CN203167144U - Engineering vehicle monitoring system - Google Patents

Abstract

An engineering vehicle monitoring system comprises a pick-up head, a video converter, an i.MX53 processor and a display screen. The pick-up head is connected with the i.MX53 processor through the video converter. The i.MX53 processor is connected with the display screen. Video signals are acquired by using the pick-up head to shoot environment images when an engineering vehicle is working. The video converter converts the video signals into video data which are then sent to the i.MX53 processor. The i.MX53 processor then converts the video data into video images which can be identified by the display screen. The video images are further displayed on the display screen. The i.MX53 processor which enables a wide applicable temperature range can be adapted to adverse working environments of the engineering vehicle, for example, high-temperature environments and environments with great temperature differences between day and night. By acquiring and displaying the environment images of the engineering vehicle, the engineering vehicle monitoring system makes an operator no longer suffer a visual field blind area during the engineering vehicle working process. The working efficiency of the engineering vehicle is thus improved.

Description

The engineering truck supervisory control system

Technical field

The utility model relates to the engineering truck technical field, particularly relates to a kind of engineering truck supervisory control system.

Background technology

Engineering truck is as the trunk strength of architectural engineering, application and development along with mechanized construction, increasing large-scale power engineering vehicle is used to daily power construction, patrol and examine or field device maintenance, repairing work in, make the progress multiplication of architectural engineering, significantly reduced manpower.

Traditional engineering vehicle relies on operator's perusal to carry out operation, because there is blind area in naked eyes, can influence operating efficiency.

The utility model content

Based on this, be necessary to provide a kind of engineering truck supervisory control system of increasing work efficiency.

A kind of engineering truck supervisory control system, comprise camera, video converter, i.MX53 processor and display screen, described camera is connected with described i.MX53 processor by described video converter, described i.MX53 processor connects described display screen, and the environmental images that described camera is taken engineering truck obtains vision signal; Described video converter is converted to video data with described vision signal; Described i.MX53 processor is converted to the video image that described display screen can be identified with described video data; Described display screen shows described video image.

Among embodiment, described camera is the complementary metal oxide semiconductors (CMOS) camera therein.

Among embodiment, described video converter comprises the ADV7180BSTZ-LQFP64 chip therein.

Among embodiment, described display screen is the Thin Film Transistor (TFT) digital display screen therein.

Among embodiment, described engineering truck supervisory control system comprises temperature sensor, analog to digital converter and alarm therein, and described temperature sensor connects described i.MX53 processor by described analog to digital converter, and described alarm is connected with described i.MX53 processor,

Described temperature sensor collecting temperature signal;

Described analog to digital converter is converted to temperature data with described temperature signal;

Described i.MX53 processor judges whether described temperature data surpasses default temperature threshold, if then control described alarm and give the alarm.

Among embodiment, described alarm comprises alarm lamp and alarm buzzer therein.

Among embodiment, described engineering truck supervisory control system comprises the memory module that is connected with described i.MX53 processor therein.

Among embodiment, described memory module comprises one or more in NAND Flash holder, SPI Nor Flash memory, TF card and the Double Data Rate synchronous DRAM therein.

Among embodiment, described engineering truck supervisory control system comprises the knob that is connected with described i.MX53 processor and touches button therein.

Among embodiment, described engineering truck supervisory control system comprises the USB (universal serial bus) that is connected with described i.MX53 processor therein.

Above-mentioned engineering truck supervisory control system, when the engineering truck operation, obtain vision signal by camera shooting environmental image, video converter is sent to the i.MX53 processor after vision signal is converted to video data, the i.MX53 processor is converted to the video image that display screen can be identified with video data, and show at display screen, the Applicable temperature scope of i.MX53 processor is big, adverse circumstances such as the high temperature in the time of can adapting to the engineering truck operation, day and night temperature are big.By gathering and show the environmental images of engineering truck, operator's blind area when having eliminated the engineering truck operation has improved the operating efficiency of engineering truck.

Description of drawings

Fig. 1 is the structure chart of engineering truck supervisory control system among the embodiment;

Fig. 2 is the schematic diagram of video converter among the embodiment;

Fig. 3 a, Fig. 3 b, Fig. 3 c, Fig. 3 d are the partial enlarged drawing of Fig. 2;

Fig. 4 is the structure chart of engineering truck supervisory control system among another embodiment.

Embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated.

A kind of engineering truck supervisory control system, engineering truck can be heavy goods vehicle, large-scale crane, excavator, bull-dozer, road roller, load wagon, electric power first-aid car, breakdown lorry etc.As shown in Figure 1, the engineering truck supervisory control system comprises camera 110, video converter 120, i.MX53 processor 130 and display screen 140, and camera 110 is connected with i.MX53 processor 130 by video converter 120, and i.MX53 processor 130 connects display screen 140.

