CN210052038U - Intelligent cabinet control system and intelligent cabinet - Google Patents

Abstract

The utility model discloses an intelligent cabinet control system and an intelligent cabinet, which comprises a host and at least two cabinet group control systems; the host is in serial communication connection with any cabinet group control system through an RS485 bus; the control systems of the cabinet groups are connected through RF wireless communication. The utility model discloses aim at solving current intelligent cabinet host computer and each cabinet group control system and only adopt RS485 bus connection, can have the technical problem that communication response speed is slow, stability is low and the installation is difficult.

Description

Intelligent cabinet control system and intelligent cabinet

Technical Field

The utility model relates to an intelligence cabinet field especially relates to intelligence cabinet control system and intelligent cabinet.

Background

The current intelligent cabinet control system is composed of an industrial control host and a plurality of lock control plates, and the communication between the industrial control host and all the lock control plates adopts a bus type RS485 serial communication technology. However, the more the cabinet lattices of the intelligent cabinet, the more the lock control plates, the more the nodes mounted on the same bus, the longer the communication line, the slower the communication response speed, the greater the signal attenuation, the lower the communication stability, and the problems of difficult installation and maintenance and high cost caused by the large number of connecting lines and the long communication line.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an intelligence cabinet control system and intelligent cabinet aims at solving current intelligent cabinet host computer and each group of cabinets control system and only adopts RS485 bus connection, can have the technical problem that communication response speed is slow, stability is low and the installation is difficult.

In order to achieve the above object, the utility model provides an intelligent cabinet control system, which comprises a host and at least two cabinet group control systems;

the host is in serial communication connection with any cabinet group control system through an RS485 bus;

the control systems of the cabinet groups are connected through RF wireless communication.

Optionally, each cabinet group control system comprises a control panel, wherein the control panel comprises one control panel which enables an RS485/RF dual communication mode and at least one control panel which enables an RS485 communication mode;

the control panel which starts the RS485/RF dual communication mode is connected with the control panels with RS485 communication through RS485 bus serial communication;

the control panel which enables the RS485/RF dual communication mode is connected with the control panels which enable the RS485/RF dual communication mode in other cabinet group control systems through RF wireless communication.

Optionally, the host is connected in series with each control panel in any cabinet group control system through an RS485 bus.

Optionally, each cabinet group control system further comprises a refrigerator main board; each control panel in each cabinet group control system is provided with a corresponding cabinet grid;

the refrigerator mainboard is in communication connection with any control panel which starts the RS485 communication mode in the same cabinet group control system and is used for receiving the temperature of each cabinet lattice of the same cabinet group, which is sent by the control panel of the RS485 communication mode in communication connection with the refrigerator mainboard.

Optionally, the control panel comprises an MCU, a 485 communication module connected with the MCU, and an RF communication module connected with the MCU;

the RF communication module is connected with a control panel which starts an RS485/RF double communication mode in other cabinet group control systems through RF wireless communication;

and the 485 communication module is in serial communication connection with the control panel in the same cabinet group control system through an RS485 bus.

Optionally, the control panel further comprises a lock control interface;

the MCU is connected with the electronic lock corresponding to the cabinet lattice through the lock control interface and is used for controlling the electronic lock corresponding to the cabinet lattice to be opened or closed when the data received through the RF module or the RS485 module is an opening instruction or a closing instruction.

Optionally, the control board further comprises a temperature control interface;

the MCU is connected with the temperature sensor corresponding to the cabinet grids through the temperature control interface and used for receiving the temperature of the corresponding cabinet grids acquired by the temperature sensor and sending the temperature of the corresponding cabinet grids to the control panel connected with the refrigerator main board in the same cabinet group control system through the RS485 communication module.

Optionally, the control board further comprises a dial switch;

the dial switch is connected with the MCU and used for receiving a communication mode switching signal and sending the communication mode switching signal to the MCU, so that the MCU switches the communication mode from the RS485/RF dual communication mode to the RS485 communication mode or from the RS485 communication mode to the RS485/RF dual communication mode according to the communication mode switching signal.

Optionally, the control board further comprises a reset switch;

the reset switch is connected with the MCU and used for sending a reset signal to the MCU when receiving the trigger of a user so as to enable the MCU to restart a program and reset parameters.

Furthermore, in order to achieve the above object, the utility model also provides an intelligent cabinet, intelligent cabinet includes intelligent cabinet control system, intelligent cabinet control system is configured as intelligent cabinet control system as above.

