CN202547602U - Explosion-proof grating displacement transducer - Google Patents

Abstract

The utility model discloses an explosion-proof grating displacement transducer. The explosion-proof grating displacement transducer comprises a measuring head, a measuring rod, a scale grating, an indicating grating, a photoelectric conversion device, a light source and a four-channel optical fiber transmission system, wherein the light source adopts a laser diode; the photoelectric conversion device comprises a phototransistor, differential amplifying circuit, a subdivision circuit, a direction-distinguishing circuit, a reversible counting circuit and a calculation processing circuit; through the four-channel optical fiber transmission system, the photoelectric conversion device is mounted in an area far away from an explosive testing site; each channel of optical fiber transmission system comprises a transmission optical fiber cable, a transmission optical fiber collimator, a receiving optical fiber collimator and a receiving optical fiber cable; two ends of the transmission optical fiber cable are respectively connected with the laser diode and the transmission optical fiber collimator; and two ends of the receiving optical fiber cable are respectively connected with the receiving optical fiber collimator and the phototransistor. According to the utility model, potential safety hazards caused by the adoption of electronic elements and cables on the site can be effectively eliminated.

Description

A kind of protected against explosion grating displacement sensor

Technical field

The utility model relates to a kind of grating displacement sensor, particularly relates to a kind of protected against explosion grating displacement sensor.

Background technology

Existing high precision grating displacement sensor adopts the infraluminescence pipe as light source more; Infraluminescence pipe and the photoelectric conversion device that comprises phototriode, differential amplifier circuit, sub-circuit, sensing circuit, reversible counting circuit, calculation processing circuit are located in the displacement transducer or the juxtaposition displacement sensor; This grating displacement sensor since when work possibly therefore be inappropriate for inflammable and explosive on-the-spot the use because of the electronic component fault produces electric spark.In order to guarantee the safety of inflammable and explosive test site, need the live part in the grating displacement sensor be shifted out the zone that places away from inflammable and explosive scene, produced the utility model thus.

Summary of the invention

The purpose of the utility model is to provide a kind of protected against explosion grating displacement sensor that is applicable to inflammable and explosive scene.

For achieving the above object; The solution that the utility model adopts is: this protected against explosion grating displacement sensor optical grating pair, photoelectric conversion device, light source, gauge head and measuring staff; Optical grating pair is made up of a scale grating and an indication grating; The scale grating is fixed on the scale grating seat; Indication grating is fixed on the indication grating seat; Scale grating seat is connected with measuring staff, and photoelectric conversion device comprises phototriode, differential amplifier circuit, sub-circuit, sensing circuit, reversible counting circuit and calculation processing circuit, and said light source adopts laser diode; Photoelectric conversion device and laser diode are installed in the zone away from explosive test site through four road fibre-optic transmission system (FOTS)s; Every road fibre-optic transmission system (FOTS) comprises launching fiber cable, launching fiber collimating apparatus, receives optical fiber collimator and receives fiber optic cables that the two ends of launching fiber cable are connected with the launching fiber collimating apparatus with laser diode respectively, with optical signal transmission to the launching fiber collimating apparatus of laser diode emission; The two ends that receive fiber optic cables are connected with phototriode with the reception optical fiber collimator respectively; With receiving Moire fringe optical signal transmission that optical fiber collimator picks up to phototriode, four launching fiber collimating apparatuss and four receive optical fiber collimators respectively through launching fiber collimating apparatus installing plate with receive the optical fiber collimator installing plate and be installed on the indication grating seat, the four mutually orthogonal phase simulating signals of four phototriode outputs are enlarged into sinusoidal and cosine two-phase orthogonal signal through the differential amplifier circuit difference.

Above-mentioned four launching fiber collimating apparatuss and four receive optical fiber collimator respectively along the moving direction setting of sounding rod.

Laser diode emission light signal during the work of the utility model protected against explosion grating displacement sensor; This light signal shines on the metrological grating pair through launching fiber cable and launching fiber collimating apparatus and forms Moire fringe; Measuring head drives scale grating and the indication grating generation relative motion in the sensor when testee produces displacement; This moment, Moire fringe changed with the relative motion of optical grating pair; The reception optical fiber collimator is transferred to the variable signal of Moire fringe away from carrying out opto-electronic conversion, difference amplification, high power segmentation, sensing, reversible counting and computing in the photoelectric conversion device at inflammable and explosive scene successively through receiving fiber optic cables; Wherein phototriode converts light signal to analog electrical signal; Differential amplifier circuit is enlarged into sine and cosine two-phase orthogonal signal with 0 °, 90 °, 180 °, the 270 ° four faint phase orthogonal simulation signal differential of four phototriode outputs; Sub-circuit carries out the high power segmentation with this two phase signals, finally can obtain the measurement data of resolution to 0.01 μ m.

The utlity model has following effect:

(1) because employing is installed in the zone away from inflammable and explosive scene with photoelectric conversion device; And through the optical cable transmitting optical signal; Thereby can not only effectively stop the potential safety hazard that field by using electronic component and cable bring, and because only there is light signal in measure field, thereby its measurement result can not be affected because of thunderbolt, radiation etc.; Antijamming capability is strong, and measuring accuracy is high;

(2) owing to adopt semiconductor laser as light source, thereby not only the signal of light is strong, and the single-frequency performance of light is good, and can avoid the interference of other light;

(3) optical signal transmission distance can reach 25Km farthest, can realize remote monitoring.

Description of drawings

Fig. 1 is the surface structure synoptic diagram of the utility model.

Fig. 2 is the structure and the principle schematic of the utility model.

Fig. 3 removes the front view (part-structure is analysed and observe among the figure) of the partial structurtes behind photoelectric conversion device, the optical cable for the utility model.

