CN102001040A

CN102001040A - Wireless inclined angle measuring device for optical aspherical processing

Info

Publication number: CN102001040A
Application number: CN 201010515076
Authority: CN
Inventors: 郭隐彪; 姜晨; 潘日; 韩春光; 林静
Original assignee: Xiamen University
Current assignee: Xiamen University
Priority date: 2010-10-21
Filing date: 2010-10-21
Publication date: 2011-04-06

Abstract

The invention discloses a wireless inclined angle measuring device for optical aspherical processing, which relates to an inclined angle measuring device. The wireless inclined angle measuring device for optical aspherical processing is provided with a data acquiring and transmitting end device and a wireless receiving end device, wherein the data acquiring and transmitting end device is provided with a double-shaft acceleration sensor, a wireless module chip and an antenna circuit; the input end of the wireless module chip is connected with the inclined angle acquiring data output end of the double-shaft acceleration sensor; the input end of the antenna circuit is connected with the output end of the wireless module chip; and the output end of the antenna circuit is transmitted to the wireless receiving end device in a wireless way. The wireless receiving end device is provided with an antenna circuit, a wireless module chip and a serial management chip; the input end of the antenna circuit is used for receiving data transmitted by the data acquiring and transmitting end device; the input end of the wireless module chip is connected with the output end of the antenna circuit; and the output end of the wireless module chip is transmitted to a control platform by the serial management chip.

Description

A kind of wireless tilt measurement mechanism that is used for optical aspherical surface processing

Technical field

The present invention relates to a kind of dip measuring device, especially relate to a kind of wireless tilt measurement mechanism that is used for optical aspherical surface in-process gaging rotary table gradient.

Background technology

For optical aspherical surface processing, especially off-axis aspheric surface grinding uses tiltable workbench to come clamping workpiece usually, by adjusting the workbench gradient, changes the gradient of workpiece machined surface, can reduce the grinding total amount, effectively improves working (machining) efficiency.In order to guarantee machining accuracy, need carry out real-time gradient measurement to workbench usually, realize the closed-loop control of processing.General electrolevel (is the Chinese patent " electrolevel " of CN1414342 as publication number) can not be realized transfer of data, can't be applied in the system of closed-loop control.Some level meter can carry out transfer of data by wired modes such as RS232 serial ports, but wire communication mode has brought certain restriction to Unit Installation, if installation is improper, then may influence the ultraprecise machining accuracy of optical element.

Summary of the invention

The object of the invention is the demand of rotary table being carried out closed-loop control in the optical aspherical surface processing to provide a kind of wireless tilt measurement mechanism that is used for optical aspherical surface processing.

The present invention is provided with data acquisition and transmitting terminal device and wireless receiving end device.

Described data acquisition and transmitting terminal device are provided with double-axel acceleration sensor, wireless module chip and antenna circuit, the inclination angle image data output of the input termination double-axel acceleration sensor of wireless module chip, the output of the input termination wireless module chip of antenna circuit, the output of antenna circuit is sent to the wireless receiving end device by wireless mode.

Described wireless receiving end device is provided with antenna circuit, wireless module chip and serial interface management chip, the input reception data acquisition of antenna circuit and the data that the transmitting terminal device sends, the output of wireless module chip input termination antenna circuit, the output of wireless module chip sends to the control platform by the serial interface management chip.

Described control platform can be PC or relevant numerical control device etc.

Described data acquisition and transmitting terminal device are installed on the rotary table, data acquisition and transmitting terminal device are used to gather and calculate the top rake of working as of rotation platform, send to the wireless receiving end device by wireless mode then, described collection is by the double-axel acceleration sensor collection; The wireless module chip is as the central control unit of data acquisition and transmitting terminal device, it reads the data that double-axel acceleration sensor is gathered, calculate the current angle of inclination of sensor then, the output termination antenna circuit of wireless module chip sends to the wireless receiving end device by wireless mode.

The wireless receiving end device is used to receive the data that send over from data acquisition and transmitting terminal device, and data are sent to PC or relevant numerical control device by the serial interface management chip, makes control system to realize closed-loop control to rotary table.

The present invention has following outstanding advantage:

1) volume is little.Data acquisition and transmitting terminal device have adopted double-axel acceleration sensor and wireless module chip, make the apparatus structure compactness, and volume is small and exquisite.