The utility model discloses a control system which comprises a host and at least two cabinet groups; the host is in serial communication connection with any cabinet group control system through an RS485 bus; the control systems of the cabinet groups are connected through RF wireless communication. Therefore, the RF wireless communication connection and the RS485 communication connection are organically combined, the host and each cabinet group control system are in transparent bridging connection, each cabinet group control system does not need to be connected with the host through an RS485 bus, the length of the bus on which the host is mounted and the number of the cabinet group control systems mounted on the bus are reduced, and the communication response speed, the communication stability and the installation and maintenance of each cabinet group control system between the host and each cabinet group control system in the intelligent cabinet are improved.

Drawings

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

Fig. 1 is a schematic block diagram of an embodiment of the intelligent cabinet control system of the present invention;

fig. 2 is a schematic block diagram of a control panel of the RS485/RF dual communication mode and a control panel of the RS485 communication mode in another embodiment of the intelligent cabinet control system of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

The reference numbers illustrate:

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an intelligence cabinet control system is applied to in the intelligence cabinet.

Referring to fig. 1, in one embodiment, the intelligent cabinet control system includes a host 10 and at least two cabinet group control systems 20;

the host 10 is connected with any cabinet group control system 20 through RS485 bus serial communication;

the cabinet group control systems 20 are connected through RF wireless communication.

The intelligent cabinet control system provided by the embodiment is specifically arranged in an intelligent cabinet. The intelligent cabinet control system comprises a host computer 10 and at least two cabinet group control systems 20, wherein the host computer 10 is connected with one cabinet group control system 20 through RS485 bus serial communication, and the cabinet group control systems 20 are connected through RF wireless communication. When the destination address of the data to be sent by the host 10 is the cabinet group control system 20 connected with the host 10, the host 10 directly sends the data to the cabinet group control system 20 connected with the host through the RS485 bus; when the destination address of the data to be sent by the host 10 is the other cabinet group control system 20, the host 10 first sends the data to the cabinet group control system 20 connected thereto through the RS485 bus, and then the cabinet group control system 20 connected to the host 10 forwards the data to the cabinet group control system 20 corresponding to the destination address of the data through RF wireless communication. When the cabinet group control system 20 connected with the host computer 10 needs to send data to the host computer 10, the data is directly sent to the host computer 10 through the RS485 bus, and when the data is sent to other cabinet group control systems 20, the data is directly sent to other cabinet group control systems 20 through RF wireless communication. When the cabinet group control system 20 which is not connected with the host computer 10 needs to send data to other cabinet group control systems 20 in the intelligent cabinet, the data are directly sent to the other cabinet group control systems 20 through RF wireless communication; when the cabinet group control system 20 not connected to the host 10 needs to send data to the host 10, the data is sent to the cabinet group control system 20 connected to the host 10 through RF wireless communication, and then the cabinet group control system 20 connected to the host 10 forwards the data to the host 10 through the RS485 bus. In the embodiment, the RF wireless communication connection and the RS485 communication connection are organically combined, so that the host 10 and each cabinet group control system 20 are transparently bridged, and each cabinet group control system 20 does not need to be connected with the host 10 through an RS485 bus, thereby reducing the length of the bus on which the host 10 is mounted and the number of the cabinet group control systems 20 mounted on the bus, and further improving the communication response speed, the communication stability and the convenience in installation and maintenance of each cabinet group control system between the host 10 and each cabinet group control system 20 in the intelligent cabinet.

Optionally, with continued reference to fig. 1, each cabinet group control system 20 includes control panels including one RS485/RF dual communication mode enabled control panel 21 and at least one RS485 communication mode enabled control panel 22; the control panel 21 which enables the RS485/RF dual communication mode is connected with the control panels 22 which enable the RS485 communication modes in a serial communication mode through RS485 buses; the control panel 21 which enables the RS485/RF dual communication mode is connected with the control panel 21 which enables the RS485/RF dual communication mode in other cabinet group control systems 20 through RF wireless communication.

Optionally, with continued reference to fig. 1, the host 10 is connected in series with each control board in any cabinet group control system 20 through an RS485 bus.

Each cabinet group control system 20 comprises a control panel 21 which enables an RS485/RF dual communication mode and at least one control panel 22 which enables the RS485 communication mode, a host 10 in the cabinet group control system 20 which is connected with the host 10 in the intelligent cabinet is connected with the control panels 22 which enable the RS485 communication mode and the control panels 21 which enable the RS485/RF dual communication mode in the cabinet group control system 20 through RS485 bus serial communication, and the control panels 22 which enable the RS485 communication mode and the control panels 21 which enable the RS485/RF dual communication mode in the other cabinet group control systems 20 which are not connected with the host 10 are connected through RS485 bus serial communication. And data transmission is performed among the control panels in the cabinet group control system 20 through an RS485 bus.

