CN217051155U - Elevator control device - Google Patents

Abstract

The utility model is suitable for the technical field of elevators, and provides an elevator control device, which comprises a main control module, and an interaction module and a control module which are electrically connected with the main control module; the interaction module is configured to be electrically connected with the elevator button and the display screen; the control module is configured to be electrically connected with the control switch, and receives a control instruction through the control switch so as to enable a corresponding intelligent control mode; the main control module is configured to be electrically connected with the change-over switch, a change-over instruction is received through the change-over switch, the working mode of the main control module is switched to comprise a demonstration mode and an intelligent control mode, the main control module controls the display screen to simulate and demonstrate the running state of the elevator in the intelligent control mode in the demonstration mode, the main control module controls the elevator to run in the corresponding running state in the intelligent control mode, the main control module can be switched to the demonstration mode according to the actual needs of a user, the running state of the elevator in various intelligent control modes is simulated and demonstrated, and manual explanation is not needed.

Description

Elevator control device

Technical Field

The utility model belongs to the technical field of the elevator, especially, relate to an elevator control device.

Background

With the continuous development of elevator technology and the continuous improvement and improvement of living standard and living conditions of people, the usage amount of the elevator rapidly rises, and people also put forward higher requirements on the use feeling of the elevator. Most of the existing elevators adopt elevator buttons to call, and the novel intelligent elevator calling functions such as card swiping, fingerprint calling, voice calling and the like are gradually popularized and used. However, in the face of various new call functions of elevators, users often do not know how to use the elevators, and need to rely on sales personnel or property personnel for manual explanation.

SUMMERY OF THE UTILITY MODEL

In view of this, the embodiment of the present invention provides an elevator control device to solve the problem that the user often does not know how to use the elevator facing various novel elevator calling functions and needs to rely on the sales force or the property personnel to perform manual explanation.

The embodiment of the utility model provides an elevator control device, which comprises a main control module, and an interaction module and a control module which are electrically connected with the main control module;

the interaction module is configured to be electrically connected with an elevator button and a display screen;

the control module is configured to be electrically connected with a control switch, and receive a control instruction through the control switch so as to enable a corresponding intelligent control mode;

the main control module is configured to be electrically connected with a selector switch, and receives a switching instruction through the selector switch so as to switch the working modes of the main control module, wherein the working modes comprise a demonstration mode and an intelligent control mode, the main control module controls the display screen to simulate and demonstrate the running state of an elevator in the intelligent control mode in the demonstration mode, and the main control module controls the elevator to run in a corresponding running state in the intelligent control mode.

In one embodiment, the control module includes an IC card control unit;

the IC card control unit is configured to be electrically connected with a first control switch, and receive a first control instruction through the first control switch so as to enable an IC card control mode.

In one embodiment, the interaction module is further configured to electrically connect with a voice module;

the IC card control unit is also configured to carry out authority authentication on the IC card and send an authentication result to the main control module;

the main control module is also configured to control the voice module to send first voice information prompting to use the IC card for authority authentication if the authentication result is not received or the authentication result is not passed authority authentication and a manual call calling instruction is received only through the elevator button under the IC card control mode.

In one embodiment, the control module comprises a fingerprint IC card control unit;

the fingerprint IC card control unit is configured to be electrically connected with a second control switch, and a second control instruction is received through the second control switch so as to enable a fingerprint IC card control mode.

In one embodiment, the interaction module is further configured to electrically connect with a voice module;

the fingerprint IC card control unit is also configured to carry out authority authentication on an IC card or a fingerprint and send an authentication result to the main control module;

the main control module is also configured to control the voice module to send second voice information for prompting the user to use the fingerprint or the IC card to carry out authority authentication in the fingerprint IC card control mode if the authentication result is not received or the authentication result is not passed authority authentication and a manual call calling instruction is received only through the elevator button.

