ID.

When it is determined that the body temperature is normal (yes in S43), the control unit 101 of the security server 100 refers to the body temperature DB stored in the storage unit 102, and determines whether or not the determination result information in the past predetermined period (for example, from the authentication date to four days before) corresponding to the personal ID acquired this time contains "abnormality" (S44).

If the determination result information does not include "abnormal" for the past predetermined period (no in S44), the same processing (S45 to S47) as the processing (S14 to S16) performed when it is determined that the body temperature is normal in embodiment 1 (yes in S13) is executed in steps S45 to S47. That is, the distribution request information including the information of the user' S destination floor and departure floor is transmitted to the group management control device 10 (S45, S46), and the door opening signal is transmitted to the emergency gate 20 (S47), and the door check 28 is controlled to the opened state so that the user can pass through the emergency gate 20.

On the other hand, if the determination result information in the past predetermined period includes "abnormal" (yes in S44), the same process (S48) as the process (S17) performed when it is determined that the body temperature is abnormal (abnormal) (no in S13) in embodiment 1 is executed in step S48. That is, a door closing signal is transmitted to the emergency gate 20 (S48), and the door stopper 28 is controlled to be in a closed state, thereby restricting the user from passing through the emergency gate 20.

According to the present embodiment, even when the body temperature measured by the body temperature sensor 29 is normal (satisfies the predetermined body temperature condition), the entrance of the user into the specific area is restricted by the door check 28 when the body temperature measured in the past predetermined period stored in the body temperature DB in association with the personal ID of the user is abnormal (does not satisfy the predetermined body temperature condition). Therefore, for example, entry into a specific area can be appropriately restricted in the case where only the body temperature is temporarily lowered. Therefore, spreading of infectious diseases and the like can be prevented more effectively.

(embodiment mode 4)

Embodiment 4 will be explained. Fig. 20 is a block diagram showing an electrical configuration of the security server 100 according to embodiment 4. In the present embodiment, the storage unit 102 of the security server 100 stores not only the user DB and the body temperature DB but also a diagnosis database (hereinafter, referred to as "diagnosis DB"). The user DB has the same configuration as that of embodiment 1, and the body temperature DB has the same configuration as that of embodiment 3.

Fig. 21 is a diagram showing the configuration of the diagnostic DB stored in the storage unit 102 of the security server 100 according to embodiment 4. The diagnosis DB records a registration date, a non-authentication period (the number of days of the non-authentication period), and a flag in association with the individual ID of the ID card. The registration date is the date of the registration non-authentication period. The flag indicates whether or not the non-authentication period recorded in association with the personal ID is valid, and is set to "valid" when valid, and is set to "invalid" when not valid. The registration of the personal ID, the registration date, the non-authentication period, and the flag (valid or invalid) with the diagnosis DB is performed by a person in charge of a company or the like by notifying a diagnosis result of a doctor to the person in charge of the company or the like by a user via a telephone or a mail. The flag is set to "valid" on the registration day registered in the diagnostic DB, and is automatically set to "invalid" by the management program of the diagnostic DB on the later day from the registration day, for example, the fifth day (when abnormal data up to four days ago is configured to be used in the body temperature DB) or the next day from the final day during non-authentication.

In the example of fig. 21, the registration date, the non-authentication period (number of days), and the flag are recorded as "20150903", "5", and "valid" in association with the personal ID "00002". Further, the registration date, the non-authentication period (number of days), and the flag are recorded as "20150801", "5", and "invalid" in association with the personal ID "00005". Further, the registration date, the non-authentication period (number of days), and the flag are recorded as "20150610", "5", and "invalid" in association with the personal ID "00010".

Fig. 22 is a flowchart showing the operation of the safety door 20 according to embodiment 4. Steps S51, S52, and S55 to S60 in embodiment 4 are performed in the same manner as steps S41, S42, and S43 to S48 in embodiment 3 (fig. 19). Therefore, differences from embodiment 3 will be mainly described.