The environmental images that camera 110 is used for the shooting engineering truck obtains vision signal.Camera 110 can be arranged at the engineering truck housing outer surface, particular location is adjusted according to actual conditions, for example, monitor if engineering truck travelled, camera 110 can be arranged on engineering truck side or the afterbody shell, take the surface state that driver's inconvenience is observed, if the supervision control engineering car carries out digging operation, then camera can be installed on the engineering truck digging arm.Camera 110 can be CMOS(Complementary Metal Oxide Semiconductor, complementary metal oxide semiconductors (CMOS)) camera or CCD(Charge-coupled Device, charge coupled cell) camera, camera 110 is the CMOS camera in the present embodiment, because it is relatively simple for structure, can reduce production costs.Camera 110 can be 1, can be 2 or a plurality of also, and the quantity of camera 110 is 2 in the present embodiment, can gather environmental images more comprehensively, improves monitoring effect.

Video converter 120 is used for vision signal is converted to video data.Figure 2 shows that the schematic diagram of video converter 120, video converter 120 comprises that model is the chip U1300 of ADV7180BSTZ-LQFP64 in the present embodiment, be appreciated that in other embodiments and can also change vision signal with other video frequency processing chips that Fig. 3 a, Fig. 3 b, Fig. 3 c, Fig. 3 d are the partial enlarged drawing of Fig. 2.

CVBS1 end and CVBS2 termination among Fig. 3 a are received the vision signal that camera 110 obtains, the AIN1 end is connected with pin 36 with the pin 35 of Fig. 3 b chips U1300 with the AIN2 end, be used for vision signal is sent to chip U1300, CSIO_DAT0 among Fig. 3 c holds to CSIO_DAT7 end connection i.MX53 processor 130, the video data that chip U1300 is converted to is sent to i.MX53 processor 130, capacitor C 1301 among the pin 4 of chip U1300 and the pin one 1 connection layout 3d, capacitor C 1321 among the pin two 3 of chip U1300 and the pin 58 connection layout 3d, the capacitor C 1307 among the pin 40 of chip U1300 and the pin 31 connection layout 3d.

Continuation is with reference to Fig. 1, i.MX53 processor 130 is used for the video data that video converter 120 sends is converted to the video image that display screen 140 can be identified, and namely i.MX53 processor 130 can be adjusted the video image form that is converted to according to the screen form that display screen 140 is supported.The Applicable temperature scope of i.MX53 processor 130 is big, adverse circumstances such as the high temperature in the time of can adapting to the engineering truck operation, day and night temperature are big.The model of i.MX53 processor 130 can be i.MX535, i.MX536, i.MX537 etc., and i.MX53 processor 130 adopts the i.MX536 chip in the present embodiment.The i.MX53 series microprocessor is based on ARM Cortex-A8 kernel, and every kernel operating rate reaches advanced multimedia, the energy-efficient processor of 1.2GHz.That its perfect performance and power consumption can satisfy is high-end, the harsh requirement of senior application.The i.MX53 series microprocessor contains integrated display controller, full HD support, enhanced graphics and linkage function, and is applied widely.

Display screen 140 is used for the display video image, can pass through LVDS(Low-Voltage Differential Signaling, Low Voltage Differential Signal) interface and i.MX53 processor, the LVDS interfacing adopts extremely low voltage swing high speed differential transmission data, can realize point-to-point or a bit to connection of multiple spot, have low-power consumption, low error rate, low crosstalking and characteristics such as low radiation.Display screen 140 can be TFT(Thin Film Transistor in the present embodiment, Thin Film Transistor (TFT)) digital display screen, can on the screen each independently pixel control, improve the reaction time.Also can be the display screen of other types in other embodiments.

I.MX53 processor 130 also can be connected with the controller of engineering truck by the CAN bus, realizes the engineering truck data, as the mutual transmission of data such as engine parameter, arm strength size.

Above-mentioned engineering truck supervisory control system, when the engineering truck operation, obtain vision signal by camera 110 shooting environmental images, video converter 120 is sent to i.MX53 processor 130 after vision signal is converted to video data, i.MX53 processor 130 is converted to the video image that display screen 140 can be identified with video data, and show at display screen 140, the Applicable temperature scope of i.MX53 processor 130 is big, adverse circumstances such as the high temperature in the time of can adapting to the engineering truck operation, day and night temperature are big.By gathering and show the environmental images of engineering truck, operator's blind area when having eliminated the engineering truck operation has improved the operating efficiency of engineering truck, avoids operating accident.

Therein among embodiment, as shown in Figure 4, the engineering truck supervisory control system can comprise temperature sensor 150, analog to digital converter 160 and alarm 170, and temperature sensor 150 connects i.MX53 processor 130 by analog to digital converter 160, and alarm 170 is connected with i.MX53 processor 130.

Temperature sensor 150 is used for the collecting temperature signal, its installation site also can be adjusted according to actual conditions, such as, if be used for the working temperature of supervision control engineering car dynamical system, temperature sensor 150 can be arranged at the dynamical system place, if be used for the working temperature of supervision control engineering car transmission system, then temperature sensor 150 can be arranged at the transmission system place.

Analog to digital converter 160 is used for the temperature signal that temperature sensor 150 is gathered is converted to temperature data, and analog to digital converter 160 can pass through I2C(Inter-Integrated Circuit) bus is connected with i.MX53 processor 130.The I2C bus has that interface line is few, and control mode is simple, and the device packing forms is little, and traffic rate is than advantages such as height.I.MX53 processor 130 is used for also judging whether temperature data surpasses default temperature threshold, and control alarm 170 gives the alarm when temperature data surpasses temperature threshold.Temperature threshold can be adjusted according to field condition.