In one embodiment, the control module comprises a voice control unit;

the voice control unit is configured to be electrically connected with a third control switch, and a third control instruction is received through the third control switch to enable a voice control mode.

In one embodiment, the interaction module is further configured to electrically connect with a voice module;

the main control module is also configured to control the running state of an elevator according to a voice call instruction received by the voice control unit or a manual call instruction received by the elevator button in the voice control mode.

In one embodiment, the elevator control device further comprises a Mod bus communication interface electrically connected with the main control module;

the Mod bus communication interface is configured to be electrically connected with other control modules to extend an intelligent control mode.

In one embodiment, the master control module comprises an elevator master control board and a car command board;

the elevator main control board is electrically connected with the car command board and the interaction module;

the car command board is electrically connected with the interaction module and the control module.

In one embodiment, the elevator control apparatus further comprises a box;

the main control module, the interaction module and the control module are arranged in the box body;

the control switch and the change-over switch are arranged at the top of the box body.

The embodiment of the utility model provides an elevator control device, including the main control module and the interactive module and the control module that are connected with the main control module electricity; the interaction module is configured to be electrically connected with the elevator button and the display screen; the control module is configured to be electrically connected with the control switch, and receives a control instruction through the control switch so as to enable a corresponding intelligent control mode; the main control module is configured to be connected with the change over switch electricity, receive switching instructions through the change over switch, with the mode of switching main control module, the mode of operation includes demonstration mode and intelligent control mode, main control module controls the display screen simulation demonstration elevator operating condition under the intelligent control mode under the demonstration mode, main control module controls the elevator and moves with corresponding operating condition under the intelligent control mode, can switch to the demonstration mode according to user's actual need, simulate the demonstration to the operating condition of elevator under various intelligent control modes, need not to rely on artifical explanation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following descriptions are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a first schematic structural view of an elevator control apparatus according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an elevator button and a display screen provided by the embodiment of the invention;

fig. 3 is a schematic diagram of a control switch and a change-over switch provided by an embodiment of the present invention;

fig. 4 is a second schematic structural diagram of an elevator control apparatus according to an embodiment of the present invention;

fig. 5 is a schematic view of a third structure of an elevator control device provided in the embodiment of the present invention;

fig. 6 is a schematic diagram of a fourth structure of an elevator control device according to an embodiment of the present invention.

Detailed Description

In the following description, for purposes of explanation and not limitation, specific details are set forth, such as particular system structures, techniques, etc. in order to provide a thorough understanding of the embodiments of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, devices, circuits, and methods are omitted so as not to obscure the description of the present invention with unnecessary detail.

It should also be understood that the term "and/or" as used in the specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Furthermore, in the description of the present invention and the appended claims, the terms "first," "second," "third," and the like are used for distinguishing between descriptions and not necessarily for describing or implying relative importance.

Reference throughout this specification to "one embodiment" or "some embodiments," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the present invention. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," or the like, in various places throughout this specification are not necessarily all referring to the same embodiment, but rather mean "one or more but not all embodiments" unless specifically stated otherwise. The terms "comprising," "including," "having," and variations thereof mean "including, but not limited to," unless expressly specified otherwise. The term "plurality" means two or more.

The embodiment of the utility model provides an elevator control device has the running state of control elevator concurrently and simulates the effect of demonstrating the running state of elevator under various intelligent control modes, has realized the intelligent control of elevator and the inseparable combination of teaching demonstration, and this elevator control device can integrate and set up to a portable device that the user of being convenient for carried, can be applicable to various types of elevator.