That is, the control unit 101 of the security server 100 acquires a body temperature signal indicating the body temperature of the user who passes through the security gate 20 from the body temperature sensor 29, records the body temperature indicated by the body temperature signal acquired this time and the date and time of body temperature acquisition in the body temperature DB of the storage unit 102 in association with the acquired personal ID (S52), and then determines whether or not data of the non-authentication period corresponding to the personal ID acquired this time is present in the diagnosis DB (S53).

If there is data of the non-authentication period corresponding to the personal ID acquired this time (yes in S53), control unit 101 of security server 100 determines whether or not the non-authentication period has been exceeded (S54).

If the non-authentication period is exceeded (yes in S54), the control unit 101 of the security server 100 executes the same processing (S57 to S59) as the processing (S45 to S47) executed in step S57 to S59 when it is determined in embodiment 3 that the determination result information in the past predetermined period does not include "abnormal" (no in S44). That is, the group management control device 10 transmits the assignment request information including the information of the destination layer and the departure layer of the user (S57, S58), and transmits the door opening signal to the emergency gate 20 (S59). The door check 28 is controlled to be in an open state so that a user can pass through the emergency gate 20.

On the other hand, when the non-authentication period is not exceeded (no in S54), the process of step S60 is executed in the same manner as when it is determined that the determination result information in the past predetermined period includes "abnormal" (yes in S56) or when it is determined that the body temperature is abnormal (abnormal) (no in S55). That is, a door closing signal is transmitted to the emergency gate 20 (S60). The door shutter 28 is controlled to be in a closed state to restrict a user from passing through the emergency gate 20.

If it is determined in step S53 that there is no data in the non-authentication period corresponding to the personal ID acquired this time (no in S53), the same processing as in steps S43 to S47 of embodiment 3 is executed in steps S55 to S59. That is, the control unit 101 of the secure server 100 determines whether or not the body temperature indicated by the acquired body temperature signal is normal (S55). The determination conditions are the same as those described in embodiment 1. The control unit 101 of the security server 100 records the determination result information in the body temperature DB in the storage unit 102 in association with the personal ID.

When it is determined that the body temperature is normal (yes in S55), the control unit 101 of the security server 100 refers to the body temperature DB stored in the storage unit 102 and determines whether or not the determination result information in the past predetermined period corresponding to the personal ID acquired this time does not include "abnormal" (S56).

If the determination result does not include "abnormal" within the past predetermined period (no in S56), the above-described processing is performed in steps S57 to S59.

On the other hand, if the determination result in the past predetermined period includes "abnormal" (yes in S56), the above-described processing is performed in step S60.

According to the present embodiment, when a valid diagnosis result is stored in the diagnosis DB in association with the personal ID of the user and the stored non-authentication period is not exceeded, the entrance of the user into the specific area is restricted by the door check 28 regardless of whether the body temperature of the user satisfies the predetermined body temperature condition. Therefore, for example, when the patient is restricted from going out or working for a certain period after the body temperature is lowered like the case of curing influenza or the like, the patient can be appropriately restricted from entering a specific area.

(embodiments 5 to 8 outline)

The outline of embodiments 5 to 8 will be explained. In embodiments 1 to 4, the configuration of the group management control device 10 including the security gate 20 and the elevator that cooperates with the security gate 20 by being signally and controllably connected thereto is described. However, the present invention can also be applied to a security gate connected to an elevator group management control device without signal or control. The present invention can also be applied to a security gate in a building in which an elevator and a group management control device are not installed. Embodiments 5 to 8 will be described below with respect to a security gate not connected to the group management control device 10 in a signaling or control manner, or a security gate in a building not provided with an elevator and a group management control device.

First, the safety doors according to embodiments 5 to 8 will be described with respect to the structural differences from the safety doors according to embodiments 1 to 4. In embodiments 1 to 4, as shown in fig. 1, 7A, 7B, 7C, and 8, the door display 70 is disposed on the door main body 20R of the security gate 20, but in the security gates of embodiments 5 to 8, the door display 70 is removed from fig. 1, 7A, 7B, 7C, and 8. In embodiments 1 to 4, as shown in fig. 1, 11, 17, and 20, the group management control device 10 is connected to the secure server 100, but embodiments 5 to 8 are configured such that the group management control device 10 is not connected to the secure server 100 or the group management control device 10 itself is eliminated in fig. 1, 11, 17, and 20.

