CN113682958A - Tower crane video management system - Google Patents

Abstract

The invention relates to the technical field of tower cranes, in particular to a tower crane video management system. The tower crane video management system comprises: the system comprises a display device, a first camera device, a power supply module, a CPU unit, a remote monitoring platform and a vibration device; the first camera device is communicated with the display device, is arranged on a trolley which runs on a suspension arm of the tower crane and is used for acquiring video pictures around the tower crane; the vibrating device is arranged on the suspension arm of the tower crane and is used for: identifying whether the tower crane works, and if so, sending instruction information to a remote monitoring platform; the remote monitoring platform is used for: and sending the instruction information to a CPU unit, and starting a power supply module to supply power to the first camera device. Through the system, the video picture acquired by the first camera device can be displayed on the display device, and a driver in the tower crane cab can directly acquire the picture situation on the ground through the display device, so that further operation is performed, and misoperation caused by manual meaning transmission is avoided.

Description

Tower crane video management system

Technical Field

The invention relates to the technical field of tower cranes, in particular to a tower crane video management system.

Background

The traditional tower crane hoisting operation process is as follows: each tower crane is equipped with at least one signal worker for matching with the worker to hoist and mount the materials in the construction site. This not only is labor intensive, but can also result in erroneous operation if the driver does not accurately understand what is being conveyed by the signaler.

Disclosure of Invention

Therefore, a tower crane video management system is needed to be provided for solving the problem that the existing tower crane is easy to generate misoperation due to the fact that the existing tower crane is matched with a signal worker to know the hoisting operation. The specific technical scheme is as follows:

a tower crane video management system comprises: the system comprises a display device, a first camera device, a power supply module, a CPU unit, a remote monitoring platform and a vibration device;

the first camera device is in wireless communication with the display device, is arranged on a trolley which runs on a suspension arm of the tower crane and is used for acquiring video pictures around the tower crane;

the display device is arranged in a tower crane cab;

the power module is used for supplying power to the first camera device;

the vibration device is arranged on a suspension arm of the tower crane and is in communication connection with the remote monitoring platform;

the vibration device is used for: identifying whether the tower crane works or not, and if the tower crane works, sending instruction information to the remote monitoring platform;

the CPU unit is respectively connected with the remote monitoring platform and the power supply module;

the remote monitoring platform is used for: and sending the instruction information to the CPU unit so as to enable the CPU unit to start the power supply module to supply power to the first camera device.

Further, the method also comprises the following steps: a human body induction detection module;

human response detection module sets up in the tower crane driver's cabin, human response detection module is used for: when a person is identified to enter the tower crane cab, a power switch in the tower crane cab is automatically connected;

when nobody in the tower crane cab is identified, the power switch in the tower crane cab is automatically cut off.

Further, the method also comprises the following steps: a second image pickup device;

the second camera device sets up in the tower crane driver's cabin, the second camera device is used for acquireing operator's people's face, and right operator's face is discerned, judges whether it has the authority to carry out and corresponds the operation, if have the authority, just switches on the tower crane operating device signal.

Further, the method also comprises the following steps: a second image pickup device;

second camera device sets up in the tower crane driver's cabin, second camera device is used for judging whether there is personnel in the driver's cabin, if discern that there is personnel in the driver's cabin, then connects remote monitoring platform passes through remote monitoring platform connects CPU unit start power module does first camera device power supply, first camera device starts.

Further, the power module includes one or more of: a solar panel, a storage battery;

the first camera device and the display device communicate through a wireless network bridge.

Further, the remote monitoring platform is in communication connection with the power module, and the remote monitoring platform is used for sending a signal instruction to control the power supply of the power module;

the remote monitoring platform is further configured to obtain power supply information of the power supply module in real time, where the power supply information includes but is not limited to: current, voltage, solar charging condition, and remaining capacity of the battery.

Furthermore, the remote monitoring platform is in communication connection with the power module, and is used for acquiring data sent by the mobile terminal and controlling power supply of the power module according to the data.