When the host 10 needs to send data to each control board in the cabinet group control system 20 connected to the host 10, the data is directly sent to the control board in the cabinet group control system 20 connected to the host 10 through the RS485 bus.

When the host 10 needs to send data to the control panel 22 which is not connected with the host and enables the RS485 communication mode of the intelligent cabinet control system, the host 10 first sends the data to the control panel 21 which is connected with the host and enables the RS485/RF dual communication mode of the cabinet group control system 20 through the RS485 bus, then sends the data to the control panel 21 which is connected with the host and enables the RS485/RF dual communication mode of the cabinet group control system 20 through the RF wireless network and enables the RS485/RF dual communication mode of the other cabinet group control systems 20, and finally sends the control panel 21 which is connected with the host and enables the RS485/RF dual communication mode of the other cabinet group control systems 20 to the control panel 21 which is connected with the host and enables the RS485 communication mode of the cabinet group control system 20 through the RS485 bus.

When the host 10 needs to send data to the control panel 21 which enables the RS485/RF dual communication mode of the intelligent cabinet control system and is not connected with the host, the host 10 first sends the data to the control panel 21 which enables the RS485/RF dual communication mode of the cabinet group control system 20 and is connected with the host through the RS485 bus, and then sends the data to the control panel 21 which enables the RS485/RF dual communication mode of the other cabinet group control systems 20 through the RF wireless network by the control panel 21 which enables the RS485/RF dual communication mode of the cabinet group control system 20 and is connected with the host.

When the control panel 22 which is not connected with the host and is enabled with the RS485 communication mode needs to send data to the host 10, the control panel which is not connected with the host 10 and is enabled with the RS485 communication mode in the cabinet group control system 20 is sent to the control panel 21 which is enabled with the RS485/RF dual communication mode in the cabinet group control system 20 through an RS485 bus, then the control panel 21 which is enabled with the RS485/RF dual communication mode in the cabinet group control system 20 is sent to the control panel 21 which is connected with the host 10 and is enabled with the RS485/RF dual communication mode through an RF wireless network, and finally the control panel 21 which is connected with the host 10 and is enabled with the RS485/RF dual communication mode sends data to the host 10 through an RS485 bus.

When the control board 21 which is not connected with the intelligent cabinet control system and enables the RS485/RF dual communication mode needs to send data to the host 10, the data is sent to the control board 21 which is connected with the host 10 and enables the RS485/RF dual communication mode of the cabinet group control system 20 through the RF wireless network, and then the control board 21 which is connected with the host 10 and enables the RS485/RF dual communication mode sends the data to the host 10 through the RS485 bus.

Through RF wireless communication connection and RS485 communication connection organic combination, make the transparent bridging of each control panel in host computer 10 and the intelligent cabinet, each control panel does not need to be connected through an RS485 bus with host computer 10 in the intelligent cabinet, the length of carrying the RS485 bus and the quantity of the control panel of carrying on the bus has been reduced, and then communication response speed and communication stability between host computer 10 and each control panel in the intelligent cabinet have been improved, simultaneously because the control system of each group of cabinets comprises a plurality of control panels, the cabinet check of a certain quantity in every control panel main control group, when having avoided all cabinet check of a group of cabinets in the prior art to be controlled by a control panel, when a certain cabinet check in the group sent the trouble, need to change whole control panel, lead to maintaining the difficulty and maintenance cost is higher.

Optionally, with continued reference to fig. 1, each cabinet group control system 20 further includes a refrigerator main board 23; each control panel in each cabinet group control system 20 has a corresponding cabinet grid;

the refrigerator main board 23 is in communication connection with any control board 22 which enables the RS485 communication mode in the same cabinet group control system 20, and is used for receiving the temperature of each cabinet lattice of the same cabinet group, which is sent by the control board 22 which enables the RS485 communication mode and is in communication connection with the refrigerator main board 23.

When the intelligent cabinet needs to be kept fresh or refrigerated, each cabinet group control system 20 further comprises a refrigerator main board 23, the refrigerator main board 23 can be in communication connection with any control board 22 which enables an RS485 communication mode in the same cabinet group control system 20, the control board 22 which enables the RS485 communication mode and is connected with the refrigerator main board 23 can send the temperature of the corresponding cabinet lattices acquired by other control boards in the same cabinet group control system 20 and the temperature of the cabinet lattices corresponding to the control board 22 to the refrigerator main board 23, and the refrigerator main board 23 correspondingly adjusts the temperature parameters of the cabinet lattices according to the temperature data.