As shown in fig. 1, an elevator control apparatus 100 provided in an embodiment of the present invention includes a main control module 10, and an interaction module 20 and a control module 30 electrically connected to the main control module 10;

the interactive module 20 is configured to be electrically connected with the external elevator buttons 200 and the display screen 300;

the control module 30 is configured to be electrically connected to an external control switch 400, and receive a control command input by a user through the control switch 400 to enable a corresponding intelligent control mode;

the main control module 10 is configured to be electrically connected to an external switch 500, and receive a switching instruction input by a user through the switch 500 to switch working modes of the main control module 10, where the working modes include a demonstration mode and an intelligent control mode, the main control module 10 runs a demonstration program in the demonstration mode to control the display screen 300 to simulate and demonstrate running states of the elevator in various intelligent control modes, and the main control module 10 controls the elevator to run in corresponding running states in the intelligent control mode.

In application, the interaction module can be realized through interface circuits such as a key interface circuit and a display screen interface circuit and is used for realizing the electric connection between various external man-machine interaction devices such as an elevator button and a display screen and the main control module, so that when a user presses the elevator button, a manual call calling instruction received through the elevator button is sent to the main control module, and the display information sent by the main control module is forwarded to the display screen to control the display screen to display corresponding display contents, for example, the running state of the elevator in various intelligent control modes supported by the control module is simulated and demonstrated. The operating state of the elevator displayed by the display screen may include the floor at which the car is currently stopped, a fault code, etc.

As shown in fig. 2, a schematic diagram of an elevator button 200 and a display screen 300 is shown schematically; among them, the elevator buttons 200 include floor buttons 1 to 9, a door opening button, and a door closing button.

In application, the control module can be realized by a switch interface circuit and an intelligent control unit supporting various intelligent call functions, and is used for receiving a control instruction input by a user through a control switch so as to start an intelligent control mode supported by the corresponding intelligent control unit, and the elevator can realize the corresponding intelligent call function when operating in each intelligent control mode.

In application, the control module may include, but is not limited to, at least one of an IC card control unit, an IC card fingerprint control unit, a voice control unit, a face control unit, and an iris control unit, and may also include an intelligent control unit implemented based on other biological characteristics or in a manner that requires authority authentication. The IC card control unit can be realized by an IC card induction chip, the IC card fingerprint control unit can be realized by an IC card induction chip and a fingerprint identification chip, the voice control unit can be realized by a voice acquisition device and a voice identification chip, and the face control unit and the iris control unit can be realized by a camera and an image processor. The speech acquisition device may specifically be a microphone.

In application, when the IC card control mode is started, the IC card control unit supports a user to call through the IC card, the user needs to enable the IC card to be close to or contact with the IC card control unit, the IC card can obtain the authority of calling after passing the authority authentication of the IC card control unit, then the IC card control unit sends an IC card calling instruction or sends a manual calling instruction to the main control module through the elevator button, the main control module is triggered to control the running state of the elevator, and the running state of the elevator controlled by the main control module can comprise the steps of controlling a car to stop to a specified floor, opening a door, closing the door, performing telephone alarm and the like.

In application, the specific implementation mode of sending an IC card call instruction to the main control module through the IC card control unit and triggering the main control module to control the running state of the elevator can be as follows: the method comprises the steps that floor information corresponding to a floor to which a user needs to go is written in an IC card in advance, the user enables the IC card to be close to or contact with an IC card control unit, after the IC card passes the authority authentication of the IC card control unit, the IC card control unit sends an IC card calling instruction carrying the floor information to a main control module so as to trigger the main control module to control an elevator to run to the floor where the user is located at present, and then the elevator is controlled to bear the floor corresponding to the floor information.

In application, when a fingerprint IC card control mode is started, a fingerprint IC card control unit supports a user to call through an IC card or a fingerprint, the user needs to enable the IC card to be close to or contact with the fingerprint IC card control unit, or the fingerprint contacts the fingerprint IC card control unit, and after the IC card or the fingerprint passes the authority authentication of the fingerprint IC card control unit, the user can obtain the calling authority, and then a fingerprint calling instruction or an IC card calling instruction is sent to a main control module through the fingerprint IC card control unit, or a manual calling instruction is sent to the main control module through an elevator button, and the main control module is triggered to control the running state of an elevator.