Further, the data includes, but is not limited to: starting a first camera device signal;

the remote monitoring platform is also used for transmitting the data to the CPU unit to start the power supply module.

Further, a mechanical switch is arranged on the display device.

Further, the mechanical switch is used for receiving an opening signaling, transmitting the signaling to the CPU unit to start the power supply module to supply power to the first camera device;

or the mechanical switch is used for receiving a tube signaling and transmitting the signaling to the CPU unit to stop the power supply module to supply power to the first camera device.

The invention has the beneficial effects that: a tower crane video management system comprises: the system comprises a display device, a first camera device, a power supply module, a CPU unit, a remote monitoring platform and a vibration device; the first camera device is in wireless communication with the display device, is arranged on a trolley which runs on a suspension arm of the tower crane and is used for acquiring video pictures around the tower crane; the display device is arranged in a tower crane cab; the power module is used for supplying power to the first camera device. Through the system, the video picture acquired by the first camera device can be displayed on the display device, and a driver in the tower crane cab can directly acquire the picture situation on the ground through the display device, so that further operation is performed, and misoperation caused by manual meaning transmission is avoided. The vibration device is arranged on a suspension arm of the tower crane and is in communication connection with the remote monitoring platform; the vibration device is used for: identifying whether the tower crane works or not, and if the tower crane works, sending instruction information to the remote monitoring platform; the CPU unit is respectively connected with the remote monitoring platform and the power supply module; the remote monitoring platform is used for: and sending the instruction information to the CPU unit so as to enable the CPU unit to start the power supply module to supply power to the first camera device. So when the tower crane began work, can the power module of automatic start for first camera device power supply, accomplish not having the video data around the tower crane that can acquire of any error ground tower crane work, avoid sometimes artificially opening the tower crane after, but forget to open at once and supply power for first camera device, lead to first camera device not to acquire the video data around the tower crane at once, cause the emergence of some unnecessary accidents.

Furthermore, the human body sensing detection module identifies that a person turns on a power switch when the person is in the cab of the tower crane, and automatically turns off the power supply when the person is in an unmanned state, so that energy conservation and emission reduction are realized.

Furthermore, through face recognition, personnel who operate the tower crane are guaranteed to have qualification and authority, and unnecessary accidents caused by operation of non-professionals on the tower crane are avoided.

Furthermore, when recognizing that a person is in the cab, the second camera device is automatically connected with the remote monitoring platform, and the first camera device is started through the remote monitoring platform, so that automatic operation starting is achieved.

Furthermore, the storage battery is charged through the solar panel, and the storage battery supplies power to the network bridge and the first camera device, so that the solar camera is energy-saving and environment-friendly.

Furthermore, a monitoring system is implemented through a remote monitoring platform, current and voltage are diagnosed, and therefore the power supply condition of the storage battery can be kept known in real time and in a remote mode.

Furthermore, the remote monitoring platform is used for acquiring data sent by the mobile terminal and controlling power supply of the power module according to the data, so that power supply of the power module can be directly controlled through the mobile terminal, the service time of the first camera device is reasonably controlled, and unnecessary energy waste is avoided.

Furthermore, a mechanical switch is arranged on a display device in the cab, a driver can send a starting signaling through the switch device, the signaling is transmitted to the CPU unit through the network bridge, and the storage battery module is started to provide power for the first camera device.

Drawings

Fig. 1 is a first schematic block diagram of a tower crane video management system according to a specific embodiment;

FIG. 2 is a second block diagram of a tower crane video management system according to a specific embodiment;

FIG. 3 is a third block diagram of a tower crane video management system according to a specific embodiment;

FIG. 4 is a fourth block diagram of a tower crane video management system according to the embodiment;

description of reference numerals:

101. a display device for displaying the image of the object,

102. a first image-taking device for taking a picture,

103. a power supply module for supplying power to the power supply module,

104. a unit of a CPU, wherein the CPU is provided with a CPU,

105. the remote monitoring platform is used for monitoring the operation of the mobile phone,