(embodiment 5)

Fig. 23 is a flowchart showing control of the security server of embodiment 5 on the security gate 20. The flowchart of the present embodiment is the same as the flowchart of embodiment 1 (fig. 13), except that steps S14 and S15 in the flowchart of embodiment 1 (fig. 13) are omitted. In the present embodiment, if the determination of step S13 is yes, step S16 is executed, and if the determination of step S13 is no, step S17 is executed.

(embodiment mode 6)

Fig. 24 is a flowchart showing the control of the security server of embodiment 6 on the security gate 20. The flowchart of the present embodiment is the same as the flowchart of embodiment 2 (fig. 16), except that steps S36 and S37 in the flowchart of embodiment 2 (fig. 16) are omitted. In the present embodiment, if the determination of step S35 is yes, step S38 is executed, and if the determination of step S35 is no, step S39 is executed.

(embodiment 7)

Fig. 25 is a flowchart showing the control of the security server of embodiment 7 on the security gate 20. The flowchart of the present embodiment is the same as the flowchart of embodiment 3 (fig. 19), except that steps S45 and S46 in the flowchart of embodiment 3 (fig. 19) are omitted. In the present embodiment, if the determination at step S44 is no, step S47 is executed, and if the determination at step S44 is yes, step S48 is executed.

(embodiment mode 8)

Fig. 26 is a flowchart showing the control of the security server of embodiment 8 on the security gate 20. The flowchart of the present embodiment is the same as the flowchart of embodiment 4 (fig. 22), except that steps S57 and S58 in the flowchart of embodiment 4 (fig. 22) are omitted. In the present embodiment, if the determination at step S56 is no, step S59 is executed, and if the determination at step S56 is yes, step S60 is executed.

(summary of the embodiments)

(1) The security gate 20 according to embodiments 1 to 8 is disposed at an entrance of a specific area of a building, and controls entrance of a user of the building into the specific area.

The safety door 20 includes:

a body temperature sensor 29 (body temperature measuring unit) for measuring the body temperature of the user who passes through the safety door 20;

a door stopper 28 (restricting portion) that controls the entry of a user into a specific area; and

the security server 100 (control unit).

The security server 100 (control unit) controls the door guard 28 (restricting unit) so as to restrict the entry of the user into the specific area when the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) does not satisfy the predetermined body temperature condition.

Thus, when a user of the building intends to enter a specific area of the building, the body temperature of the user who passes through the security gate 20 is measured by the body temperature sensor 29 (body temperature measuring unit) of the security gate 20 disposed at the entrance of the specific area of the building. When the measured body temperature does not satisfy the predetermined body temperature condition, the entrance of the user into the specific area is restricted by the door guard 28 (restricting portion). Therefore, it is possible to automatically restrict the entry of a user of a building into a specific area of the building when the user has a fever without, for example, the employee detecting the fever person using a thermal infrared imager or the like.

(2) The safety door 20 according to embodiments 1 to 8 includes a door main body 20R (housing) disposed along an entrance direction of a user.

The body temperature sensor 29 (body temperature measuring unit) is disposed on the upper surface of the door main body 20R (housing).

This enables the body temperature to be measured with the upper half of the user of the building as the center.

(3) The safety door 20 according to embodiments 1 to 8 includes a door main body 20L (housing) disposed along the entering direction of a user.

The body temperature sensor 29 (body temperature measuring unit) is disposed on a surface parallel to the entering direction among the side surfaces of the door main body 20L (housing).

This enables the body temperature to be measured around the lower body of the user of the building.

(4) The security gate 20 according to embodiments 1 to 8 includes a gate main body 20L (housing) and a gate main body 20R (housing) arranged along the entering direction of a user.

