CN218238737U - Photoelectric comprehensive measuring device - Google Patents

Abstract

The utility model relates to a photoelectric comprehensive measurement device, including measuring platform, support column, control platform, photoelectric measurement equipment, locating rack, the support column is provided with a plurality ofly, is fixed in the edge of measuring platform, control platform below respectively, photoelectric measurement equipment, locating rack and measuring platform upper surface perpendicular are connected, the last measurement spout and two regulation spouts that are provided with of measuring platform, photoelectric measurement equipment is fixed with measurement spout slip joint, the locating rack is provided with four at least, and average distribution is in two regulation spouts, it is fixed with locating rack slip joint to adjust the spout, last control panel, the control button of being provided with of control platform, control panel and control button, photoelectric measurement equipment electric connection. The utility model discloses a measuring device is synthesized to photoelectricity, accessible photoelectronic device measures accurate to a plurality of position diameters of tubulose object, and is fast, effectively promotes the efficiency that detects.

Description

Photoelectric comprehensive measuring device

Technical Field

The utility model relates to a photoelectric measurement technical field especially relates to a photoelectric integrated measuring device.

Background

The photoelectric measurement technology is a technology for measuring and transmitting various physical quantities at a high potential by using optical fiber communication and optoelectronic devices. The photoelectric measuring system can be conveniently used in the occasions with extremely high voltage because the non-conductive optical fiber is used for transmitting information. The sensor has the advantages of high sensitivity, light weight, small size and strong electromagnetic interference resistance, and can measure various physical quantities.

The photoelectric measurement can be applied to most scenes, in a factory, the diameters of a plurality of parts of a tubular object need to be measured after the tubular object is produced, the conventional measuring equipment mostly adopts a graduated scale for measurement, no fixed point exists between the measurement, the measurement is easy to generate errors, the overall product qualification detection is influenced, and the measurement is slow.

SUMMERY OF THE UTILITY MODEL

In view of the not enough of background art existence, the utility model relates to a measuring device is synthesized to photoelectricity has designed a measuring device is synthesized to photoelectricity according to above-mentioned problem, and accessible photoelectronic device measures a plurality of position diameters of tubulose object, and it is accurate to measure, and is fast, effectively promotes the efficiency that detects.

The utility model relates to a photoelectric comprehensive measurement device, including measuring platform, support column, control platform, photoelectric measurement equipment, locating rack, the support column is provided with a plurality ofly, is fixed in the edge of measuring platform, control platform below respectively, photoelectric measurement equipment, locating rack and measuring platform upper surface perpendicular are connected, the last measurement spout and two regulation spouts that are provided with of measuring platform, photoelectric measurement equipment is fixed with measurement spout slip joint, the locating rack is provided with four at least, and average distribution is in two regulation spouts, it is fixed with locating rack slip joint to adjust the spout, last control panel, the control button of being provided with of control platform, control panel and control button, photoelectric measurement equipment electric connection.

By adopting the scheme, the tubular object can be fixed by the positioning frame and can be measured by the photoelectric measuring equipment, so that the fixing is stable and the effect is good.

Further, photoelectric measurement equipment includes light source transmitter, light source receiver, transmitter support, light source transmitter can follow transmitter support longitudinal movement, light source transmitter is fixed in transmitter support top, light source transmitter, light source receiver bottom all joint are in measuring the spout.

By adopting the scheme, the clamping part is provided with the clamping stopping device for temporary fixation, the effect of fixing the tubular object is achieved, and the light source transmitter can longitudinally move along the transmitter support to adjust the size of the light irradiation range transmitted by the light source transmitter.

Furthermore, a point light source, a first light diffusion mirror, an emission lens and a second light diffusion mirror are sequentially arranged in the light source emitter from top to bottom.

By adopting the scheme, the light beam emitted by the point light source is expanded by the first light expander and is emitted to the second light expander through the emitting lens, so that the light source emits a wider distance.

Furthermore, a receiving lens, a diaphragm and a CCD chip are sequentially arranged in the light source receiver from top to bottom.

By adopting the scheme, the receiving lens receives and focuses the light beam diffused by the second light expander, and the light beam is reflected to the CCD chip through the small hole on the diaphragm, so that the irradiation data is acquired.

Furthermore, a connecting rod is arranged between the light source receiver and the transmitter bracket, and the light source receiver and the transmitter bracket are in a relative static state.

By adopting the scheme, the situation that the light source receiver and the light source transmitter do not correspond to each other is prevented, and data cannot be read.

Further, the measuring chute is located between the two adjusting chutes.

By adopting the scheme, the photoelectric measuring device can be used for fixing the object measured by the photoelectric measuring device.

Furthermore, the measuring platform and the control platform are kept horizontal, and the control platform can be externally connected with a computer.

By adopting the scheme, the extended function is more powerful.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic side sectional structure diagram of an optoelectronic measuring device according to an embodiment of the present invention.

Reference numeral, 1, a measurement platform; 11. a measuring chute; 12. adjusting the chute; 2. a support pillar; 3. an opto-electronic measurement device; 31. a light source emitter; 311. a point light source; 312. a first light expanding mirror; 313. an emission lens; 314. a second light expanding mirror; 32. a light source receiver; 321. a receiving lens; 322. a diaphragm; 323. a CCD chip; 33. an emitter mount; 4. a control platform; 41. a control screen; 42. a control key; 5. a positioning frame.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described and discussed below with reference to the accompanying drawings of the present invention, and it is obvious that only some examples, not all examples, of the present invention are described herein, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

For the convenience of understanding the embodiments of the present invention, the following detailed description will be given by way of example with reference to the accompanying drawings, and the embodiments are not limited to the embodiments of the present invention.

