CN201993117U - Self-aligning optical profile type encoder - Google Patents

Abstract

The utility model discloses a self-aligning optical profile type encoder which includes a light source, a main ruler, a light source seat and an auxiliary ruler. The light source seat and the auxiliary ruler are arranged at the two sides of the main ruler respectively. The light emitted from the light source penetrates the light source seat to output the parallel light. The parallel light shines the raster stripe of the main ruler. Outside the main ruler, the light source seat forms a Fresnel focal plane relative to the main ruler. The auxiliary ruler is arranged on the Fresnel focal plane. Thereby, through arranging the raster stripe on the main ruler and arranging the auxiliary ruler on the Fresnel focal plane, on the one hand, the distance between the main ruler and the auxiliary ruler is effectively enlarged, so the fixed connection of a leading-out wire with the auxiliary ruler in a bonding mode is become convenient, thus reducing the difficulty of the fixed connection between the leading-out wire and the auxiliary ruler, and also enhancing the bonding quality, and the stability and reliability of a product. On the other hand, the light penetrated from the main ruler can be focused on the auxiliary ruler to the utmost to make the light received by the auxiliary ruler reach an optimal effect, thus being favorable to improve the stability of a measuring signal.

Description

The optical encoders, angle sensors of self-aligned

Technical field

The utility model relates to the scrambler art, refers in particular to a kind of optical encoders, angle sensors of self-aligned.

Background technology

Tradition is used vernier caliper or milscale to the precision measurement system of displacement and speed, and the binding time survey instrument is measured, development along with optical technology, new measurement means has also obtained using widely, such as optical encoders, angle sensors, be widely used in the precision measurement to displacement and speed with its exclusive characteristic just in conjunction with optical technology and electronic technology.Common optical encoders, angle sensors is divided into reflective and penetration, the most common with penetration, the optical encoders, angle sensors of penetration includes main scale, light source base and secondary chi, this light source base and secondary chi are arranged at the both sides of main scale respectively, principle of work is: main scale is maintained fixed motionless in the time of operation, secondary chi and main scale are oppositely arranged and can move along main scale, by being arranged at grating on the main scale and the Moire fringe that angle excursion produced (MoireFringes) between the grating on the secondary chi, the light that light source base can be sent is through on the receiving sensor on the secondary chi of the eyeglass directive on the main scale, by this receiving sensor the light signal that receives is converted to the electric signal that near sinusoidal changes, to reach the purpose of position detecting.

Above-mentioned existing optical encoders, angle sensors structure, though can offer the user carries out precision measurement to displacement and speed effect, really has progressive, but when using, reality but finds still to have many deficiencies on himself structure and the usability, cause existing optical encoders, angle sensors in practical application, fail to reach best result of use and task performance, now its shortcoming is summarized as follows.

In order to make secondary chi can receive the light that transmits from main scale well; this pair chi is the closer to the easy more light that receives of main scale; yet all being provided with two extension lines on the existing secondary chi is connected with outside; two to draw linear system fixed by nation (be bonding for this; adopt aluminium wire or spun gold bonding equipment that corresponding bonding pad aluminium wire or spun gold on wafer (LED crystal grain or IC chip) and the pcb board are carried out bridge joint; be the internal lead welding of COB) mode fixedly connected with secondary chi; if secondary chi is too near from main scale; will make that extension line can't be fixed with secondary chi nation; thereby increased the difficulty that is connected and fixed between extension line and the secondary chi; existing main scale and the distance between the secondary chi generally are reserved with 40 μ m; major part is 30 μ m; yet this kind distance between this main scale and the secondary chi makes that still extension line is difficult to realize that with secondary chi nation is fixed; the fixed quality of nation is not good enough, influences measurement stability.

The utility model content

In view of this, the utility model is at the disappearance of prior art existence, and its fundamental purpose provides a kind of optical encoders, angle sensors of self-aligned, and its extension line that can effectively solve existing optical encoders, angle sensors is difficult to realize the fixed problem of nation with secondary chi.

For achieving the above object, the utility model adopts following technical scheme:

A kind of optical encoders, angle sensors of self-aligned, include light source, main scale, light source base and secondary chi, this light source base and secondary chi are arranged at the both sides of main scale respectively, the light transmission light source base output directional light that this light source sends, and this directional light is according on the grating fringe on the main scale; The relative main scale of this light source base is formed with the Fresnel focal plane outside main scale, this pair chi is positioned on this Fresnel focal plane.

As a kind of preferred version, described secondary chi includes secondary chi support and the semiconductor element that is arranged on the secondary chi support, is integrated with secondary grating of indication and receiving sensor in this semiconductor element.

As a kind of preferred version, described light source is a led light source.

As a kind of preferred version, the grating fringe on the described main scale is equally spaced grating fringe.

As a kind of preferred version, described light source base is an aspheric mirror.

The utility model compared with prior art has tangible advantage and beneficial effect, particularly, and as shown from the above technical solution:

By grating fringe is set on main scale, and by secondary chi is arranged on the Fresnel focal plane, make the distance between main scale and the secondary chi effectively increase on the one hand, being convenient to extension line fixedlys connected with secondary chi by the fixed mode of nation, thereby reduced the difficulty that is connected and fixed between extension line and the secondary chi, also can promote the fixed quality of nation, improve the stability and the reliability of product; On the other hand, the light that transmits from main scale focuses on the secondary chi to greatest extent, and the light that makes secondary chi receive can reach optimal effect, helps improving the stability of measuring-signal.

For more clearly setting forth architectural feature of the present utility model and effect, come the utility model is elaborated below in conjunction with accompanying drawing and specific embodiment.

