CN1057605C

CN1057605C - Linear grating system

Info

Publication number: CN1057605C
Application number: CN 97116172
Authority: CN
Inventors: 刘书铭
Original assignee: Zhishen Industrial Co Ltd
Current assignee: Zhishen Industrial Co Ltd
Priority date: 1997-08-08
Filing date: 1997-08-08
Publication date: 2000-10-18
Anticipated expiration: 2017-08-08
Also published as: CN1208171A

Abstract

The present invention relates to a linear grating system which is used for detecting linear displacement and producing corresponding position signals or displacement signals. The linear grating system comprises a casing, a bar-shaped thin plate, a sliding frame, a detecting device, and a control circuit, wherein the bar-shaped thin plate is provided with a plurality of loopholes disposed in a line and a plurality of parallel wires; the sliding frame comprises a frame body, and a sliding hole of the sliding frame is sleeved on the bar-shaped thin plate in a horizontal sliding mode; the detecting device is used for detecting the loopholes on the thin plate and producing detection signals to monitor the displacement of the sliding frame on the thin plate, and is electrically connected with the parallel wires on the thin plate in a sliding mode; the control circuit is used for converting detection signals produced by the detecting device into position signals or displacement signals.

Description

Linear grating system

The present invention relates to a kind of optical-mechanical system, refer in particular to a kind of linear grating system of detecting linear displacement and producing corresponding position signalling or displacement signal of being used to.

Linearly variable resistance often is used on the electronic installation as input media, and it adopts button slidably to change resistance value with the volume of control electronic installation or speed speed etc.But the sliding friction of chronicity can cause variable-resistance consume, and this consume simultaneously also may change resistance value, thereby makes the out of true as a result of measurement.

Therefore, fundamental purpose of the present invention is to provide a kind of linear grating system, its can be used for measuring the position of button slidably or displacement with the linearly variable resistance that substitutes prior art to solve above-mentioned shortcoming.

The object of the present invention is achieved like this, and a kind of linear grating system promptly is provided, and it comprises: a housing, and it comprises an inner room, is provided with the open slot of a long strip type above described inner room; One long strip type thin plate, this thin plate are horizontally placed on this inner room and are positioned at the below of this open slot, and this thin plate is provided with a plurality of light hole and many parallel wires that line style is arranged that are; One sliding sash, it comprises a framework, be provided with a slide opening in the middle part of this framework, and be provided with a button in the upper end of this framework, but the slide opening of this sliding sash is set in the top of this thin plate in the mode of horizontal slip, the button of its upper end then protrudes from the open slot of this housing top so that the user can utilize this button with this sliding sash along this thin plate horizontal slip; One pick-up unit, it is arranged among this framework, is used to detect the light hole on this thin plate and produces the relevant detection signal to monitor the displacement of this sliding sash on this thin plate, and this pick-up unit slidably is electrically connected with many parallel wires of this thin plate; With a control circuit, it is electrically connected with many parallel wires of this thin plate, is used for converting the detection signal that this pick-up unit produces to corresponding position signalling or displacement signal.

Fig. 1 is the external view of linear grating system of the present invention.

Fig. 2 is a linear grating system shown in Figure 1 sectional view along tangent line 2-2.

Fig. 3 is the synoptic diagram of linear grating system intraware shown in Figure 1.

Fig. 4 is the circuit diagram of pick-up unit.

Referring to Fig. 1, Fig. 2 and Fig. 3.Fig. 1 is the external view of linear grating system 10 of the present invention, and Fig. 2 is the sectional view of system 10 along tangent line 2-2, and Fig. 3 is the synoptic diagram of system's 10 intrawares.System 10 comprises housing 12, long strip type thin plate 14, sliding sash 16, pick-up unit 18, position monitor 19 and control circuit 20.Be provided with inner room 22 in the housing 12, inner room 22 tops are provided with long strip type open slot 24.Long strip type thin plate 14 is horizontally placed on inner room 22 and is positioned at the below of open slot 24.Thin plate 14 is provided with a plurality of light hole 26 and many parallel wires 28 that line style is arranged that are, each light hole 26 all be square and also the aperture identical, the distance between each light hole 26 is too.Sliding sash 16 comprises framework 30, and the position, intermediate portion is provided with slide opening 32, and its upper end then is provided with button 34.But the slide opening 32 of sliding sash 16 is set on the thin plate 14 in the mode of horizontal slip, its upper end button 34 then protrude from housing 12 tops open slot 24 so that the user can utilize button 34 with sliding sash 16 along thin plate 14 horizontal slips.