106. a vibration device is arranged on the base plate,

107. a human body induction detection module,

108. and a second image pickup device.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to fig. 4, in the present embodiment, an embodiment of a tower crane video management system 100 is as follows:

example 1:

as shown in fig. 1, a tower crane video management system 100 includes: a display device 101, a first camera device 102, a power module 103, a CPU unit 104, a remote monitoring platform 105, and a vibration device 106;

the first camera device 102 is in wireless communication with the display device 101, the first camera device 102 is arranged on a trolley which runs on a suspension arm of the tower crane, and the first camera device 102 is used for acquiring video pictures around the tower crane;

the display device 101 is arranged in a tower crane cab;

the power module 103 is configured to supply power to the first camera 102;

the vibration device 106 is arranged on a suspension arm of the tower crane, and the vibration device 106 is in communication connection with the remote monitoring platform 105;

the vibration device 106 is configured to: identifying whether the tower crane works, and if the tower crane works, sending instruction information to the remote monitoring platform 105;

the CPU unit 104 is connected to the remote monitoring platform 105 and the power module 103 respectively;

the remote monitoring platform 105 is configured to: the instruction information is sent to the CPU unit 104, so that the CPU unit 104 starts the power module 103 to supply power to the first image capturing device 102.

Wherein the display device 101 is provided with a mechanical switch, the display device 101 may be a video monitor, when the tower crane driver needs to start operation, the mechanical switch on the display device 101 is pressed, the tower crane can be operated, when the tower crane moves, the vibration device 106 arranged on the suspension arm of the tower crane immediately recognizes that the tower crane starts to work, then a command message is sent to the remote monitoring platform 105, and after the remote monitoring platform 105 receives the command message, the CPU unit 104 starts the power module 103 to supply power to the first camera device 102 by immediately issuing instruction information (as the tower crane trolley needs to move back and forth in the hoisting process, the power supply and network wiring are inconvenient, the video transmission of the first camera device 102 is communicated with a tower crane cab through a wireless bridge, the power module 103 partially adopts a solar panel and a storage battery to supply power to the first camera device 102 and the bridge, and the power supply of the display device 101 is supplied by a power socket of the cab).

A tower crane video management system comprises: a display device 101, a first camera device 102, a power module 103, a CPU unit 104, a remote monitoring platform 105, and a vibration device 106; the first camera device 102 is in wireless communication with the display device 101, the first camera device 102 is arranged on a trolley which runs on a suspension arm of the tower crane, and the first camera device 102 is used for acquiring video pictures around the tower crane; the display device 101 is arranged in a tower crane cab; the power module 103 is configured to supply power to the first camera 102. Through the system, the video picture acquired by the first camera device 102 can be displayed on the display device 101, and a driver in the tower crane cab can directly acquire the picture situation on the ground through the display device 101, so that further operation is performed, and misoperation caused by manual meaning transmission is avoided. The vibration device 106 is arranged on a suspension arm of the tower crane, and the vibration device 106 is in communication connection with the remote monitoring platform 105; the vibration device 106 is configured to: identifying whether the tower crane works, and if the tower crane works, sending instruction information to the remote monitoring platform 105; the CPU unit 104 is connected to the remote monitoring platform 105 and the power module 103 respectively; the remote monitoring platform 105 is configured to: the instruction information is sent to the CPU unit 104, so that the CPU unit 104 starts the power module 103 to supply power to the first image capturing device 102. Therefore, when the tower crane starts to work, the power module 103 can be automatically started to supply power to the first camera device 102, video data around the tower crane can be acquired as soon as the tower crane works without any error, and the situation that the first camera device 102 is forgotten to be started to supply power to the first camera device 102 after the tower crane is manually started sometimes is avoided, so that the first camera device 102 cannot acquire the video data around the tower crane immediately, and some unnecessary accidents are caused.

Example 2:

as shown in fig. 2, further, a human body sensing detection module 107 is further included; human response detection module 107 sets up in the tower crane driver's cabin, human response detection module 107 is used for: when a person is identified to enter the tower crane cab, a power switch in the tower crane cab is automatically connected; when nobody in the tower crane cab is identified, the power switch in the tower crane cab is automatically cut off.