2) flexible for installation.The present invention adopts wireless communication mode, has overcome the inconvenience that wiring brings in the installation process, and is easy for installation, flexible.

3) need not wiring, realize real-time measurement and wireless data transmission rotary table.

Description of drawings

Fig. 1 is the structure composition frame chart of the embodiment of the invention.

Fig. 2 is the operation principle schematic diagram of the embodiment of the invention.

Fig. 3 is the data acquisition of the embodiment of the invention and the circuit block diagram of transmitting terminal device.

Fig. 4 is the circuit block diagram of wireless receiving end device in the embodiment of the invention.

Below provide the code name of each the main accessory among Fig. 1,2:

1 data acquisition and transmitting terminal device, 2 double-axel acceleration sensors, 3 wireless module chips, 4 antenna circuits, 5 wireless receiving end devices, 6 antenna circuits, 7 wireless module chips, 8 serial interface management chips, 9 rotary tables, 10PC machine, 11 numerical control devices.

The specific embodiment

Below in conjunction with accompanying drawing technical scheme of the present invention is further elaborated.

Referring to Fig. 1, whole wireless tilt measurement mechanism comprises two parts: data acquisition and transmitting terminal device 1 and wireless receiving end device 5.Wherein, data acquisition and transmitting terminal device 1 are provided with double-axel acceleration sensor 2, wireless module chip 3, antenna circuit 4; Wireless receiving end device 5 is provided with wireless module chip 7, antenna circuit 6 and serial interface management chip 8.

Referring to Fig. 2, data acquisition and transmitting terminal device 1 are installed on the rotary table 9, and rotary table 9 can be rotated around axle, thereby change the inclination angle of work top.Measure two axial acceleration by double-axel acceleration sensor, calculate the top rake of working as of rotary table 9, send to wireless receiving end device 5 by wireless mode then.After wireless receiving end device 5 receives data, send to PC 10 or relevant numerical control device 11, make control system to realize closed-loop control rotary table 9 by the RS232 serial ports.

Referring to Fig. 3, primary structure comprises double-axel acceleration sensor 2, wireless module chip 3 and antenna circuit 4.Double-axel acceleration sensor 2 adopts the ADXL202 chip of ADI companies, and the numeral output of ADXL202 chip is the pulse duty cycle modulation signal, the dutycycle ratio of period T 2 (the high level lasting time T1 with) be directly proportional by measuring acceleration.Acceleration can be tried to achieve by formula: A=(T1/T2-0.5)/0.125.Can obtain actual angle of inclination on the sensor measurement direction according to geometrical relationship then.Wireless module chip 3 adopts MC13213, and this chip is as the CPU of data acquisition and transmitting terminal device, and on the one hand, it is responsible for regularly reading XOUT and the YOUT port of ADXL202, obtains accekeration, calculates gradient then; On the other hand, it in real time sends to wireless receiving end device with the data of gathering by wireless mode based on the IEEE802.15.4 home control network communication protocol.

Referring to Fig. 4, it comprises wireless module chip (ADXL20 type) 7, serial interface management chip (MC13213 type) 8 and antenna circuit 6.ADXL20 receives the inclined angle of table degrees of data of data acquisition and the transmission of transmitting terminal device based on the IEEE802.15.4 home control network communication protocol, on the PC or numerical control device that RS232 serial ports be housed of serial interface management chip (MC13213 type) 8 that is attached thereto with the data transmission, realize the real-time Transmission of rotary table gradient data, the final control platform that makes is realized closed-loop control to rotary table.

Claims

1. a wireless tilt measurement mechanism that is used for optical aspherical surface processing is characterized in that being provided with data acquisition and transmitting terminal device and wireless receiving end device;

Described data acquisition and transmitting terminal device are provided with double-axel acceleration sensor, wireless module chip and antenna circuit, the inclination angle image data output of the input termination double-axel acceleration sensor of wireless module chip, the output of the input termination wireless module chip of antenna circuit, the output of antenna circuit is sent to the wireless receiving end device by wireless mode;

2. a kind of wireless tilt measurement mechanism that is used for optical aspherical surface processing as claimed in claim 1 is characterized in that described control platform is PC or relevant numerical control device.

3. a kind of wireless tilt measurement mechanism that is used for optical aspherical surface processing as claimed in claim 1 is characterized in that described data acquisition and transmitting terminal device are installed on the rotary table.