Description of drawings

Fig. 1 is the structural representation of the preferred embodiment of the utility model;

Fig. 2 is the principle of work synoptic diagram of the preferred embodiment of the utility model;

Fig. 3 is the vertical view of secondary chi in the preferred embodiment of the utility model;

Fig. 4 is the side view of secondary chi in the preferred embodiment of the utility model.

The accompanying drawing identifier declaration:

10, main scale 11, grating fringe

101, Fresnel focal plane 20, light source base

30, secondary chi 31, secondary grating

32, receiving sensor 33, Moire fringe

40, light source 50, extension line.

Embodiment:

Please refer to Fig. 1 to shown in Figure 4, the concrete structure that it has demonstrated the preferred embodiment of the utility model includes main scale 10, light source base 20, secondary chi 30 and light source 40.

Wherein, this main scale 10 be specially existing mature technology, be not described in detail at this concrete structure main scale 10, this main scale 10 is provided with equally spaced grating fringe 11.

As depicted in figs. 1 and 2, this light source base 20 and secondary chi 30 are arranged at the both sides of main scale 10 respectively, this light source base 20 is used for light is converted into directional light, this light source base 20 is an aspheric mirror, and the aforementioned relatively main scale 10 of light source base 20 is formed with the Fresnel focal plane 101(dotted portion of being made up of a plurality of Fresnel focuses outside dwelling 10), this Fresnel focal plane 101 is to the distance between the main scale 10 (being the Fresnel focal length)=d2/ λ=(20 μ) 2/0.88 μ ≈ 0.45mm=450 μ m, d in its Chinese style is the width of periodicity grating on the main scale 10, and λ is a light wavelength.This pair chi 30 is positioned on this Fresnel focal plane 101, this pair chi 30 is used for receiving the light that casts out from main scale 10, to reach the purpose of measurement, its principle of work is existing mature technology, be not described in detail in this principle of work secondary chi 30, this pair chi 30 includes secondary chi support and the semiconductor element that is arranged on the secondary chi support, as shown in Figure 3 and Figure 4, be integrated with secondary grating 31 of indication and receiving sensor 32 in this semiconductor element, receiving sensor 32 is aimed at secondary grating 31, need not to adjust, and semiconductor element can be one-body molded, the package assembly of this pair chi 30 is not described in detail in this assembled relation to secondary chi 30 for existing mature technology.During use; this pair chi 30 is connected with outside by two extension lines 50; this two extension line 50 be fixed by nation (be bonding; adopt aluminium wire or the spun gold bonding equipment corresponding bonding pad aluminium wire on wafer (LED crystal grain or IC chip) and the pcb board or spun gold are carried out bridge joint, i.e. the internal lead of COB welding) mode and secondary chi 30 be connected and fixed.

As shown in Figure 1, this light source 40 is arranged at the outside of light source base 20, and this light source 40 is a led light source.

The principle of work that present embodiment is described in detail in detail is as follows:

As shown in Figure 2, emit beam by light source 40, this light sees through light source base 20 output directional lights, this directional light is according on the grating fringe 11 of main scale 10, go out imaging at the Fresnel focal length then and repeat grating fringe, just as the grating fringe on the figure main scale 10, secondary chi 30 self-aligneds are integrated each element in the secondary chi 30, cancelled outside secondary chi 30 glass raster has been set, as shown in Figure 3, this imaging striped forms Moire fringe 33 on the receiving sensor of secondary chi 30, should receive light signal by pair chi 30 this moment, draws measured value after the analysis of secondary chi 30 inner members of process and the processing then, thereby reach the purpose of measurement, the principle of work of present embodiment is not described in detail in this principle of work to present embodiment for existing mature technology.

Design focal point of the present utility model is: by grating fringe is set on main scale, and by secondary chi is arranged on the Fresnel focal plane, make the distance between main scale and the secondary chi effectively increase on the one hand, being convenient to extension line fixedlys connected with secondary chi by the fixed mode of nation, thereby reduced the difficulty that is connected and fixed between extension line and the secondary chi, also can promote the fixed quality of nation, improve the stability and the reliability of product; On the other hand, the light that transmits from main scale focuses on the secondary chi to greatest extent, and the light that makes secondary chi receive can reach optimal effect, helps improving the stability of measuring-signal.

The above, it only is preferred embodiment of the present utility model, be not that technical scope of the present utility model is imposed any restrictions, so every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any trickle modification, equivalent variations and modification that above embodiment did.

Claims (5)

1. the optical encoders, angle sensors of a self-aligned, include light source, main scale, light source base and secondary chi, this light source base and secondary chi are arranged at the both sides of main scale respectively, it is characterized in that: the light transmission light source base output directional light that this light source sends, and this directional light is according on the grating fringe on the main scale; The relative main scale of this light source base is formed with the Fresnel focal plane outside main scale, this pair chi is positioned on this Fresnel focal plane.

2. the optical encoders, angle sensors of self-aligned according to claim 1 is characterized in that: described secondary chi includes secondary chi support and the semiconductor element that is arranged on the secondary chi support, is integrated with secondary grating of indication and receiving sensor in this semiconductor element.

3. the optical encoders, angle sensors of self-aligned according to claim 1 is characterized in that: described light source is a led light source.

4. the optical encoders, angle sensors of self-aligned according to claim 1 is characterized in that: the grating fringe on the described main scale is equally spaced grating fringe.

5. the optical encoders, angle sensors of self-aligned according to claim 1 is characterized in that: described light source base is an aspheric mirror.

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