The body temperature sensor 29 (body temperature measuring unit) is disposed at a position equal to or higher than a predetermined height above the passage PA through which the user can pass between the door main body 20L (case) and the door main body 20R (case).

This enables the body temperature to be measured around the upper side of the user of the building, particularly the head.

(5) The safety door 20 according to embodiments 3, 4, 7, and 8 further includes:

a card reader 25 (identification information acquisition unit) for acquiring a personal ID (identification information) of a user who passes through the security gate 20; and

body temperature DB (body temperature storage unit).

When the user passes through the security gate 20, the security server 100 (control unit) stores the personal ID (identification information) acquired by the card reader 25 (identification information acquisition unit), the body temperature measured by the body temperature sensor 29 (body temperature measurement unit), and the date and time of the body temperature measurement in the body temperature DB (body temperature storage unit) in association with each other,

even when the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) satisfies the predetermined body temperature condition, the security server 100 (control unit) controls the door check 28 (restricting unit) so as to restrict the entry of the user into the specific area when the body temperature measured in the past predetermined period stored in the body temperature DB (body temperature storage unit) in association with the personal ID (identification information) of the user does not satisfy the predetermined body temperature condition.

Thus, even when the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) satisfies the predetermined body temperature condition, the entrance of the user into the specific area is restricted by the door check 28 (restricting unit) when the body temperature measured in the past predetermined period stored in the body temperature DB (body temperature storage unit) in association with the personal ID (identification information) of the user does not satisfy the predetermined body temperature condition. Therefore, for example, in the case where only the body temperature is temporarily lowered, entry into a specific area can be appropriately restricted.

(6) The safety door 20 according to embodiments 4 and 8 further includes:

a card reader 25 (identification information acquisition unit) for acquiring a personal ID (identification information) of a user who passes through the security gate 20; and

a diagnosis DB (diagnosis result storage unit) which stores the personal ID (identification information) of the user and a non-authentication period based on the diagnosis result of the doctor in association with each other.

When the diagnosis DB (diagnosis result storage unit) stores valid diagnosis result information in association with the personal ID (identification information) of the user and does not exceed the stored non-authentication period, the security server 100 (control unit) controls the door check 28 (restriction unit) to restrict the entry of the user into the specific area regardless of whether the body temperature of the user satisfies the predetermined body temperature condition.

Thus, when the diagnostic DB (diagnostic result storage unit) stores valid diagnostic result information in association with the personal ID (identification information) of the user and does not exceed the stored non-authentication period, the entrance of the user into the specific area is restricted by the door check 28 (restricting unit) regardless of whether the body temperature of the user satisfies the predetermined body temperature condition. Therefore, for example, when the patient is restricted from going out or working for a certain period of time after the body temperature is lowered after the influenza or the like is cured, it is possible to appropriately restrict the entry into the specific area.

(7) The safety door 20 according to embodiments 2 and 6 further includes:

a card reader 25 (identification information acquisition unit) for acquiring a personal ID (identification information) of a user who passes through the security gate 20; and

the user DB (user information storage unit) stores a personal ID (identification information) of a user and temporary license information related to temporary access license in association with each other.

When the temporary permission information stored in the user DB (user information storage unit) in association with the personal ID (identification information) of the user indicates that the user is permitted to temporarily enter, the security server 100 (control unit) controls the door check 28 (restriction unit) so as not to restrict the entry of the user into the specific area regardless of whether the body temperature of the user satisfies the predetermined body temperature condition.

Thus, even when the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) does not satisfy the predetermined body temperature condition, the user can be allowed to enter the specific area in an emergency or the like.

(8) The safety door 20 according to embodiments 1 to 4 further includes:

a card reader 25 (identification information acquisition unit) for acquiring a personal ID (identification information) of a user who passes through the security gate 20; and

the user DB (destination layer information storage unit) stores destination layer information corresponding to the personal ID (identification information) acquired by the card reader 25 (identification information acquisition unit).