Pick-up unit 18 is located in the framework 30, is used to detect the light hole 26 on the thin plate 14 and produces the relevant detection signal, with the displacement of monitoring sliding sash 16 on thin plate 14.Pick-up unit 18 slidably is electrically connected with many parallel wires 28 of thin plate.It is the same being used to measure the optical detection apparatus that circular grating rotates in pick-up unit 18 and the conventional mouse device, it comprises the optical transmitting set 36 that is positioned at light hole 26 1 sides, and the optical receiver 38 that is positioned at light hole 26 opposite sides, be used to receive the light that optical transmitting set 36 produced and produce the relevant detection signal.Control circuit 20 is electrically connected with many parallel wires 28 of thin plate 14, and being used for provides power supply and detection signal that pick-up unit 18 is produced converts corresponding displacement signal to pick-up unit 18.The displacement signal that control circuit 20 is produced is by output terminal 21 outputs.

Control circuit 20 comprises: storer 42, be used for stored programme and data, and wherein stored position monitoring program 44; And processor 46, be used for executing location monitoring facilities 44.Position monitoring program 44 can convert the detection signal that pick-up unit 18 is produced to corresponding displacement signal and export through output terminal 21.

Control circuit 20 can show the displacement of sliding sash 16 on thin plate 14 by detection signal being converted to displacement signal, also can be used for showing the position of sliding sash 16 on thin plate 14 in real time by producing position signalling.If the generation position signalling, 20 of control circuits must predict the position of sliding sash 16 on thin plate 14, and position monitor 19 promptly is to be provided with for this reason.Position monitor 19 is located in the housing 12, is used to monitor sliding sash 16 and whether is positioned at thin plate 14 left ends.When bringing into use linear grating system 10, the user need move to the position at position monitor 19 places so that control circuit 20 can be set up the reference position of sliding sash 16 with sliding sash 16.When sliding sash 16 is moved to the left end of thin plate 14 and is monitored by position monitor 19, position monitoring program 44 in the control circuit 20 can produce the position coordinates of a reference position and represent that sliding sash 16 is positioned at the position of thin plate 14 left ends, and it is stored in the storer 42.Then, when sliding sash 16 is moved, position monitoring program 44 is calculated sense of displacement and the displacement of sliding sash 16 on thin plate 14 according to the detection signal that is produced by pick-up unit 18, and change the position coordinates that is stored in the storer 42 according to this, the position coordinates that control circuit 20 is exported then is the position coordinates after being corrected, to show the current position of sliding sash 16.When using sliding sash 16, if sliding sash 16 is moved to the left end of thin plate 14 once more and when being monitored by position monitor 19, control circuit 20 is demarcated the position coordinates of sliding sash 16 again according to this and is reference position.

Except above-mentioned position monitor 19, also have in addition and a kind ofly demarcate the bearing calibration of sliding sash 16 reference positions by trimming process, it is closely similar that the employed trimming process of this method and general computing machine behaviour intend the used trimming process of bar.When carrying out this trimming process, the user needs cooperation position monitoring facilities 44 sliding sash 16 to be moved to the maximum sliding scale of the two ends of thin plate 14 with monitoring sliding sash 16.After two end points on the thin plate 14 were determined, the position coordinates at sliding sash 16 present places just can be demarcated and is stored in the storer 42.Then, when sliding sash 16 was moved, position monitoring program 44 continued to revise the position coordinates of sliding sash 16 according to detection signal, and produced position signalling with the position of real-time demonstration sliding sash 16 on thin plate 14 according to this position coordinates.

Referring to Fig. 4, Fig. 4 represents the circuit diagram of pick-up unit 18.Pick-up unit 18 comprises optical transmitting set 36 and optical receiver 38.The optical transmitting set 36 of pick-up unit 18 and optical receiver 38 are electrically connected with control circuit 20 by lead 28.Optical transmitting set 36 is a light emitting diode, and optical receiver 38 then comprises two photodetectors 40, is used to detect light that optical transmitting set 36 transmits through light hole 26 with sense of displacement and the displacement of monitoring sliding sash 16 on thin plate 14, and produces the relevant detection signal.Control circuit 20 shown in Figure 3 adopts the detection signal that is produced by two photodetectors 40 to calculate the sense of displacement and the displacement of sliding sash 16, and converts thereof into corresponding displacement signal.

