CN110926602A - Photoelectric induction detection device and use method thereof - Google Patents

Abstract

The invention discloses a photoelectric sensing detection device and a using method thereof, and the photoelectric sensing detection device comprises a waterproof flame-retardant shell, a coil spring cable receiver and a photosensitive receiver, wherein a microprocessor is arranged inside the waterproof flame-retardant shell, a storage battery plate is arranged below the microprocessor, a quick-charging plug is arranged on the side edge of the storage battery plate, a display is arranged above the front surface of the waterproof flame-retardant shell, an electric quantity indicator and a frequency regulator are arranged below the display, a switch button is arranged below the electric quantity indicator, a wireless signal amplifier is arranged above the waterproof flame-retardant shell, and a radio frequency antenna is arranged above the wireless signal amplifier. Has the advantages that: the invention can carry out the photoelectric sensing detection operation movably, has the advantages of strong flexibility, convenient operation and simple use, can display optical signals in a datamation and a graphical mode, is convenient for workers to check, and can feed back detection results through wireless signal transmission, thereby enlarging the detection range.

Description

Photoelectric induction detection device and use method thereof

Technical Field

The invention relates to the field of photoelectric equipment, in particular to a photoelectric sensing detection device and a using method thereof.

Background

Based on the principle that when light irradiates on some substances, electrons of the substances absorb the energy of photons to generate corresponding electric effect phenomena, photoelectric sensors are invented. The photoelectric sensor is a key element for realizing photoelectric conversion in various photoelectric detection systems, and is a device for converting optical signals (visible and ultraviolet laser) into electric signals.

The photoelectric sensor on the market is more in model, but generally all is the inside fixed mounting of photoelectric equipment, can feed back photoelectric signal to the computer, but can't the demonstration of datamation, pictorial, also can't remove the use in addition, consequently just restricted photoelectric sensor's application scope, when needs carry out qualitative, ration, the datamation detection to light signal, photoelectric sensor just can't use.

Disclosure of Invention

The present invention is directed to a photoelectric sensing apparatus and a method for using the same.

The invention realizes the purpose through the following technical scheme:

a photoelectric induction detection device comprises a waterproof flame-retardant shell, a coil spring cable receiver and a photosensitive receiver, wherein a microprocessor is arranged in the waterproof flame-retardant shell, a storage battery plate is arranged below the microprocessor, a quick charging plug is arranged on the side edge of the storage battery plate, a display is arranged above the front surface of the waterproof flame-retardant shell, an electric quantity indicator and a frequency regulator are arranged below the display, a switch button is arranged below the electric quantity indicator, a wireless signal amplifier is arranged above the waterproof flame-retardant shell, a radio frequency antenna is arranged above the wireless signal amplifier, a storage card is arranged on the side edge of the radio frequency antenna, the waterproof flame-retardant shell is connected with a photoelectric signal converter through a plug-in connector, two straightening devices are arranged on the coil spring cable receiver, and one straightening device is connected with the photoelectric signal converter, the other straightening device is connected with an optical fiber filter through an optical fiber, a handle is arranged on the side edge of the optical fiber filter, the optical fiber filter is connected with the photosensitive receiver, a focusing adjusting knob is arranged on the photosensitive receiver, a shading curtain wall surrounds the outside of the photosensitive receiver, the photosensitive receiver comprises a photosensitive film, a focusing convex lens, a photosensitive diode and a detection positioner, the photosensitive film covers the focusing convex lens, the photosensitive diode surrounds the outer ring of the photosensitive receiver, and the detection positioner is arranged at the center of the photosensitive receiver.

Further, the waterproof flame-retardant shell is fixedly bonded with the display through glue solution, the display is an LED screen, and the waterproof flame-retardant shell is made of waterproof PC materials.

Further, the display is electrically connected with the microprocessor, the switch button is electrically connected with the microprocessor, the electric quantity indicator is electrically connected with the storage battery plate, and the microprocessor is HH-N10S in model number.

Furthermore, the frequency regulator is electrically connected with the microprocessor, the wireless signal amplifier is electrically connected with the microprocessor, the storage battery plate is electrically connected with the microprocessor, and the storage battery plate is electrically connected with the quick charging plug.

Further, the wireless signal amplifier is electrically connected with the radio frequency antenna, and the wireless signal amplifier is electrically connected with the memory card.

Furthermore, the microprocessor is electrically connected with the plug-in connector, the plug-in connector is electrically connected with the photoelectric signal converter, and the photoelectric signal converter is connected with the optical fiber optical signal.

Furthermore, the straightening device is connected with the coil spring cable receiver in a threaded assembly mode, and the optical fibers are wound inside the coil spring cable receiver.

Furthermore, the optical fiber is fixedly connected with the optical fiber filter, the optical fiber filter is fixedly connected with the handle through a bolt, the shading curtain wall is made of black PC materials, and the focusing adjusting knob is rotatably connected with the photosensitive receiver.