When the card reader 25 (identification information acquiring unit) acquires the personal ID (identification information) and the gate bar 28 (restricting unit) is not controlled so as to restrict the entry of the user into the specific area, the security server 100 (control unit) outputs destination layer information stored in the user DB (destination layer information storage unit) in association with the personal ID (identification information) of the user to the external device.

This enables elevator 60 to be controlled by security gate 20.

(9) The safety door 20 according to embodiments 1 to 4 further includes:

the user DB (destination layer information storage unit) stores destination layer information corresponding to the personal ID (identification information) acquired by the card reader 25 (identification information acquisition unit).

When the card reader 25 (identification information acquiring unit) acquires the personal ID (identification information) and the gate bar 28 (restricting unit) is not controlled to restrict the entry of the user, the security server 100 (control unit) outputs destination layer information stored in the user DB (destination layer information storage unit) in association with the personal ID (identification information) of the user to the external device.

This enables control of elevator 60 in conjunction with the determination result of security gate 20.

(10) In the safety doors 20 according to embodiments 1 to 8,

the predetermined body temperature condition is that the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) is lower than the predetermined body temperature. In a first example of the predetermined body temperature condition, the predetermined body temperature is 37 ℃. In a second example of the condition of the prescribed body temperature, the prescribed body temperature is 37.5 ℃.

This makes it possible to restrict the entry of a user into a specific area by the door check 28 (restricting unit) with a simple configuration.

(11) In the safety doors 20 according to embodiments 1 to 8,

the predetermined body temperature condition satisfies at least one of the following (1) and (2).

(1) The body temperature measured by the body temperature sensor 29 (body temperature measuring unit) is lower than a first predetermined body temperature,

(2) the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) is lower than a second predetermined body temperature higher than the first predetermined body temperature, and the average body temperature calculated based on the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) in the past predetermined period is between the first predetermined body temperature and a third predetermined body temperature lower than the first predetermined body temperature.

In a third example of the condition of the body temperature, the first body temperature is 37 ℃, the second body temperature is 37.5 ℃ and the third body temperature is 36.5 ℃.

This makes it possible to appropriately restrict the entry of the user into the specific area by the door guard 28 (restricting portion) according to the average body temperature of the user.

(12) In the safety doors 20 according to embodiments 1 to 8,

the predetermined body temperature condition is a condition in which the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) is lower than a value obtained by adding a predetermined temperature to an average body temperature calculated based on the body temperature measured by the body temperature sensor 29 (body temperature measuring unit) over a predetermined period in the past. In a fourth example of the predetermined body temperature condition, the predetermined temperature is 1 ℃.

This makes it possible to appropriately restrict the entry of the user into the specific area by the door guard 28 (restricting portion) according to the average body temperature of the user.

(13) The group management system of the elevator of the embodiment 1-4 comprises:

a security gate 20 described in claim 8 or claim 9; and

the group management control device 10 receives destination floor information outputted from the security server 100 (control unit) of the security gate 20, and allocates a destination floor indicated by the received destination floor information to any of the plurality of elevators 60.

Thus, in the group management system of the elevator, the security gate 20 having the body temperature sensor 29 (body temperature measuring unit) can be used to assign the destination floor only to the user who is not restricted to entering the specific area. Further, the user with an abnormal body temperature can be restricted from riding in the car of the elevator 60 by interlocking with the security gate 20.

(14) The elevator system of embodiments 1 to 4 includes:

a security gate 20 described in claim 8 or claim 9;

a plurality of elevators 60; and

the group management control device 10 receives destination floor information outputted from the security server 100 (control unit) of the security gate 20, and allocates a destination floor indicated by the received destination floor information to any of the plurality of elevators 60.

Thus, in the elevator system, the security gate 20 having the body temperature sensor 29 (body temperature measuring unit) can be used to assign a destination floor only to users who are not restricted to entering a specific area. Further, the user with an abnormal body temperature can be restricted from riding in the car of the elevator 60 by interlocking with the security gate 20.

(the embodiment corresponds to the main constituent elements of the present invention)

The safety door 20 of each embodiment described above is an example of the safety door of the present invention. The security server 100 is an example of the control unit of the present invention. The gate shutter 28 is an example of the restricting portion of the present invention. The body temperature sensor 29 is an example of the body temperature measuring unit of the present invention. The card reader 25 is an example of the identification information acquisition unit of the present invention.