Further, referring to fig. 2, the control board includes an MCU31, an RS485 communication module 32 connected to the MCU31, and an RF communication module 33 connected to the MCU 31;

the RF communication module 33 is connected with the RF communication module 33 of the control panel 21 which enables the RS485/RF dual communication mode in other cabinet group control systems 20 through RF wireless communication;

the RS485 communication module 32 is connected with the RS485 communication module 32 of the control panel in the same cabinet group control system 20 through serial communication of an RS485 bus.

Each control panel in the intelligent cabinet comprises an MCU31, an RF communication module 33 and an RS485 communication module 32, and the MCU31 is connected with the RF communication module 33 and the RS485 communication module 32. The MCU31 of the control panel 21 with the RS485/RF dual communication mode enabled carries out data transmission with the control panel 21 with the RS485/RF dual communication mode enabled in other cabinet group control systems 20 through the RF communication module 33; the MCU31 of the control panel 21 which enables the RS485/RF dual communication mode also can transmit data with the control panel 22 which enables the RS485 communication mode of the same cabinet group through the RS485 module. The MCU31 of the control board 22 enabling the RS485 communication mode transmits data to and from the control board 21 enabling the RS485/RF dual communication mode, the control board 22 enabling the RS485 communication mode or the host 10 in the cabinet group control system 20 through the RS485 communication module 32. It should be noted that the RF communication module 33 in the control board 22 that enables the RS485 communication mode is not turned on, and the MCU31 in the control board 22 that enables the RS485 communication mode does not transmit or receive data through the RF communication module 33.

Optionally, referring to fig. 2, the control panel further includes a lock control interface 34;

the MCU31 is connected to the electronic lock (not shown) of the corresponding cabinet through the lock control interface 34, and is configured to control the electronic lock of the corresponding cabinet to open or close when the data received through the RF module or the RS485 module is an open instruction or a close instruction.

The MCU31 of the control panel is connected with the electronic lock of the cabinet lattice corresponding to the control panel through the lock control interface 34. If the cabinet group system where the control panel is located is connected with the host 10, when the MCU31 of the control panel receives data sent by the host 10 through the RS485 communication module 32 as an opening instruction or a closing instruction, the MCU31 controls the electronic lock of the corresponding cabinet lattice to open or close, so that the user can open or close the cabinet door. It should be noted that the number of the corresponding cabinets of each control board may be 1, 2 or more. When the number of the cabinets corresponding to the control panel is more than 1, the opening instruction or the closing instruction sent by the host 10 further includes the cabinet number, so that the control panel receives the opening instruction or the closing instruction which includes the cabinet number and is sent by the host 10, and controls the electronic lock of the cabinet corresponding to the cabinet number.

Further, referring to fig. 2, the control board further includes a temperature control interface 35; the MCU31 is connected to a temperature sensor (not shown) corresponding to the cabinet grid through the temperature control interface 35, and is configured to receive the temperature of the corresponding cabinet grid collected by the temperature sensor, and send the temperature of the corresponding cabinet grid to a control board connected to the refrigerator main board 23 in the same cabinet group control system 20 through the RS485 communication module 32.

When this intelligence cabinet need keep fresh or refrigerate, the control panel in the intelligence cabinet still includes temperature control interface 35, and the MCU31 of control panel passes through temperature control interface 35 and is connected with the temperature sensor who corresponds the cabinet check, and temperature sensor can gather the temperature that corresponds the cabinet check in real time or every preset time to give MCU31 with the temperature transmission who gathers. If the control panel is not connected with the refrigerator main board 23, when the MCU31 of the control panel receives the temperature data corresponding to the cabinet grid, the temperature data is sent to the control panel connected with the refrigerator main board 23 in the same cabinet group control system 20 through the RS485 communication module 32, and then the temperature data is sent to the refrigerator main board 23 by the control panel connected with the refrigerator main board 23. If the control panel is the control panel connected with the refrigerator main board 23, when the MCU31 of the control panel receives the temperature data of the corresponding cabinet lattice, the temperature data of the cabinet lattice is directly transmitted to the refrigerator main board 23. The control panel passes through the temperature sensor connection of 34 cabinet check of lock accuse interface to can gather cabinet check temperature, and send refrigerator mainboard 23 to a cabinet check temperature, make refrigerator mainboard 23 can learn the temperature condition of current intelligent cabinet, and according to the temperature condition of each cabinet check of intelligent cabinet, corresponding adjustment refrigerating system operating condition.

Further, referring to fig. 2, the control board further includes a dial switch;

the dial switch is connected with the MCU and used for receiving a communication mode switching signal and sending the communication mode switching signal to the MCU, so that the MCU switches the communication mode from the RS485/RF dual communication mode to the RS485 communication mode or from the RS485 communication mode to the RS485/RF dual communication mode according to the communication mode switching signal.

