CN204384834U - A kind of aerial platform safety monitoring system - Google Patents

Abstract

The utility model discloses a kind of aerial platform safety monitoring system, comprise the control setup be laid in cab of aerial work platform, described control setup comprise shell, the controller be laid in described shell, memory device, wireless sending module, power supply, image processor and for the watchdog circuit of supervisory controller work and the LCDs be laid on shell and USB interface; The outer wall of described working bucket is provided with for responding to high voltage alive equipment in case the electric field strength transducer[sensor of operating personal electric shock; The four sides sidewall of described working bucket is all provided with spacing for measuring described working bucket and peripheral obstacle to prevent the super sonic sending module that collides and super sonic receiver module.The utility model structure is simple, installation is laid conveniently, input cost is low; Work can send alarm according to the information detected to aerial platform navigating mate and aloft work personnel in real time, improves trouble free service coefficient, avoids the generation of collision and electric shock accidents.

Description

A kind of aerial platform safety monitoring system

Technical field

The utility model relates to a kind of safety monitoring system, especially relates to a kind of aerial platform safety monitoring system.

Background technology

Aerial platform a kind of operating personnel, instrument, material etc. is given rise to by job platform the special aerial operation machine that aerial assigned address carries out the operations such as various installation, maintenances, both special-use vehicle was belonged to, belonging to construction machinery and equipment again, is a kind of important preparation of construction.From First aerial platform is since the twenties in last century comes out in the world, the market demand grows with each passing day, and has been widely used in the industry-by-industry of national product life.

When aloft work, on the one hand aerial platform easily and surrounding objects collide; If have high-tension apparatus around on the other hand, easily there is electric shock accidents.Therefore, design and a kind ofly the aerial platform safety monitoring system of protection against electric shock can have very important practical significance again by anticollision.

Utility model content

Technical problem to be solved in the utility model is for above-mentioned deficiency of the prior art, provide a kind of can anticollision again can the aerial platform safety monitoring system of protection against electric shock, improve trouble free service coefficient.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of aerial platform safety monitoring system, it is characterized in that: comprise the control setup be laid in cab of aerial work platform, described control setup comprises shell, be laid in the controller in described shell, memory device, wireless sending module, power supply, image processor and for supervisory controller work watchdog circuit and lay LCDs on the housing and USB interface, described LCDs, memory device, USB interface, wireless sending module, watchdog circuit, power supply and image processor all connect with controller, described aerial platform comprises car body, turntable, principal arm, telescopic boom and working bucket, described turntable is arranged on described car body, the lower end of described principal arm is arranged on described turntable, and described telescopic boom is sleeved on described principal arm, and described working bucket is fixedly connected on described telescopic boom, the outer wall of described working bucket is provided with for responding to high voltage alive equipment in case the electric field strength transducer[sensor of operating personal electric shock, described electric field strength transducer[sensor connects with controller, the four sides sidewall of described working bucket is all provided with spacing for measuring described working bucket and peripheral obstacle to prevent the super sonic sending module that collides and super sonic receiver module, described super sonic sending module comprises driving circuit and super sonic sends probe, described super sonic receiver module comprises the super sonic receiving transducer, amplification module, filtration module and the A/D modular converter that connect successively, described driving circuit sends with super sonic respectively pops one's head in and controller connects, and described A/D modular converter connects with controller, described principal arm, telescopic boom and working bucket are respectively provided with a camera, and each described camera all connects with image processor, absorption type annunciator is installed in described operator's compartment, the waist of the aloft work personnel in described working bucket is hung with suspension type annunciator, described absorption type annunciator comprises the first driving circuit, loudspeaker one and flicker alarm lamp, and described loudspeaker one and flicker alarm lamp all connect with described first driving circuit, described suspension type annunciator comprises wireless receiving module, the second driving circuit and loudspeaker two, and described second driving circuit connects with described wireless receiving module and loudspeaker two respectively, described first driving circuit connects with USB interface, described wireless receiving module and wireless sending module wireless connections.

Above-mentioned a kind of aerial platform safety monitoring system, is characterized in that: described controller is DSP.

Above-mentioned a kind of aerial platform safety monitoring system, is characterized in that: described camera can carry out 360 degree, left and right, upper and lower 90 degree of rotations.

Above-mentioned a kind of aerial platform safety monitoring system, is characterized in that: described wireless receiving module and wireless sending module are infrared radio module.

Above-mentioned a kind of aerial platform safety monitoring system, is characterized in that: described memory device is EEPROM.

The utility model compared with prior art has the following advantages: structure is simple, installation is laid conveniently, input cost is low; Work can send alarm according to the information detected to aerial platform navigating mate and aloft work personnel in real time, improves trouble free service coefficient, avoids the generation of collision and electric shock accidents.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Accompanying drawing explanation

Fig. 1 is schematic block circuit diagram of the present utility model.

Description of reference numerals:

1-controller; 2-LCDs; 3-memory device;

4-USB interface; 5-wireless sending module; 6-watchdog circuit;

7-power supply; 8-electric field strength transducer[sensor; 9-driving circuit;

10-super sonic sends probe; 11-super sonic receiving transducer;

12-amplification module; 13-filtration module; 14-A/D modular converter;

15-camera; 16-image processor; 17-absorption type annunciator;

18-suspension type annunciator.