(other embodiments)

In each of the above embodiments, the control unit of the security gate according to the present invention is configured as the security server 100 in which the gate main bodies 20L and 20R are single bodies. However, in the present invention, the control unit of the safety door may be provided inside the door bodies 20L and 20R. Further, the safety door 20 may be integrated with the controller 21.

In the safety door 20 described in fig. 7A to 7C of the above embodiment, the body temperature sensors 29 are disposed at different positions one by one, but any two or more of the body temperature sensors 29 in fig. 7A to 7C may be disposed in combination. This enables a plurality of parts of the user's body, such as the head and lower body, to be measured simultaneously. When the body temperature measured by at least one of the two or more body temperature sensors 29 does not satisfy the predetermined body temperature condition, the user of the body temperature may be determined to be abnormal. Thus, the accuracy of measuring the body temperature can be improved, and a user with abnormal body temperature can be accurately detected.

In the above embodiments, the body temperature measurement function of the body temperature sensor 29 is always enabled. However, the body temperature measurement function of the body temperature sensor 29 may be enabled during the work hours and disabled outside the work hours.

In the above embodiments, the card reader 25 is exemplified as the identification information acquisition unit of the present invention. However, the identification information acquisition unit is not limited to the card reader 25, and may be, for example, an NFC (near field communication) reader. The medium for storing the personal ID is not limited to an ID card (IC card), and may be a mobile terminal such as a smartphone that satisfies NFC communication.

The identification information acquiring unit may be a fingerprint reading device capable of reading a fingerprint or an IC tag reader capable of communicating with an IC tag. Thus, for example, in an automatic gate (a system capable of automatically performing entry and exit procedures by performing identity verification by authentication of an IC tag embedded in a passport and fingerprint verification) installed in an airport, the present invention is applied to a body temperature sensor, thereby reliably detecting an abnormality in body temperature of a user and restricting entry thereof.

In the above embodiments, the control units 11, 21, 31, 41, 71, and 101 are configured by a CPU, an MPU, or the like, and perform arithmetic processing using various data based on programs read from the storage units 12, 22, 32, 42, 72, and 102, thereby realizing various functions. That is, the control units 11, 21, 31, 41, 71, and 101 are realized by cooperation of hardware and software. However, the control units 11, 21, 31, 41, 71, and 101 may be configured by hardware (electronic circuit) such as an FPGA or an ASIC.

In the above embodiments, the network NW is Ethernet (registered trademark), and the input/ output interfaces 13, 23, 24, 33, 43, 73, and 103 are configured by using LAN adapters or the like. However, the network NW may be a wireless LAN based on IEEE standard, for example, and the input/ output interfaces 13, 23, 24, 33, 43, 73, and 103 may be configured by wireless LAN adapters or the like.

In the above embodiments, as described with reference to fig. 8, the card reader 25 is connected to the input/output interface 23. However, the card reader 25 may be connected to the control unit 21. In this case, the personal ID read by the card reader 25 may be transmitted to the security server 100 via the control unit 21 and the input/output interface 23. The device ID of the security gate 20 provided with the card reader 25 may be transmitted from the control unit 21 to the security server 100 without being transmitted from the card reader 25.

Description of the symbols

10 groups of management control devices

11 control part

12 storage part

13 input/output interface

20. 20A, 20B, 20C safety door

20L, 20R door body

20i inlet

20e outlet

21 control part

22 storage section

23 input/output interface

25 card reader

26 first sensor

27 second sensor

28 door baffle

29 body temperature sensor

30. 30A-30Z destination floor registration device

31 control part

32 storage part

33 input/output interface

34 display part

35 operating part

40. 40A-40F elevator control device

41 control part

42 storage unit

43 input/output interface

60. 60A-60F elevator

70 door display

71 control part

72 storage part

73 input/output interface

74 display part

100 secure server

101 control unit

102 storage unit

103 input/output interface

Claims (7)