Fig. 4 removes the vertical view (part-structure is analysed and observe among the figure) of the partial structurtes behind photoelectric conversion device, the optical cable for the utility model.

Fig. 5 looks synoptic diagram for the master of the partial structurtes (launching fiber collimating apparatus, reception optical fiber collimator part) of the utility model.

Fig. 6 looks synoptic diagram for the left side of structure shown in Figure 4.

Fig. 7 looks synoptic diagram for the right side of structure shown in Figure 4.

Among the figure: 1-gauge head, 2-measuring staff, 3-scale grating, 4-scale grating seat

5-indication grating, 6-indication grating seat, 7-photoelectric conversion device, 8-laser diode

9-launching fiber cable, 10-launching fiber collimating apparatus 11-reception optical fiber collimator

12-reception fiber optic cables, 13-launching fiber collimating apparatus installing plate, 14-reception optical fiber collimator installing plate

Embodiment

For the purpose, technical scheme and the advantage that make the utility model is clearer,, the utility model is done further explain below in conjunction with accompanying drawing and embodiment.

Like Fig. 1, Fig. 2, shown in Figure 3; The utility model comprises gauge head 1, measuring staff 2, scale grating 3, indication grating 5, photoelectric conversion device 7, light source and four road fibre-optic transmission system (FOTS)s; Scale grating 3 is fixed on the scale grating seat 4, and indication grating 5 is fixed on the indication grating seat 6, and scale grating seat 4 is connected with measuring staff 2; Light source adopts laser diode 8, and it is driven by the laser diode drive that is installed in the photoelectric conversion device 7.Photoelectric conversion device 7 comprises phototriode, differential amplifier circuit, sub-circuit, sensing circuit, reversible counting circuit and calculation processing circuit, and photoelectric conversion device 7 is installed in the zone away from explosive test site through four road fibre-optic transmission system (FOTS)s.Every road fibre-optic transmission system (FOTS) comprises launching fiber cable 9, launching fiber collimating apparatus 10, receives optical fiber collimator 11 and receives fiber optic cables 12; The two ends of launching fiber cable 9 are connected with launching fiber collimating apparatus 10 with laser diode 8 respectively; Optical signal transmission to launching fiber collimating apparatus with laser diode 8 emissions; The two ends that receive fiber optic cables 12 respectively with receive optical fiber collimator 11 and be connected with phototriode, the Moire fringe optical signal transmission that reception optical fiber collimator 11 is picked up is to phototriode.

Like Fig. 4, Fig. 5, shown in Figure 6; Four launching fiber collimating apparatuss 10 and four reception optical fiber collimators 11 are installed on the indication grating seat 5 through launching fiber collimating apparatus installing plate 13 and reception optical fiber collimator installing plate 14 respectively; Said launching fiber collimating apparatus installing plate 13 is screwed with reception optical fiber collimator installing plate 14 and shows on the grating seat 5; Be respectively equipped with four holes on it, four launching fiber collimating apparatuss 10 and four receive optical fiber collimator 11 and are inserted in the hole respectively and use adhesive securement.Four launching fiber collimating apparatuss 10 and four reception optical fiber collimators 11 are arranged along moving direction " " font of measuring staff respectively in the present embodiment.

In four of the utility model whens work, receive moire frange signal that optical fiber collimator 11 picks up and receive fiber optic cables 12 through four the tunnel and transfer to four phototriodes and carry out opto-electronic conversion; 0 °, 90 °, 180 °, the 270 ° four faint phase orthogonal simulation signal of four phototriode outputs is enlarged into sine and cosine two-phase orthogonal signal through the differential amplifier circuit difference, and this signal offers back level demonstration, computing and control operation again behind high power segmentation, sensing, reversible counting.

Claims (2)

1. protected against explosion grating displacement sensor; Comprise optical grating pair, photoelectric conversion device, light source, gauge head (1) and measuring staff (2); Optical grating pair is made up of a scale grating (3) and an indication grating (5); Scale grating (3) is fixed on the scale grating seat (4); Indication grating (5) is fixed on the indication grating seat (6); Scale grating seat (4) is connected with measuring staff (2); Photoelectric conversion device comprises phototriode, differential amplifier circuit, sub-circuit, sensing circuit, reversible counting circuit and calculation processing circuit; It is characterized in that: light source adopts laser diode (8); Photoelectric conversion device (7) and laser diode (8) are installed in the zone away from explosive test site through four road fibre-optic transmission system (FOTS)s; Every road fibre-optic transmission system (FOTS) comprises launching fiber cable (9), launching fiber collimating apparatus (10), receives optical fiber collimator (11) and receives fiber optic cables (12) that the two ends of launching fiber cable (9) are connected with launching fiber collimating apparatus (10) with laser diode (8) respectively, with optical signal transmission to the launching fiber collimating apparatus (10) of laser diode (8) emission; The two ends that receive fiber optic cables (12) are connected with phototriode with reception optical fiber collimator (10) respectively; To receive Moire fringe optical signal transmission that optical fiber collimator (11) picks up to phototriode, four launching fiber collimating apparatuss (10) and four receive optical fiber collimators (12) respectively through launching fiber collimating apparatus installing plate (13) with receive optical fiber collimator installing plate (14) and be installed on the indication grating seat (6), the four mutually orthogonal phase simulating signals that four phototriodes are exported are enlarged into sine and cosine two-phase orthogonal signal through the differential amplifier circuit difference.

2. a kind of protected against explosion grating displacement sensor according to claim 1 is characterized in that: four launching fiber collimating apparatuss (10) and four receive optical fiber collimators (12) respectively along the moving direction setting of measuring staff (2).

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