In application, the specific implementation mode that the fingerprint IC card control unit sends a fingerprint calling command to the main control module and triggers the main control module to control the running state of the elevator can be as follows: the floor information corresponding to the floor to which the user needs to go is written in the fingerprint IC card control unit in advance, the floor information is associated with the fingerprint of the user, the user contacts the fingerprint IC card control unit with the fingerprint, after the fingerprint passes through the authority authentication of the fingerprint IC card control unit, the fingerprint IC card control unit sends a fingerprint calling call instruction carrying the floor information to the main control module so as to trigger the main control module to control the elevator to run to the floor where the user is located at present, and then the elevator is controlled to bear the user to run to the floor corresponding to the floor information.

In application, the specific implementation mode of triggering the main control module to control the running state of the elevator is the same by sending an IC calling instruction to the main control module through the fingerprint IC card control unit and the IC card control unit, and the detailed description is omitted here.

In application, when the voice control mode is enabled, the voice control unit supports a user to call by voice or manually pressing an elevator button. In one implementation mode, when a voice control mode is started, a user sends a wake-up voice to a voice control unit, and can obtain a calling right only after the voice control unit successfully identifies the wake-up voice, and then a manual calling command is sent to a main control module by pressing a button of an elevator to trigger the main control module to control the running state of the elevator, or the user sends a calling voice to the voice control unit, and after the voice control unit successfully identifies the calling voice, a voice calling command is generated and sent to the main control module to trigger the main control module to control the running state of the elevator; in another implementation mode, when the voice control mode is started, a user sends a manual call calling instruction to the main control module by pressing an elevator button to trigger the main control module to control the running state of the elevator, or the user sends a call calling voice to the voice control unit, and after the voice control unit successfully identifies the call calling voice, a voice call calling instruction is generated and sent to the main control module to trigger the main control module to control the running state of the elevator. The voice control unit is used for receiving the voice call and sending the call voice to the user. Specific voice contents of the awakening voice and the calling voice can be set by a user through the interaction module according to actual needs, or default setting of the elevator control device when the elevator control device leaves a factory is adopted.

In an application, the display screen may be a touch screen, or the control module may include a voice control unit, so that a user may set a wake-up voice and a call voice through the touch screen or the voice control unit. When the display screen is a touch screen, the elevator buttons can be virtual touch buttons displayed on the touch screen instead of physical buttons, so that a user can input a manual call calling instruction in a touch manner. When the control module does not comprise a voice control unit, the interaction module can be electrically connected with an external voice control unit.

In application, when a face control mode is started, a face control unit supports a user to call through a face, the face of the user needs to enter an image acquisition area of the face control unit, the authority of calling can be obtained only after the face of the user passes authority authentication of the face control unit, a face calling command is sent through the face control unit or a manual calling command is sent to a main control module through an elevator button, and the main control module is triggered to control the running state of an elevator.

In application, the specific implementation mode of sending a face call instruction to the main control module through the face control unit and triggering the main control module to control the running state of the elevator can be as follows: the method comprises the steps that floor information corresponding to a floor to which a user needs to go is written in a face control unit in advance, the floor information is associated with the face of the user, the face of the user enters an image acquisition area of the face control unit and passes through authority authentication of the face control unit, and then the face control unit sends a face call calling instruction carrying the floor information to a main control module to trigger the main control module to control an elevator to run to the floor where the user is located at present, and then the elevator is controlled to bear the floor corresponding to the floor information.

In application, when the iris control mode is started, the iris control unit supports a user to call through the iris, the eyes of the user need to enter an image acquisition area of the iris control unit, the call authority can be obtained only after the iris of the user passes authority authentication of the iris control unit, and then an iris call instruction is sent through the iris control unit or a manual call instruction is sent to the main control module through an elevator button, and the main control module is triggered to control the running state of an elevator.