Tower crane on the building site, as someone gets into the tower crane cab, through human response detection module 107, detect someone and get into, automatic switch-on driver's cabin switch (building site is for management safety, the tower crane driver leaves the driver's cabin, and the cab power is the disconnection). The human body induction detection module 107 recognizes that a person turns on a power switch when the tower crane cab is occupied, and automatically turns off the power supply when the tower crane cab is unoccupied, so that energy conservation and emission reduction are realized.

Wherein the human body sensing detection module 107 includes but is not limited to: and sound, signals and the like are identified to sense whether a person uses the tower crane or enters a cab of the tower crane randomly. Wherein human body induction detection module 107 can set up the optional position in the tower crane cab, can be human body induction detector.

Example 3:

as shown in fig. 3, further, the method further includes: a second imaging device 108; second camera device 108 sets up in the tower crane driver's cabin, second camera device 108 is used for acquireing operator's people face, and right operator's people face discerns, judges whether it has the authority to carry out and corresponds the operation, if have the authority, just switches on the tower crane operating device signal. After the tower crane driver gets into the driver's cabin, second camera device 108 in the driver's cabin starts the face identification function (the inside operating device signal with the tower crane of face identification device links to each other, and the outside links to each other with tower crane driver personnel management platform through wireless or 4G/5G signal, can verify whether current personnel possess the qualification of going on duty, only through the people discernment verification back, the operating function of tower crane just can the switch-on signal), the driver just can operate the tower crane after face identification.

Further, the power module 103 includes one or more of the following: a solar panel, a storage battery; the first camera 102 communicates with the display 101 through a wireless network bridge. The storage battery is charged through the solar panel, and the storage battery supplies power to the network bridge and the first camera device 102, so that the energy is saved, and the environment is protected.

Example 4:

further, the remote monitoring platform 105 is communicatively connected to the power module 103, and the remote monitoring platform 105 is configured to send a signal instruction to control power supply of the power module 103; the remote monitoring platform 105 is further configured to obtain power information of the power module 103 in real time, where the power information includes but is not limited to: current, voltage, solar charging condition, and remaining capacity of the battery. The method specifically comprises the following steps:

the storage battery is connected with the platform through a wireless network signal or a 4G/5G signal, whether the storage battery supplies power to the first camera device 102 can be transmitted through a local monitor switch, and a command of switching on or off the power supply of the storage battery can also be sent through the remote monitoring platform 105.

Or: the remote monitoring platform 105 is in communication connection with the power module 103, and the remote monitoring platform 105 is configured to obtain data sent by the mobile terminal and control power supply of the power module 103 according to the data. The method specifically comprises the following steps: through sweeping the two-dimensional code, through cell-phone transmission signal to platform, carry out battery power supply control.

Example 5:

to further illustrate, the data includes, but is not limited to: turning on a signal of the first camera 102; the remote monitoring platform 105 is also used to transmit the data to the CPU unit 104 to activate the power module 103. The method specifically comprises the following steps:

the driver scans the two-dimensional code through the mobile phone and sends a signal for starting the first camera device 102 to the remote monitoring platform 105, and the remote monitoring platform 105 transmits signal data to the CPU unit 104 through a 4G/5G signal to start the working state of the storage battery so as to start the storage battery module to work.

Example 6:

further, the method also comprises the following steps: a second imaging device 108;

second camera device 108 sets up in the tower crane driver's cabin, second camera device 108 is used for judging whether there is personnel in the driver's cabin, if discern that there is personnel in the driver's cabin, then connects remote monitoring platform 105, through remote monitoring platform 105 connects CPU unit 104 starts power module 103 does first camera device 102 supplies power, first camera device 102 starts.

When the second camera device 108 recognizes that a person is in the cab, the remote monitoring platform 105 is automatically connected, and the first camera device 102 is started through the remote monitoring platform 105, so that the automatic operation is started.