1. A security gate that is disposed at an entrance of a specific area of a building and controls entrance of a user of the building into the specific area, the security gate comprising:

a housing disposed along an entry direction of a user;

a body temperature measuring unit for measuring the body temperature of a user passing through the safety door;

a restricting unit for controlling the entry of the user into the specific area;

an identification information acquisition unit that acquires identification information of a user who is passing through the security gate;

a diagnosis result storage unit which stores the identification information of the user and diagnosis result information including a non-authentication period based on a diagnosis result of the doctor in association with each other;

a body temperature storage unit; and

a control part for controlling the operation of the display device,

the body temperature measuring unit includes at least two body temperature measuring units among a body temperature measuring unit disposed on an upper surface of the housing, a body temperature measuring unit disposed on a surface of a side surface of the housing parallel to the entering direction, and a body temperature measuring unit disposed at a position higher than or equal to a predetermined height above the housing,

the control section is configured to:

when the user passes through the security gate, the identification information acquired by the identification information acquiring unit, the body temperatures measured by the body temperature measuring units included in the body temperature measuring unit, and the date and time of the body temperature measurement are stored in the body temperature storage unit in association with each other,

controlling the restricting unit to restrict the user from entering the specific area when the following condition (1) is satisfied;

controlling the restricting unit to restrict the user from entering the specific area when the following condition (1) is not satisfied and the following condition (2) is satisfied;

controlling the restricting unit to restrict the user from entering the specific area when the following conditions (1) and (2) are not satisfied and the following condition (3) is satisfied,

the condition (1) is: storing effective diagnosis result information in the diagnosis result storage unit in association with the identification information of the user and not exceeding the stored non-authentication period;

the condition (2) is: the diagnosis result storage unit does not have effective diagnosis result information stored in association with the identification information of the user, and at least one of the body temperatures measured by the body temperature measurement units included in the body temperature measurement unit does not satisfy a predetermined body temperature condition;

the condition (3) is: the diagnostic result storage unit does not have valid diagnostic result information stored in association with the identification information of the user, and each of the body temperatures measured by the body temperature measurement units included in the body temperature measurement unit satisfies a predetermined body temperature condition, and at least one of the body temperatures measured during a past predetermined period stored in association with the identification information of the user in the body temperature storage unit does not satisfy the predetermined body temperature condition.

2. The security gate of claim 1,

further provided with: a destination layer information storage unit for storing destination layer information corresponding to the identification information acquired by the identification information acquisition unit,

when the identification information acquisition unit acquires identification information and the restriction unit is not controlled to restrict the user from entering the specific area, the control unit outputs destination-layer information stored in the destination-layer information storage unit in association with the identification information to an external device.

3. A safety door according to claim 1 or 2,

the predetermined body temperature condition is that the body temperature measured this time is lower than the predetermined body temperature.

4. A safety door according to claim 1 or 2,

the above specified body temperature conditions were:

when the body temperature measured this time is between a first predetermined body temperature and a second predetermined body temperature higher than the first predetermined body temperature, an average body temperature calculated based on the body temperatures measured by the same body temperature measurement means this time in a past predetermined period is between the first predetermined body temperature and a third predetermined body temperature lower than the first predetermined body temperature.

5. A safety door according to claim 1 or 2,

the predetermined body temperature condition is a condition in which the body temperature measured this time is lower than a value obtained by adding a predetermined temperature to an average body temperature calculated based on the body temperature measured by the same body temperature measurement means this time over a predetermined period in the past.

6. Group management system for elevators, characterized by comprising:

a security gate as set forth in claim 2; and

and a group management control device for inputting the destination floor information outputted from the control unit of the security gate and allocating the destination floor indicated by the input destination floor information to any one of the elevators.

7. An elevator system, comprising:

a security gate as set forth in claim 2;

a plurality of elevators; and

and a group management control device for inputting the destination floor information outputted from the control unit of the security gate and allocating the destination floor indicated by the input destination floor information to any one of the plurality of elevators.

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