The embodiment 1 of the utility model refers to fig. 1, fig. 2 and shows, including measuring platform 1, support column 2, control platform 4, photoelectric measurement equipment 3, locating rack 5, support column 2 is provided with a plurality ofly, is fixed in the edge of measuring platform 1, control platform 4 below respectively, measuring platform 1 keeps the level with control platform 4, but control platform 4 external computer, extended function is more powerful. Photoelectric measurement equipment 3, locating rack 5 are connected with 1 upper surface vertical of measuring platform, measuring platform 1 is last to be provided with one and to measure spout 11 and two regulation spouts 12, it is located two and adjusts between spout 12 to measure spout 11, can be used to fixed photoelectric measurement equipment 3 measuring object.

Photoelectric measurement equipment 3 is fixed with 11 slip joints of measurement spout, locating rack 5 is provided with at least four, and average distribution is in two regulation spouts 12, it is fixed with 5 slip joints of locating rack to adjust spout 12, be provided with control panel 41, control button 42 on the control platform 4, control panel 41 and control button 42, 3 electric connection of photoelectric measurement equipment, the fixed tubular object of accessible locating rack 5 to measure it through photoelectric measurement equipment 3, it is fixed stable, effectual.

The photoelectric measuring device 3 comprises a light source transmitter 31, a light source receiver 32 and a transmitter support 33, wherein the light source transmitter 31 can move longitudinally along the transmitter support 33, the light source transmitter 31 is fixed at the top end of the transmitter support 33, the bottom ends of the light source transmitter 31 and the light source receiver 32 are clamped in the measuring chute 11, and a clamping and stopping device is arranged at the clamping and stopping position and used for temporary fixation to achieve the effect of fixing a tubular object; a connecting rod is arranged between the light source receiver 32 and the transmitter bracket 33, and the light source receiver 32 and the transmitter bracket are in a relative static state, so that the situation that the light source receiver 32 and the light source transmitter 31 are not corresponding is prevented, and data cannot be read. The light source emitter 31 can move longitudinally along the emitter bracket 33 to adjust the light irradiation range emitted by the light source emitter 31.

The light source emitter 31 is internally provided with a point light source 311, a first light diffusion mirror 312, an emitting lens 313 and a second light diffusion mirror 314 from top to bottom in sequence, and light beams emitted by the point light source 311 are expanded by the first light diffusion mirror 312 and emitted to the second light diffusion mirror 314 through the emitting lens 313, so that the light source emits a relatively wide distance. The light source receiver 32 is internally provided with a receiving lens 321, a diaphragm 322 and a CCD chip 323 from top to bottom in sequence, the receiving lens 321 receives and focuses light beams diffused by the second light expander 314, and the light beams are reflected to the CCD chip 323 through a small hole on the diaphragm 322, so as to obtain illumination data and transmit the illumination data to the control screen 41.

In the description of the present invention, it should be noted that the terms "first", "second", and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the technical solution of the present invention, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: those skilled in the art can still make modifications or changes to the technical solutions described in the foregoing embodiments, or make equivalent substitutions for some technical features, within the technical scope of the present disclosure; such modifications, changes or substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A photoelectric integrated measuring device is characterized in that: including measuring platform (1), support column (2), control platform (4), photoelectric measurement equipment (3), locating rack (5), support column (2) are provided with a plurality ofly, are fixed in the edge of measuring platform (1), control platform (4) below respectively, surface vertical is connected on photoelectric measurement equipment (3), locating rack (5) and measuring platform (1), be provided with one on measuring platform (1) and measure spout (11) and two regulation spouts (12), photoelectric measurement equipment (3) are fixed with measurement spout (11) slip joint, locating rack (5) are provided with four at least, and average distribution is in two regulation spouts (12), it is fixed with locating rack (5) slip joint to adjust spout (12), be provided with control screen (41), control button (42) on control platform (4), control screen (41) and control button (42), photoelectric measurement equipment (3) electric connection.

2. The optoelectronic integrated measuring device as set forth in claim 1, further comprising: photoelectric measurement equipment (3) include light source transmitter (31), light source receiver (32), transmitter support (33), light source transmitter (31) can be followed transmitter support (33) longitudinal movement, light source transmitter (31) are fixed in transmitter support (33) top, light source transmitter (31), light source receiver (32) bottom all joint are in measuring spout (11).

3. The optoelectronic integrated measuring device as set forth in claim 2, wherein: the light source emitter (31) is internally provided with a point light source (311), a first light diffusion mirror (312), an emitting lens (313) and a second light diffusion mirror (314) from top to bottom in sequence.

4. An optoelectronic integrated measuring device as claimed in claim 3, characterized in that: and a receiving lens (321), a diaphragm (322) and a CCD chip (323) are sequentially arranged in the light source receiver (32) from top to bottom.

5. The optoelectronic integrated measuring device as set forth in claim 4, wherein: a connecting rod is arranged between the light source receiver (32) and the transmitter bracket (33), and the light source receiver and the transmitter bracket are in relative static states.

6. The optoelectronic integrated measuring device as set forth in claim 5, wherein: the measuring chute (11) is located between two adjusting chutes (12).

7. The optoelectronic integrated measuring device as set forth in claim 6, further comprising: the measuring platform (1) and the control platform (4) are kept horizontal, and the control platform (4) can be externally connected with a computer.

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