Compare with existing linearly variable resistance, linear grating system 10 of the present invention utilizes the optical transmitting set 36 of pick-up unit 18 and sense of displacement and the displacement that optical receiver 38 detects sliding sash 16, the problem that is worn because of the long-term use of variable resistor therefore can not occur.As long as it is normal that the electric function of optical transmitting set 36 and optical receiver 38 keeps, control circuit 20 just can accurately be measured the sense of displacement and the displacement of sliding sash 16 constantly and produce corresponding displacement signal or position signalling.

Claims

1. linear grating system comprises:

One housing, it comprises an inner room, is provided with the open slot of a long strip type above described inner room;

One long strip type thin plate, described thin plate are horizontally placed on described inner room and are positioned at the below of described open slot, and described thin plate is provided with a plurality of light hole and many parallel wires that line style is arranged that are;

One sliding sash, it comprises a framework, be provided with a slide opening in the middle part of described framework, and be provided with a button in the upper end of described framework, but the slide opening of described sliding sash is set in the top of described thin plate in the mode of horizontal slip, the button of its upper end then protrudes from the open slot of described housing top so that the user can utilize described button with described sliding sash along described thin plate horizontal slip;

One pick-up unit, it is arranged among the described framework, be used to detect the light hole on the described thin plate and produce the relevant detection signal, to monitor the displacement of described sliding sash on described thin plate, described pick-up unit slidably is electrically connected with many parallel wires of described thin plate; With

One control circuit, it is electrically connected with many parallel wires of described thin plate, is used for converting the detection signal that described pick-up unit produces to corresponding position signalling or displacement signal.

2. linear grating system as claimed in claim 1, described a plurality of light holes are to have the square hole of same apertures and be equidistant arrangement.

3. linear grating system as claimed in claim 1, described pick-up unit comprises that one is positioned at the optical transmitting set of a side of described a plurality of light holes, and an optical receiver that is positioned at the opposite side of described a plurality of light holes, be used to receive the light that described optical transmitting set produces and produce described detection signal.

4. linear grating system as claimed in claim 3, described optical receiver comprises two photodetectors, be used to adopt a plurality of light holes monitor described sliding sash on described thin plate sense of displacement and displacement and produce the relevant detection signal, described control circuit then adopts by described two detection signals that photodetector produced and calculates the sense of displacement and the displacement of described sliding sash and convert thereof into corresponding displacement signal.

5. linear grating system as claimed in claim 1, described control circuit comprises:

One storer is used for stored programme and data;

One position monitoring program is stored in the described storer; With

One processor is used to carry out trimming process; Wherein said position monitoring program can be by monitoring described sliding sash by the performed trimming process of user maximum scope slidably, with monitor described sliding sash on described thin plate the position and produce corresponding position coordinates, then, when described sliding sash is moved, described position monitoring program produces described position signalling according to described position coordinates and described detection signal, with the position of the described sliding sash of real-time demonstration on described thin plate.

6. linear grating system as claimed in claim 1, it also comprises a position monitor, be located in the described housing, be used to monitor described sliding sash and whether be positioned at a certain precalculated position on the described thin plate, when described sliding sash was monitored to, described control circuit produced a preposition coordinate, then when described sliding sash is moved, described control circuit produces described position signalling according to described position coordinates and described detection signal, with the position of the described sliding sash of real-time demonstration on described thin plate.

7. linear grating system as claimed in claim 6, described control circuit comprises:

One storer is used for stored programme and data;

One position monitoring program is stored in the described storer; With

One processor is used to carry out described position monitoring program; Wherein when described sliding sash is monitored to, described position monitoring program can produce a preposition coordinate and it is stored in the described storer, then when described sliding sash is moved, described position monitoring program is calculated sense of displacement and the displacement of described sliding sash on described thin plate according to described detection signal and is also changed described position coordinates according to this, and produce described position signalling according to described position coordinates, with the position of the described sliding sash of real-time demonstration on described thin plate.