Furthermore, the photosensitive film is a light sensitive film, the photosensitive film is bonded with the focusing convex lens, and the photosensitive diode is fixed at the focus of the focusing convex lens.

The invention also provides a using method of the photoelectric sensing detection device, which is applied to the photoelectric sensing detection device equipment, and the specific using method is as follows:

a. a worker charges the storage battery plate through the quick charging plug, the storage battery plate provides electric support for the detection device, and then the switch button is pressed down to start the waterproof flame-retardant shell for photoelectric induction detection operation.

b. The worker holds the handle, moves to a proper position, pulls the optical fiber, pulls out the optical fiber in the coil spring cable storage device by a proper length, facilitates the operation of the worker, then covers the shading curtain wall at the position of a light source to be detected, and aligns the detection positioner at the position to be detected.

c. The light emitted by the light source is transmitted through the photosensitive film and then converged by the focusing convex lens, the light is collected by the photosensitive diode after the brightness is improved, the optical signal is fed back to the photoelectric signal converter through the optical fiber and converted into an electric signal, then the electric signal is fed back to the waterproof flame-retardant shell by the plug-in connector for processing, and the processed result is displayed on the display.

d. The staff also can be through wireless signal amplifier, radio frequency antenna converts the testing result into wireless signal and sends out, the information that the memory card synchronous record sent is convenient for recheck in the future.

The invention has the beneficial effects that: the invention can carry out the photoelectric sensing detection operation movably, has the advantages of strong flexibility, convenient operation and simple use, can display optical signals in a datamation and a graphical mode, is convenient for workers to check, and can feed back detection results through wireless signal transmission, thereby enlarging the detection range.

Drawings

FIG. 1 is a schematic front view of a photoelectric sensing detection device according to the present invention;

FIG. 2 is an internal view of the waterproof flame-retardant housing of the photo-electric sensing detection device according to the present invention;

FIG. 3 is a partial view of the photoreceptor of the present invention;

fig. 4 is a circuit flow diagram of a photoelectric sensing detection device according to the present invention.

The reference numerals are explained below:

1. a waterproof flame-retardant housing; 2. a display; 3. a switch button; 4. an electric quantity indicator; 5. a frequency adjuster; 6. a wireless signal amplifier; 7. a radio frequency antenna; 8. a memory card; 9. a plug-in connector; 10. an optical-to-electrical signal converter; 11. a straightening-out device; 12. a coil spring cable receiver; 13. an optical fiber; 14. an optical fiber filter; 15. a handle is held; 16. shading the curtain wall; 17. a focus adjustment knob; 18. a photoreceptor receiver; 19. a microprocessor; 20. a quick charging plug; 21. a battery plate; 1801. a photosensitive film; 1802. a focusing convex mirror; 1803. a photodiode; 1804. and detecting the locator.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

as shown in fig. 1-4, a photoelectric sensing detection device comprises a waterproof flame-retardant housing 1, a coil spring cable receiver 12 and a photosensitive receiver 18, wherein a microprocessor 19 is arranged inside the waterproof flame-retardant housing 1, a battery plate 21 is arranged below the microprocessor 19, a quick-charging plug 20 is arranged on the side of the battery plate 21, a display 2 is arranged above the front of the waterproof flame-retardant housing 1, a power indicator 4 and a frequency regulator 5 are arranged below the display 2, a switch button 3 is arranged below the power indicator 4, a wireless signal amplifier 6 is arranged above the waterproof flame-retardant housing 1, a radio frequency antenna 7 is arranged above the wireless signal amplifier 6, a storage card 8 is arranged on the side of the radio frequency antenna 7, the waterproof flame-retardant housing 1 is connected with a photoelectric signal converter 10 through a plug-in connector 9, the coil spring cable storage device 12 is provided with two straightening devices 11, one straightening device 11 is connected with the photoelectric signal converter 10, the other straightening device 11 is connected with an optical fiber filter 14 through an optical fiber 13, a handle 15 is arranged on the side edge of the optical fiber filter 14, the optical fiber filter 14 is connected with a photosensitive receiver 18, a focusing adjusting knob 17 is arranged on the photosensitive receiver 18, a shading curtain wall 16 is surrounded outside the photosensitive receiver 18, the photosensitive receiver 18 is composed of a photosensitive film 1801, a focusing convex lens 1802, a photodiode 1803 and a detection positioner 1804, the photosensitive film 1801 covers the focusing convex lens 1802, the photodiode 1803 surrounds the outer ring of the photosensitive receiver 18, and the detection positioner 1804 is arranged at the center of the photosensitive receiver 18.

In this embodiment, the waterproof flame-retardant housing 1 and the display 2 are fixedly bonded through glue solution, the display 2 is an LED screen, and the waterproof flame-retardant housing 1 is a waterproof PC material.