Alarm 170 can pass through GPIO(General Purpose Input Output, general I/O in the present embodiment) interface is connected with i.MX53 processor 130, and the GPIO interface has advantages such as low-power consumption, cost is low, wiring is simple.Alarm 170 also can comprise alarm lamp 172 and alarm buzzer 174, reports to the police simultaneously by acousto-optic, is convenient to the operator and in time finds, avoids engineering truck because of long working, causes temperature too high and damage.Alarm 170 also can include only alarm lamp 172 or alarm buzzer 174 in other embodiments.When i.MX53 processor 130 judges that temperature data surpasses temperature threshold, can also control display screen 140 and show default warning picture in addition, the prompting operator in time stops operation or takes cooling measure.

Among embodiment, the engineering truck supervisory control system can comprise the memory module 180 that is connected with i.MX53 processor 130 therein.Memory module 180 can comprise NAND Flash holder, SPI Nor Flash memory, TF card and DDR(Double Data Rate, Double Data Rate synchronous DRAM) in one or more.Memory module 180 comprises above-mentioned four kinds of memories in the present embodiment, wherein, NAND Flash holder is used for the program code of storage control i.MX53 processor 130 work, and it is bigger that NAND Flash holder has a capacity, advantages such as rewriting speed is fast are applicable to the storage of mass data.SPI Nor Flash memory interface is simple, applicability is strong, is used for storage BOOT code in the present embodiment, realizes start-up mode is selected.The TF card is used for information such as video data that storage of collected is converted to and temperature data, and the TF jig has characteristics such as volume is little, easy to carry.The DDR memory adopts the DDR3 specification in the present embodiment, as memory bar.

Continuation is with reference to Fig. 4, therein among embodiment, the engineering truck supervisory control system can comprise USB(Universal Serial BUS, USB) interface 190, usb 1 90 can adopt USB OTG(On The Go, movable) technology is connected with i.MX53 processor 130, is implemented under the situation that does not have main frame, and i.MX53 processor 130 transmits with the data of other equipment rooms.

In addition, the engineering truck supervisory control system can comprise for the knob 192 that switches display screen 140 display interfaces and be used for arranging parameter touch button 194, knob 192 with touch button 194 and equally also can be connected with i.MX53 processor 130 by the GPIO interface.The engineering truck supervisory control system also can comprise the supply module that is connected with i.MX53 processor 130, is used to i.MX53 processor 130 that operating voltage is provided.

The above embodiment has only expressed several execution mode of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art under the prerequisite that does not break away from the utility model design, can also make some distortion and improvement, these all belong to protection range of the present utility model.Therefore, the protection range of the utility model patent should be as the criterion with claims.

Claims (10)

1. an engineering truck supervisory control system is characterized in that, comprises camera, video converter, i.MX53 processor and display screen, and described camera is connected with described i.MX53 processor by described video converter, and described i.MX53 processor connects described display screen,

The environmental images that described camera is taken engineering truck obtains vision signal;

Described video converter is converted to video data with described vision signal;

Described i.MX53 processor is converted to the video image that described display screen can be identified with described video data;

Described display screen shows described video image.

2. engineering truck supervisory control system according to claim 1 is characterized in that, described camera is the complementary metal oxide semiconductors (CMOS) camera.

3. engineering truck supervisory control system according to claim 1 is characterized in that, described video converter comprises the ADV7180BSTZ-LQFP64 chip.

4. engineering truck supervisory control system according to claim 1 is characterized in that, described display screen is the Thin Film Transistor (TFT) digital display screen.

5. engineering truck supervisory control system according to claim 1, it is characterized in that, described engineering truck supervisory control system comprises temperature sensor, analog to digital converter and alarm, described temperature sensor connects described i.MX53 processor by described analog to digital converter, described alarm is connected with described i.MX53 processor

Described temperature sensor collecting temperature signal;

Described analog to digital converter is converted to temperature data with described temperature signal;

Described i.MX53 processor judges whether described temperature data surpasses default temperature threshold, if then control described alarm and give the alarm.

6. engineering truck supervisory control system according to claim 5 is characterized in that, described alarm comprises alarm lamp and alarm buzzer.

7. engineering truck supervisory control system according to claim 1 is characterized in that, described engineering truck supervisory control system comprises the memory module that is connected with described i.MX53 processor.

8. engineering truck supervisory control system according to claim 7 is characterized in that, described memory module comprises one or more in NAND Flash holder, SPI Nor Flash memory, TF card and the Double Data Rate synchronous DRAM.

9. engineering truck supervisory control system according to claim 1 is characterized in that, described engineering truck supervisory control system comprises the knob that is connected with described i.MX53 processor and touches button.

10. according to any described engineering truck supervisory control system of claim 1 to 9, it is characterized in that described engineering truck supervisory control system comprises the USB (universal serial bus) that is connected with described i.MX53 processor.

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