The control panel further comprises a dial switch 36, the dial switch 36 is connected with the MCU31, the dial switch 36 receives a communication mode switching signal input by a user and then transmits the communication mode switching signal to the MCU31, so that the MCU31 switches the communication mode of the control panel between the RS485/RF dual communication mode and the RS485 communication mode according to the communication mode switching signal. Therefore, the dial switch 36 can set the communication mode of the control board according to the specific function of the control board in the cabinet group control system 20.

Further, referring to fig. 2, the control board further includes a reset switch 37;

the reset switch 37 is connected to the MCU31 and is used to send a reset signal to the MCU31 when a user trigger is received, so that the MCU31 restarts programs and resets parameters. By one-touch activation of the reset switch 37, the programming of the control board and resetting of the parameters of the control board can be restarted.

The utility model also provides an intelligence cabinet. The intelligent cabinet comprises an intelligent cabinet control system, and the structure of the intelligent cabinet control system refers to the above embodiments, which are not described herein again. It should be understood that, because the intelligent cabinet of this embodiment adopts the technical scheme of the above-mentioned intelligent cabinet control system, this intelligent cabinet has all the beneficial effects of above-mentioned intelligent cabinet control system.

The above is only the optional embodiment of the present invention, and not therefore the scope of the present invention is limited, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (10)

1. An intelligent cabinet control system is characterized by comprising a host and at least two cabinet group control systems;

the host is in serial communication connection with any cabinet group control system through an RS485 bus;

the control systems of the cabinet groups are connected through RF wireless communication.

2. The intelligent cabinet control system according to claim 1, wherein each cabinet group control system comprises a control panel, the control panels comprising one control panel enabling an RS485/RF dual communication mode and at least one control panel enabling an RS485 communication mode;

the control panel which starts the RS485/RF dual communication mode is connected with the control panels with RS485 communication through RS485 bus serial communication;

the control panel which enables the RS485/RF dual communication mode is connected with the control panels which enable the RS485/RF dual communication mode in other cabinet group control systems through RF wireless communication.

3. The intelligent cabinet control system according to claim 2, wherein the host computer is connected in series with each control panel in any cabinet group control system through an RS485 bus.

4. The intelligent cabinet control system according to claim 2 or 3, wherein each cabinet group control system further comprises a refrigerator main board; each control panel in each cabinet group control system is provided with a corresponding cabinet grid;

the refrigerator mainboard is in communication connection with any control panel which starts the RS485 communication mode in the same cabinet group control system and is used for receiving the temperature of each cabinet lattice of the same cabinet group, which is sent by the control panel of the RS485 communication mode in communication connection with the refrigerator mainboard.

5. The intelligent cabinet control system according to claim 4, wherein the control board comprises an MCU, a 485 communication module connected with the MCU, and an RF communication module connected with the MCU;

the RF communication module is connected with a control panel which starts an RS485/RF double communication mode in other cabinet group control systems through RF wireless communication;

and the 485 communication module is in serial communication connection with the control panel in the same cabinet group control system through an RS485 bus.

6. The intelligent cabinet control system of claim 5, wherein the control panel further comprises a lock control interface;

the MCU is connected with the electronic lock corresponding to the cabinet lattice through the lock control interface and is used for controlling the electronic lock corresponding to the cabinet lattice to be opened or closed when the data received through the RF module or the RS485 module is an opening instruction or a closing instruction.

7. The intelligent cabinet control system of claim 6, wherein the control board further comprises a temperature control interface;

the MCU is connected with the temperature sensor corresponding to the cabinet grids through the temperature control interface and used for receiving the temperature of the corresponding cabinet grids acquired by the temperature sensor and sending the temperature of the corresponding cabinet grids to the control panel connected with the refrigerator main board in the same cabinet group control system through the RS485 communication module.

8. The intelligent cabinet control system of claim 7, wherein the control board further comprises a dial switch;

the dial switch is connected with the MCU and used for receiving a communication mode switching signal and sending the communication mode switching signal to the MCU, so that the MCU switches the communication mode from the RS485/RF dual communication mode to the RS485 communication mode or from the RS485 communication mode to the RS485/RF dual communication mode according to the communication mode switching signal.

9. The intelligent cabinet control system of claim 8, wherein the control board further comprises a reset switch;

the reset switch is connected with the MCU and used for sending a reset signal to the MCU when receiving the trigger of a user so as to enable the MCU to restart a program and reset parameters.

10. A smart cabinet comprising a smart cabinet control system configured as the smart cabinet control system of any one of claims 1-9.

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