In application, the specific implementation mode of triggering the main control module to control the running state of the elevator can be as follows: the method comprises the steps that floor information corresponding to a floor to which a user needs to go is written in an iris control unit in advance, the floor information is associated with the iris of the user, the iris control unit sends an iris calling call instruction carrying the floor information to a main control module after the glasses of the user enter an image acquisition area of the iris control unit and pass authority authentication of the iris control unit, so that the main control module is triggered to control an elevator to run to the floor where the user is located at present, and then the elevator is controlled to bear the floor corresponding to the floor information.

In an application, the control switch may be implemented by any type of switch, such as a push switch (e.g., a button), a toggle switch, and the like. According to the number of intelligent control units included in the control module, a control switch with the same number of control gear positions or a control switch with the same number of control gear positions can be used for receiving control commands input by a user so as to enable the intelligent control modes supported by the control units. The push switch may be a button, and the toggle switch may be a knob.

As shown in fig. 3, the first control switch 401, the second control switch 402 and the third control switch 403 are all buttons for receiving three different control commands from a user, respectively, so as to enable three different intelligent control modes supported by three different intelligent control units of the control module 30, respectively.

In Application, the main control module may be implemented by a Processor, and the Processor may specifically be a Microprocessor (MCU), a Processing Unit (CPU), a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf Programmable Gate Array (FPGA) or other Programmable logic device, a discrete Gate or transistor logic device, a discrete hardware component, a single chip, or the like.

In application, the switch can be realized by any type of switch such as a push switch, a toggle switch, and the like. For two different working modes of the main control module, one switch with two control gears or two different switches can be used to receive a switching instruction input by a user, so as to switch the main control module to the different working modes. The main control module is used for controlling the display screen to simulate and demonstrate the running state of the elevator in the current intelligent control mode or in all the intelligent control modes in the demonstration mode, and a user is further supported to trigger the main control module to control the running state of the elevator by pressing an elevator button. The main control module is used for controlling the elevator to run in the calling function supported by the current intelligent control mode in the intelligent control mode, and meanwhile, the main control module can also control the display screen to simulate and demonstrate the running state of the elevator in the current control mode or all the intelligent control modes.

As shown in fig. 3, the diverter switch 500 is illustratively shown as a knob.

As shown in fig. 4, in one embodiment, the control module 30 includes an IC card control unit 31;

the IC card control unit 31 is configured to be electrically connected to an external first control switch 401, and receives a first control instruction of a user through the first control switch 401 to enable an IC card control mode.

As shown in fig. 4, in one embodiment, the interaction module 20 is further configured to electrically connect with an external voice module 600;

the IC card control unit 31 is also configured to perform authority authentication on the IC card and transmit an authentication result to the main control module 10;

the main control module 10 is further configured to, in the IC card control mode, if the authentication result is not received or the authentication result is that the authority authentication is not passed, and the manual call instruction of the user is received only through the elevator button 200, control the voice module 600 to send out first voice information for prompting the user to use the IC card to perform the authority authentication.

In the application, the IC card control mode only supports that a user can control the elevator to operate after using the IC card to perform authority authentication and the authority authentication passes, if the user does not use the IC card to perform the authority authentication in the IC card control mode, or the user uses the IC card to perform the authority authentication but does not pass the authentication, the elevator is controlled to operate only by pressing an elevator button, and when receiving a manual calling call command sent by the user by pressing the elevator button through the interaction module, the main control module controls the voice module to play the first voice information through the interaction module so as to prompt the user to use the IC card to perform the authority authentication.

In application, the voice module may be implemented by a speaker and a voice chip, and when the control module includes the voice control unit, the voice module may include only the speaker and share the voice chip with the voice control unit. The specific voice content of the first voice message can be set by a user through the interactive module according to actual needs, or default setting of the elevator control device when the elevator control device leaves a factory is adopted. The first voice message may be specifically set as "please swipe the card". The first voice information may be set in the same setting manner as the wake-up voice and the call calling voice, which is not described herein again.