Detailed description of the invention

As shown in Figure 1, the utility model comprises the control setup be laid in cab of aerial work platform, described control setup comprises shell, the controller 1 be laid in described shell, memory device 3, wireless sending module 5, power supply 7, image processor 16 and the watchdog circuit 6 worked for supervisory controller 1 and lay LCDs 2 on the housing and USB interface 4, and described LCDs 2, memory device 3, USB interface 4, wireless sending module 5, watchdog circuit 6, power supply 7 and image processor 16 all connect with controller 1; Described aerial platform comprises car body, turntable, principal arm, telescopic boom and working bucket, described turntable is arranged on described car body, the lower end of described principal arm is arranged on described turntable, and described telescopic boom is sleeved on described principal arm, and described working bucket is fixedly connected on described telescopic boom; The outer wall of described working bucket is provided with for responding to high voltage alive equipment in case the electric field strength transducer[sensor 8 of operating personal electric shock, described electric field strength transducer[sensor 8 connects with controller 1; The four sides sidewall of described working bucket is all provided with spacing for measuring described working bucket and peripheral obstacle to prevent the super sonic sending module that collides and super sonic receiver module, described super sonic sending module comprises driving circuit 9 and super sonic sends probe 10, described super sonic receiver module comprises the super sonic receiving transducer 11, amplification module 12, filtration module 13 and the A/D modular converter 14 that connect successively, described driving circuit 9 sends probe 10 with super sonic respectively and controller 1 connects, and described A/D modular converter 14 connects with controller 1; Described principal arm, telescopic boom and working bucket are respectively provided with a camera 15, and each described camera 15 all connects with image processor 16; Absorption type annunciator 17 is installed in described operator's compartment, the waist of the aloft work personnel in described working bucket is hung with suspension type annunciator 18, described absorption type annunciator 17 comprises the first driving circuit, loudspeaker one and flicker alarm lamp, and described loudspeaker one and flicker alarm lamp all connect with described first driving circuit; Described suspension type annunciator 18 comprises wireless receiving module, the second driving circuit and loudspeaker two, and described second driving circuit connects with described wireless receiving module and loudspeaker two respectively; Described first driving circuit connects with USB interface 4, described wireless receiving module and wireless sending module 5 wireless connections.

In the present embodiment, described controller 1 is DSP.

In the present embodiment, described camera 15 can carry out 360 degree, left and right, upper and lower 90 degree of rotations.

In the present embodiment, described wireless receiving module and wireless sending module 5 are infrared radio module.

In the present embodiment, described memory device 3 is EEPROM.

The above; it is only preferred embodiment of the present utility model; not the utility model is imposed any restrictions; every above embodiment is done according to the utility model technical spirit any simple modification, change and equivalent structure change, all still belong in the protection domain of technical solutions of the utility model.

Claims (5)

1. an aerial platform safety monitoring system, it is characterized in that: comprise the control setup be laid in cab of aerial work platform, described control setup comprises shell, be laid in the controller (1) in described shell, memory device (3), wireless sending module (5), power supply (7), image processor (16) and the watchdog circuit (6) worked for supervisory controller (1) and the LCDs (2) laid on the housing and USB interface (4), described LCDs (2), memory device (3), USB interface (4), wireless sending module (5), watchdog circuit (6), power supply (7) and image processor (16) all connect with controller (1), described aerial platform comprises car body, turntable, principal arm, telescopic boom and working bucket, described turntable is arranged on described car body, the lower end of described principal arm is arranged on described turntable, and described telescopic boom is sleeved on described principal arm, and described working bucket is fixedly connected on described telescopic boom, the outer wall of described working bucket is provided with for responding to high voltage alive equipment in case the electric field strength transducer[sensor (8) of operating personal electric shock, described electric field strength transducer[sensor (8) connects with controller (1), the four sides sidewall of described working bucket is all provided with spacing for measuring described working bucket and peripheral obstacle to prevent the super sonic sending module that collides and super sonic receiver module, described super sonic sending module comprises driving circuit (9) and super sonic sends probe (10), described super sonic receiver module comprises the super sonic receiving transducer (11) connected successively, amplification module (12), filtration module (13) and A/D modular converter (14), described driving circuit (9) sends with super sonic respectively pops one's head in (10) and controller (1) connects, described A/D modular converter (14) connects with controller (1), described principal arm, telescopic boom and working bucket are respectively provided with a camera (15), and each described camera (15) all connects with image processor (16), absorption type annunciator (17) is installed in described operator's compartment, the waist of the aloft work personnel in described working bucket is hung with suspension type annunciator (18), described absorption type annunciator (17) comprises the first driving circuit, loudspeaker one and flicker alarm lamp, and described loudspeaker one and flicker alarm lamp all connect with described first driving circuit, described suspension type annunciator (18) comprises wireless receiving module, the second driving circuit and loudspeaker two, and described second driving circuit connects with described wireless receiving module and loudspeaker two respectively, described first driving circuit connects with USB interface (4), described wireless receiving module and wireless sending module (5) wireless connections.

2. according to a kind of aerial platform safety monitoring system according to claim 1, it is characterized in that: described controller (1) is DSP.

3. according to a kind of aerial platform safety monitoring system described in claim 1 or 2, it is characterized in that: described camera (15) can carry out 360 degree, left and right, upper and lower 90 degree of rotations.

4. according to a kind of aerial platform safety monitoring system described in claim 1 or 2, it is characterized in that: described wireless receiving module and wireless sending module (5) are infrared radio module.

5. according to a kind of aerial platform safety monitoring system described in claim 1 or 2, it is characterized in that: described memory device (3) is EEPROM.