CN103604402B - A kind of intercalated dislocation measurement mechanism based on flexible touch screen - Google Patents

The invention discloses a kind of intercalated dislocation measurement mechanism based on flexible touch screen, comprise detection probe, flexible touch screen, data processor and multi-purpose computer, described flexible touch screen is arranged on the upper surface of the first detection piece, described detection probe is arranged on the lower surface of the second detection piece and fits with described flexible touch screen, the output terminal of described flexible touch screen is connected with the input end of described data processor, and the output terminal of described data processor is connected with described multi-purpose computer.The present invention, by catching the contact movement locus of detection probe and touch-screen, detects the changing of the relative positions situation between flat board or spherical shell in the non-contact case in real time, and structure is simple, is easy to realize, with low cost.

A kind of intercalated dislocation measurement mechanism based on flexible touch screen

Technical field

The present invention relates to a kind of changing of the relative positions measurement mechanism, particularly relate to a kind of intercalated dislocation measurement mechanism based on flexible touch screen.

Background technology

At present, the method measuring displacement is a lot, mainly contains electric vortex type, Hall-type, rod-type and optics pattern etc.These method great majority can only be measured along a direction, and can only measure the changing of the relative positions between flat board, and (as the optics pattern) that have is although can measure the changing of the relative positions between spherical shell, direction is also 360 ° of scopes, but its principle is very complicated, realize very difficult, cost is also very high.

Summary of the invention

It is simple that object of the present invention is just to provide a kind of structure to solve the problem, and realizes the intercalated dislocation measurement mechanism based on flexible touch screen to the measurement of changing of the relative positions track record between dull and stereotyped or spherical shell under noncontact.

The present invention is achieved through the following technical solutions above-mentioned purpose:

The present invention includes detection probe, flexible touch screen, data processor and multi-purpose computer, described flexible touch screen is arranged on the upper surface of the first detection piece, described detection probe is arranged on the lower surface of the second detection piece and fits with described flexible touch screen, the output terminal of described flexible touch screen is connected with the input end of described data processor, the output terminal of described data processor is connected with described multi-purpose computer, described detection probe is connected with described second detection piece by stationary installation, described stationary installation comprises fixed muffle, spring and gib screw, described second detection piece is provided with through hole, described fixed muffle is arranged in described through hole, described spring and described gib screw are arranged in described fixed muffle, described gib screw is connected with one end of described spring, the other end of described spring is connected with described detection probe.

Particularly, described first detection piece and described second detection piece are dull and stereotyped detection piece or arc detection piece.

Beneficial effect of the present invention is:

The present invention, by catching the contact movement locus of detection probe and touch-screen, detects the changing of the relative positions situation between flat board or spherical shell in the non-contact case in real time, and structure is simple, is easy to realize, with low cost.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the present invention is further described.

Fig. 1 is the intercalated dislocation measuring system schematic diagram based on flexible touch screen of the present invention;

Fig. 2 is flexible touch screen schematic diagram of the present invention;

Fig. 3 is data processor schematic diagram of the present invention;

Fig. 4 is detection probe of the present invention and corresponding fixture structure schematic diagram;

Fig. 5 is touch-screen scheme of installation of the present invention;

In figure: 101-flexible touch screen, 102-data processor, 103-multi-purpose computer, 201-flexible touch screen, 202-solid matter cable, 301-EP2C8Q208C7N, 302-FT245,303-ADS7843E, 401-detection probe, 402-outer spherical shell, 403-fixed muffle, 404-spring, 405-gib screw, 501-interior spherical shell.

Embodiment

Below in conjunction with accompanying drawing, the invention will be further described:

As illustrated in fig. 1 and 2, the present invention includes detection probe 401, flexible touch screen 101, data processor 102 and multi-purpose computer 103, described flexible touch screen 101 is arranged on the upper surface of the first detection piece, described detection probe 401 is arranged on the lower surface of the second detection piece and fits with described flexible touch screen 101, the output terminal of described flexible touch screen 101 is connected with the input end of described data processor 102, and the output terminal of described data processor is connected with described multi-purpose computer 103.

As shown in Figure 4, described detection probe 401 is connected with described second detection piece by stationary installation, described stationary installation comprises fixed muffle 403, spring 404 and gib screw 405, described second detection piece is provided with through hole, described fixed muffle 403 is arranged in described through hole, described spring 404 and described gib screw 405 are arranged in described fixed muffle 403, and described gib screw 405 is connected with one end of described spring 404, and the other end of described spring 404 is connected with described detection probe 401.Described detection probe 401 and corresponding stationary installation are used for withstanding flexible touch screen 101, form contact, and wherein spring 404 is for fixed test probe 401, can slide in perforate direction.

Shown in Fig. 3, data processor 102 is made up of FPGA control chip, ADS7843E, FT245, crystal oscillator, resistance and electric capacity, wherein FPGA control chip model is EP2C8Q208C7N, be mainly used in control ADS7843E and FT245, realize collection and the transfer function of data, ADS7843E is four-line resistive touch screen translation interface chip, conversion accuracy adopts 12, for obtaining the positional information of contact, FT245 is USB stand-alone interface chip, being the hinge of FPGA control chip and computing machine, for transmitting data and order, realizing the communication of upper and lower computer; Described testing software utilizes Labview2009 to write, and has the function sending order, receive data and data processing.

As shown in Figures 4 and 5, in an embodiment, flexible touch screen 201 is clipped between two spherical shells, four lines of the solid matter cable of flexible touch screen 201 respectively with the X in ADS7843E ₊, X _-, Y ₊, Y _-be connected, FT245 is connected with computing machine by USBB type connector and USB line, flexible touch screen 201 is sticked on interior spherical shell 501 outside surface position, spherical shell 402 is opened two through holes outside, one hole is used for detection probe 401 and passes into, as shown in Figure 4, another hole is used for solid matter cable 202 and draws the size in this hole.Detection probe 401 is fixed on outer spherical shell 402 according to the method shown in Fig. 4, to combine closely two spherical shells, regulating M4 screw 405 that detection probe 401 is pushed up is pressed on flexible touch screen 201, then solid matter cable 202 is connected with data processor 102, data processor 102 is connected on computing machine 103 simultaneously, as long as at this moment testing results software, just can the changing of the relative positions between two spherical shells be measured.

These are only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included in protection scope of the present invention.