As shown in fig. 4, in one embodiment, the control module 30 includes a fingerprint IC card control unit 32;

the fingerprint IC card control unit 32 is configured to be electrically connected to an external second control switch 402, and receive a second control instruction of the user through the second control switch 402 to enable the fingerprint IC card control mode.

As shown in fig. 4, in one embodiment, the interaction module 20 is further configured to electrically connect with an external voice module 600;

the fingerprint IC card control unit 32 is further configured to perform authority authentication on the IC card or the fingerprint and transmit an authentication result to the main control module 10;

the main control module 10 is further configured to, in the fingerprint IC card control mode, if the authentication result is not received or the authentication result is that the authority authentication is not passed and a manual call instruction of the user is received only through the elevator button 200, control the voice module 600 to send a second voice message prompting the user to use the fingerprint or the IC card for authority authentication.

In the application, the fingerprint IC card control mode only supports that a user can control the elevator to operate after using a fingerprint or an IC card to perform authority authentication and the authority authentication passes, if the user does not use the IC card or the fingerprint to perform the authority authentication in the fingerprint IC card control mode, or the user uses the IC card or the fingerprint to perform the authority authentication but does not pass the authority authentication, the elevator is controlled to operate only by pressing an elevator button, and when the main control module receives a manual call calling instruction sent by the user by pressing the elevator button through the interaction module, the interaction module controls the voice module to play second voice information so as to prompt the user to use the fingerprint or the IC card to perform the authority authentication.

In application, the specific voice content of the second voice message can be set by a user through the interaction module according to actual needs, or default setting of the elevator control device when the elevator control device leaves a factory is adopted. The second voice message may be specifically set to "please swipe a card or use a fingerprint". The second voice information may be set in the same setting manner as the wake-up voice and the call calling voice, which is not described herein again.

As shown in FIG. 4, in one embodiment, control module 30 includes a voice control unit 33;

the voice control unit 33 is configured to be electrically connected to an external third control switch 403, and receive a third control instruction of the user through the third control switch 403 to enable the voice control mode.

As shown in fig. 4, in one embodiment, the interaction module 20 is further configured to electrically connect with an external voice module 600;

the main control module 10 is also configured to control the operation state of the elevator in the voice control mode according to the voice call instruction received by the voice control unit 33 or the call instruction received by the user by the elevator button 200.

In an application, the voice control mode enables a user to control elevator operation using voice or elevator buttons.

In one embodiment, the control module includes a face control unit;

the face control unit is configured to be electrically connected with an external fourth control switch, and receive a fourth control instruction of the user through the fourth control switch so as to enable the face control mode.

In one embodiment, the interaction module is further configured to electrically connect with an external voice module;

the face control unit is also configured to carry out authority authentication on the face and send an authentication result to the main control module;

the main control module is also configured to control the voice module to send third voice information prompting the user to use the face to carry out authority authentication under the face control mode if the authentication result is not received or the authentication result is that the authority authentication is not passed and a manual calling instruction of the user is received only through an elevator button.

In the application, the face control mode only supports that a user can control the elevator to operate after using a face to perform authority authentication and the authority authentication passes, if the user does not use the face to perform the authority authentication in the face control mode, or the user uses the face to perform the authority authentication but the authentication does not pass, the elevator is controlled to operate only by pressing an elevator button, and when the main control module receives a manual call calling instruction sent by the user by pressing the elevator button through the interaction module, the main control module controls the voice module to play third voice information through the interaction module so as to prompt the user to use the face to perform the authority authentication.

In application, the specific voice content of the third voice message may be set by a user through the interaction module according to actual needs, or default settings when the elevator control device leaves a factory are adopted. The third speech information may be specifically set to "please use a face". The third voice message can be set in the same setting mode as the wake-up voice and the call voice, and is not described herein again.