Example 7:

further, the mechanical switch is configured to receive an open signaling, transmit the signaling to the CPU unit 104, and start the power module 103 to supply power to the first camera device 102;

or the mechanical switch is used for receiving a tube signaling, and transmitting the signaling to the CPU unit 104 to stop the power module 103 from supplying power to the first camera 102.

A mechanical switch is arranged on a display device 101 in a cab, a driver can send a starting signaling through the switch device, the signaling is transmitted to a CPU unit 104 through a network bridge, and a storage battery module is started to provide power for a first camera device 102.

The above overall structure diagram can be shown in fig. 4.

It should be noted that, although the above embodiments have been described herein, the invention is not limited thereto. Therefore, based on the innovative concepts of the present invention, the technical solutions of the present invention can be directly or indirectly applied to other related technical fields by making changes and modifications to the embodiments described herein, or by using equivalent structures or equivalent processes performed in the content of the present specification and the attached drawings, which are included in the scope of the present invention.

Claims (10)

1. The tower crane video management system is characterized by comprising: the system comprises a display device, a first camera device, a power supply module, a CPU unit, a remote monitoring platform and a vibration device;

the first camera device is in wireless communication with the display device, is arranged on a trolley which runs on a suspension arm of the tower crane and is used for acquiring video pictures around the tower crane;

the display device is arranged in a tower crane cab;

the power module is used for supplying power to the first camera device;

the vibration device is arranged on a suspension arm of the tower crane and is in communication connection with the remote monitoring platform;

the vibration device is used for: identifying whether the tower crane works or not, and if the tower crane works, sending instruction information to the remote monitoring platform;

the CPU unit is respectively connected with the remote monitoring platform and the power supply module;

the remote monitoring platform is used for: and sending the instruction information to the CPU unit so as to enable the CPU unit to start the power supply module to supply power to the first camera device.

2. The tower crane video management system of claim 1, further comprising: a human body induction detection module;

human response detection module sets up in the tower crane driver's cabin, human response detection module is used for: when a person is identified to enter the tower crane cab, a power switch in the tower crane cab is automatically connected;

when nobody in the tower crane cab is identified, the power switch in the tower crane cab is automatically cut off.

3. The tower crane video management system of claim 1, further comprising: a second image pickup device;

the second camera device sets up in the tower crane driver's cabin, the second camera device is used for acquireing operator's people's face, and right operator's face is discerned, judges whether it has the authority to carry out and corresponds the operation, if have the authority, just switches on the tower crane operating device signal.

4. The tower crane video management system of claim 1, further comprising: a second image pickup device;

second camera device sets up in the tower crane driver's cabin, second camera device is used for judging whether there is personnel in the driver's cabin, if discern that there is personnel in the driver's cabin, then connects remote monitoring platform passes through remote monitoring platform connects CPU unit start power module does first camera device power supply, first camera device starts.

5. The tower crane video management system of claim 1, wherein the power module comprises one or more of: a solar panel, a storage battery;

the first camera device and the display device communicate through a wireless network bridge.

6. The tower crane video management system according to claim 1,

the remote monitoring platform is in communication connection with the power supply module and is used for sending a signal instruction to control the power supply of the power supply module;

the remote monitoring platform is further configured to obtain power supply information of the power supply module in real time, where the power supply information includes but is not limited to: current, voltage, solar charging condition, and remaining capacity of the battery.

7. The tower crane video management system according to claim 1,

the remote monitoring platform is in communication connection with the power module and is used for acquiring data sent by the mobile terminal and controlling power supply of the power module according to the data.

8. The tower crane video management system according to claim 7,

the data includes, but is not limited to: starting a first camera device signal;

the remote monitoring platform is also used for transmitting the data to the CPU unit to start the power supply module.

9. The tower crane video management system according to claim 1, wherein a mechanical switch is disposed on the display device.

10. The tower crane video management system of claim 9,

the mechanical switch is used for receiving an opening signaling and transmitting the signaling to the CPU unit to start the power supply module to supply power to the first camera device;

or the mechanical switch is used for receiving a tube signaling and transmitting the signaling to the CPU unit to stop the power supply module to supply power to the first camera device.

Images