CN204241691U - A kind of supersonic sensing velometer - Google Patents

Abstract

The utility model discloses a kind of supersonic sensing velometer, comprise ultrasonic sensor and telepilot, wherein said telepilot comprises signal lever, display screen and function button, signal lever is arranged on the left top of display screen, function button is arranged on display screen lower end, ultrasonic sensor comprises wireless signal transmission receiver and is arranged on the right top of ultrasonic sensor, photovoltaic charged plate is arranged on the left top of ultrasonic sensor, data processing chip is arranged on ultrasonic sensor bottom and ultrasonic pulse signal transmitter, ultrasonic pulse signal receiver is arranged on ultrasonic sensor right-hand member, the supersonic sensing velometer that the utility model provides self can provide power supply, omnidistance controlled in wireless, data measured is accurate and installation is simple, easy to use, for velocity survey personnel provide convenient.

Description

A kind of supersonic sensing velometer

Technical field

The utility model relates to ultrasonic technology field, is specially a kind of supersonic sensing velometer.

Background technology

Along with the development of traffic engineering network, to the control of speed with require more and more higher, particularly train, traditional speed-measuring method has a lot, such as pressure leather hose method and coil method, but these two kinds of application condition are large, measurement result does not reach present accuracy requirement, therefore seldom using above-mentioned two kinds of methods, traditional laser velocimeter needs to laser machine conveying power supply, and laser velocimeter requires to be distributed in train rail two ends.

For above-mentioned measurement train speed problem, we propose a kind of supersonic sensing velometer.

Utility model content

The purpose of this utility model is to provide a kind of supersonic sensing velometer, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme: a kind of supersonic sensing velometer, comprise ultrasonic sensor and telepilot, described telepilot comprises display screen and is arranged on described telepilot top, signal lever is connected to described display screen upper end, function button is arranged on below described display screen, described ultrasonic sensor comprises photovoltaic charged plate and is arranged on described ultrasonic sensor upper end, wireless signal transmission receiver is arranged on described ultrasonic sensor top, data processing chip is arranged on described ultrasonic sensor bottom, ultrasonic pulse signal transmitter, ultrasonic pulse signal receiver is arranged on described ultrasonic sensor one end.

Further, described signal lever is arranged on described telepilot top.

Further, described display screen upper end is provided with power light.

Further, described function button comprises sensing switch button, average velocity measures button and instantaneous velocity measurement button is longitudinally connected in turn below described display screen.

Further, described photovoltaic charged plate is connected to above battery by data line.

Compared with prior art, the beneficial effects of the utility model are:

1. ultrasonic sensor described in self can provide power supply by photovoltaic charged plate.

2. ultrasonic sensor described in can pass through the time processor self record time.

3. ultrasonic sensor described in by data processing chip self process and can analyze data.

4. ultrasonic sensor described in can by wireless signal processing terminal transmitting and receiving signal.

5. telepilot described in can by signal lever Received signal strength and the described ultrasonic sensor of manipulation.

6. telepilot described in can test instantaneous velocity and average velocity respectively by different button.

Accompanying drawing explanation

Fig. 1 is the utility model ultrasonic sensor structural representation;

Fig. 2 is the utility model remote controller structure schematic diagram:

In figure: 1 photovoltaic charged plate, 2 supports, 3 data lines, 4 batteries, 5 ultrasonic sensors, 6 data processing chips, 7 wireless signal transmission receivers, 8 wireless signal processors, 9 ultrasonic pulse signal transmitters, 10 time signal processors, 11 ultrasonic pulse signal receivers, 12 signal leveves, 13 power lights, 14 display screens, 15 sensing switch buttons, 16 average velocitys measure button, 17 instantaneous velocitys measurement button, 18 telepilots.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1-2, the utility model provides a kind of technical scheme: comprise photovoltaic charged plate 1, support 2, data line 3, battery 4, ultrasonic sensor 5, data processing chip 6, wireless signal transmission receiver 7, wireless signal processor 8, ultrasonic pulse signal transmitter 9, time signal processor 10, ultrasonic pulse signal receiver 11, signal lever 12, power light 13, display screen 14, sensing switch button 15, average velocity measures button 16, instantaneous velocity measures button 17, telepilot 18, described photovoltaic charged plate 1 is arranged on the described left top of ultrasonic sensor 5 by connecting described support 2, described battery 4 is arranged on described ultrasonic sensor 5 upper right side, and connect photovoltaic charged plate 1 by data line 3, described ultrasonic pulse signal transmitter 9 and described ultrasonic pulse signal receiver 11 are arranged on described ultrasonic sensor 5 right-hand member, described time signal processor 10 is arranged in the middle part of described ultrasonic sensor 5, described ultrasonic pulse signal transmitter 9 is connected by described data line 3 with described ultrasonic pulse signal receiver 11, described wireless signal transmission receiver 7 is arranged on the described right top of ultrasonic sensor 5, described wireless signal transmission receiver 7 lower end connects described wireless signal processor 8, described data processing chip 6 is arranged on described ultrasonic sensor 5 bottom, described signal lever 12 is arranged on the described left top of telepilot 18, described display screen 14 is arranged on described telepilot 18 top and connects described signal lever 12, described display screen 14 upper right side is provided with power light 13, described sensing switch button 15, described average velocity measures button 16 and described instantaneous velocity measurement button 17 is connected in turn bottom described display screen 14.

The utility model comprises described ultrasonic sensor 5 and described telepilot 18, described telepilot 18 is provided with three buttons, described sensing switch button 15 respectively, described average velocity measures button 16 and described instantaneous velocity measures button 17, described sensing switch button 15 state can be observed out by power light 13, press the button at described telepilot 18, arrange as instantaneous velocity as described in pressing measures button 17, its steering order described is sent to described wireless signal transmission receiver 7 on described ultrasonic sensor 5 by described signal lever 12, and by wireless signal processor 8 analysis instruction, and be sent to ultrasonic pulse signal transmitter 9 and make its transponder pulse signal, simultaneously described ultrasonic pulse signal receiver 11 and enter duty, described time signal processor 10 starts timing, when described ultrasonic pulse signal receiver 11 receives bounce-back pulse signal, described time signal processor 10 stops timing, and writing time interval, process corresponding data further by described data processing chip 6 and acquired results is sent to described wireless signal processor 8 by electric signal and change into wireless signal, described signal lever 12 on described telepilot 18 is sent to by described wireless signal transmission receiver 7, be sent to described display screen 14 by described signal lever 12 again and demonstrate the data obtained, it is more than utility model works principle.

The utility model is a kind of supersonic sensing velometer, self can provide power supply, omnidistance controlled in wireless, data measured precisely and install simple, easy to use, for velocity survey personnel provide convenient.

Last it is noted that the foregoing is only preferred embodiment of the present utility model; be not limited to the utility model; although be described in detail the utility model with reference to previous embodiment; for a person skilled in the art; it still can be modified to the technical scheme described in foregoing embodiments; or equivalent replacement is carried out to wherein portion of techniques feature; all within spirit of the present utility model and principle; any amendment of doing, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (5)

1. a supersonic sensing velometer, comprise ultrasonic sensor and telepilot, it is characterized in that: described telepilot comprises display screen and is arranged on described telepilot top, signal lever is connected to described display screen upper end, function button is arranged on below described display screen, described ultrasonic sensor comprises photovoltaic charged plate and is arranged on described ultrasonic sensor upper end, wireless signal transmission receiver is arranged on described ultrasonic sensor top, data processing chip is arranged on described ultrasonic sensor bottom, ultrasonic pulse signal transmitter, ultrasonic pulse signal receiver is arranged on described ultrasonic sensor one end.

2. a kind of supersonic sensing velometer according to claim 1, is characterized in that: described signal lever is arranged on described telepilot top.

3. a kind of supersonic sensing velometer according to claim 1, is characterized in that: described display screen upper end is provided with power light.

4. a kind of supersonic sensing velometer according to claim 1, is characterized in that: described function button comprises sensing switch button, average velocity measures button and instantaneous velocity measurement button is longitudinally connected in turn below described display screen.

5. a kind of supersonic sensing velometer according to claim 1, is characterized in that: described photovoltaic charged plate is connected to above battery by data line.