In one embodiment, the control module includes an iris control unit;

the iris control unit is configured to be electrically connected with an external fifth control switch, and receive a fifth control instruction of the user through the fifth control switch so as to enable the iris control mode.

In one embodiment, the interaction module is further configured to electrically connect with an external voice module;

the iris control unit is also configured to carry out authority authentication on the iris and send an authentication result to the main control module;

the main control module is also configured to control the voice module to send fifth voice information prompting the user to use the iris to carry out authority authentication in the iris control mode if the authentication result is not received or the authentication result is that the authority authentication is not passed and the manual call calling instruction of the user is received only through the elevator button.

In the application, the iris control mode only supports that a user can control the elevator to operate after the user uses the iris to perform authority authentication and the authority authentication passes, if the user does not use the iris to perform the authority authentication in the iris control mode, or the user uses the iris to perform the authority authentication but does not pass the authentication, the elevator is controlled to operate only by pressing the elevator button, and when the main control module receives a manual calling call instruction sent by the user by pressing the elevator button through the interaction module, the main control module controls the voice module to play fourth voice information through the interaction module so as to prompt the user to use the face to perform the authority authentication.

In application, the specific voice content of the fourth voice message may be set by the user through the interaction module according to actual needs, or default setting of the elevator control device when leaving the factory is adopted. The fourth voice information may be specifically set to "please use the iris". The fourth voice message may be set in the same setting manner as the wake-up voice and the call calling voice, which is not described herein again.

As shown in fig. 5, in one embodiment, the elevator control apparatus 100 further includes a Mod bus communication interface 40 electrically connected to the main control module 10;

the Mod bus communication interface 40 is configured to be electrically connected with other external control modules to extend the new intelligent control mode.

In application, the Mod bus communication interface may include an ethernet interface and an RJ45 interface supporting the Mod bus TCP protocol, an asynchronous serial communication interface, an RS232 interface, an RS485 interface, an RS422 interface, an optical fiber interface, a wireless communication interface supporting the Mod bus RTU/ASCII protocol, a coaxial cable interface or an optical cable interface supporting the Mod bus Plus protocol, and the like.

In one embodiment, the master control module comprises an elevator master control board and a car command board;

the elevator main control board is respectively electrically connected with the car command board and the interaction module;

the car command board is electrically connected with the interaction module and the control module respectively.

In application, the main control module can comprise an elevator main control board and a car command board, and the elevator can be intelligently controlled by electrically connecting the main control module with an electric control system of the elevator and providing corresponding external equipment (namely the elevator button, the display screen, the control switch, the change-over switch and the voice module). To the elevator that has master control board and command board, can adopt host system to replace original master control board and command board of elevator, to the elevator that has not installed master control board and command board, can directly adopt host system to realize the intelligent control to the elevator, so for elevator controlling means can be applicable to the elevator of arbitrary type.

In application, the elevator main control board and the car command board can be realized by different circuit boards, and each circuit board is provided with at least one processor; the elevator main control board and the car command board can also be integrated to be arranged into a same circuit board, and at least one processor is arranged on the circuit board.

As shown in fig. 6, in one embodiment, the elevator control apparatus 100 further includes a casing;

the main control module, the interaction module and the control module are arranged inside the box body (the structure inside the box body is not shown in fig. 6);

the elevator button 200 and the display screen 300 are arranged on the side surface of the box body;

the control switch and the change-over switch 500 are arranged on the top of the box body.

In application, the box body can be set to be any shape according to actual needs, for example, a square-corner rectangular body, a round-corner rectangular body, a cylinder and the like. The elevator button and the display screen can be arranged at any position of one side surface of the box body according to actual needs. The control switch and the change-over switch can be arranged at any position of the top of the box body according to actual needs.

In fig. 6, the elevator button 200 and the display 300 are exemplarily arranged side by side at one side of the cabinet, and the first control switch 401, the second control switch 402, the third control switch 403 and the change-over switch 500 are arranged side by side at the top of the cabinet.

The embodiment of the utility model provides an elevator control device can be according to user's actual need, through change over switch switching operation mode, when the mode switches over to the demonstration mode, can simulate the demonstration to the running state of elevator under the various ability control modes that elevator control device supported, need not to rely on artifical explanation, has effectively saved the human cost, has improved the function explanation efficiency of intelligent elevator; by arranging the Mod bus communication interface, the intelligent control system can be electrically connected with other external control modules according to actual needs so as to expand a new intelligent control mode and meet new intelligent control requirements; the elevator control device can be suitable for any type of elevator by enabling the main control module to comprise the elevator main control board and the car command board.

The above-mentioned embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. An elevator control device is characterized by comprising a main control module, and an interaction module and a control module which are electrically connected with the main control module;

the interaction module is configured to be electrically connected with an elevator button and a display screen;

the control module is configured to be electrically connected with a control switch, and receive a control instruction through the control switch so as to enable a corresponding intelligent control mode;

the main control module is configured to be electrically connected with a selector switch, and receives a switching instruction through the selector switch so as to switch the working modes of the main control module, wherein the working modes comprise a demonstration mode and an intelligent control mode, the main control module controls the display screen to simulate and demonstrate the running state of an elevator in the intelligent control mode in the demonstration mode, and the main control module controls the elevator to run in a corresponding running state in the intelligent control mode.

2. The elevator control apparatus according to claim 1, wherein the control module includes an IC card control unit;

the IC card control unit is configured to be electrically connected with a first control switch, and a first control instruction is received through the first control switch so as to enable an IC card control mode.

3. The elevator control apparatus of claim 2, wherein the interaction module is further configured to electrically connect with a voice module;

the IC card control unit is also configured to carry out authority authentication on the IC card and send an authentication result to the main control module;

the main control module is also configured to control the voice module to send first voice information prompting to use the IC card for authority authentication if the authentication result is not received or the authentication result is not passed authority authentication and a manual call calling instruction is received only through the elevator button under the IC card control mode.

4. The elevator control apparatus according to claim 1, wherein the control module includes a fingerprint IC card control unit;

the fingerprint IC card control unit is configured to be electrically connected with a second control switch, and a second control instruction is received through the second control switch so as to enable a fingerprint IC card control mode.

5. The elevator control of claim 4, wherein the interaction module is further configured to electrically connect with a voice module;

the fingerprint IC card control unit is also configured to carry out authority authentication on an IC card or a fingerprint and send an authentication result to the main control module;

the main control module is also configured to control the voice module to send second voice information for prompting the user to use the fingerprint or the IC card to carry out authority authentication in the fingerprint IC card control mode if the authentication result is not received or the authentication result is not passed authority authentication and a manual call calling instruction is received only through the elevator button.

6. The elevator control apparatus of claim 1, wherein the control module comprises a voice control unit;

the voice control unit is configured to be electrically connected with a third control switch, and a third control instruction is received through the third control switch to enable a voice control mode.

7. The elevator control of claim 6, wherein the interaction module is further configured to electrically connect with a voice module;

the main control module is also configured to control the running state of an elevator according to a voice call instruction received by the voice control unit or a manual call instruction received by the elevator button in the voice control mode.

8. The elevator control apparatus according to any one of claims 1 to 7, further comprising a Modbus communication interface electrically connected to the main control module;

the Mod bus communication interface is configured to be electrically connected with other control modules so as to expand an intelligent control mode.

9. The elevator control apparatus according to any one of claims 1 to 7, wherein the main control module includes an elevator main control board and a car command board;

the elevator main control board is electrically connected with the car command board and the interaction module;

the car command board is electrically connected with the interaction module and the control module.

10. The elevator control apparatus according to any one of claims 1 to 7, further comprising a case;

the main control module, the interaction module and the control module are arranged in the box body;

the control switch and the change-over switch are arranged at the top of the box body.

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