In this embodiment, the display 2 is electrically connected to the microprocessor 19, the switch button 3 is electrically connected to the microprocessor 19, the charge indicator 4 is electrically connected to the battery plate 21, and the microprocessor 19 is of the HH-N10S type.

In this embodiment, the frequency regulator 5 is electrically connected to the microprocessor 19, the wireless signal amplifier 6 is electrically connected to the microprocessor 19, the battery plate 21 is electrically connected to the microprocessor 19, and the battery plate 21 is electrically connected to the quick-charging plug 20.

In this embodiment, the wireless signal amplifier 6 is electrically connected to the rf antenna 7, and the wireless signal amplifier 6 is electrically connected to the memory card 8.

In this embodiment, the microprocessor 19 is electrically connected to the plug-in connector 9, the plug-in connector 9 is electrically connected to the optical-electrical signal converter 10, and the optical-electrical signal converter 10 is connected to the optical fiber 13 via an optical signal.

In this embodiment, the straightening device 11 is connected to the coil spring cable receiver 12 by screw assembly, and the optical fiber 13 is wound inside the coil spring cable receiver 12.

In this embodiment, the optical fiber 13 is fixedly connected to the optical fiber filter 14, the optical fiber filter 14 is fixedly connected to the handle 15 through a bolt, the light-shielding curtain wall 16 is made of black PC material, and the focus adjusting knob 17 is rotatably connected to the photosensitive receiver 18.

In this embodiment, the photosensitive film 1801 is a photosensitive film, the photosensitive film 1801 is bonded to the focusing convex mirror 1802, and the photodiode 1803 is fixed at the focal point of the focusing convex mirror 1802.

The invention also provides a using method of the photoelectric sensing detection device, which is applied to the photoelectric sensing detection device equipment, and the specific using method is as follows:

a. a worker charges the storage battery plate 21 through the quick charging plug 20, the storage battery plate 21 provides electric support for the invention, and then the switch button 3 is pressed down to start the waterproof flame-retardant shell 1 for photoelectric induction detection operation.

b. An operator holds the handle 15 with a hand, moves the handle to a proper position, pulls the optical fiber 13 out of the coil spring cable receiver 12 by a proper length, facilitates the operation of the operator, covers the shading curtain wall 16 at the position of the light source to be detected, and aligns the detection positioner 1804 at the position to be detected.

c. Light emitted by the light source is transmitted through the photosensitive film 1801 and then converged by the focusing convex lens 1802, the light is collected by the photodiode 1803 after the brightness is improved, an optical signal is fed back to the photoelectric signal converter 10 through the optical fiber 13 and converted into an electrical signal, then the plug-in connector 9 feeds back the electrical signal to the waterproof flame-retardant shell 1 for processing, and the processed result is displayed on the display 2.

d. The staff can also be through wireless signal amplifier 6, radio frequency antenna 7 converts the testing result into wireless signal and sends out, memory card 8 can the synchronous record information of sending for recheck in the future.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (10)

1. A photoelectric sensing detection device is characterized in that: the intelligent wind spring cable storage device comprises a waterproof flame-retardant shell, a wind spring cable storage device and a photosensitive receiver, wherein a microprocessor is arranged in the waterproof flame-retardant shell, a storage battery plate is arranged below the microprocessor, a quick charging plug is arranged on the side edge of the storage battery plate, a display is arranged above the front surface of the waterproof flame-retardant shell, an electric quantity indicator and a frequency regulator are arranged below the display, a switch button is arranged below the electric quantity indicator, a wireless signal amplifier is arranged above the waterproof flame-retardant shell, a radio frequency antenna is arranged above the wireless signal amplifier, a storage card is arranged on the side edge of the radio frequency antenna, the waterproof flame-retardant shell is connected with a photoelectric signal converter through a plug-in connector, two straightening devices are arranged on the wind spring cable storage device, one straightening device is connected with the photoelectric signal converter, and the other straightening device is connected with an optical fiber filter through an optical, the side of optical fiber filter is provided with the handle of holding, optical fiber filter with the sensitization receiver is connected, be provided with focus adjust knob on the sensitization receiver, the external shading curtain that has encircleed of sensitization receiver, the sensitization receiver comprises sensitization film, focus convex lens, photodiode and detection locator, the sensitization film covers focus convex lens top, the photodiode encircle in the outer loop of sensitization receiver, the detection locator sets up the center department of sensitization receiver.

2. The photoelectric sensing detection device according to claim 1, wherein: the waterproof flame-retardant shell is fixedly bonded with the display through glue solution, the display is an LED screen, and the waterproof flame-retardant shell is made of waterproof PC materials.

3. The photoelectric sensing detection device according to claim 1, wherein: the display is electrically connected with the microprocessor, the switch button is electrically connected with the microprocessor, the electric quantity indicator is electrically connected with the storage battery plate, and the type of the microprocessor is HH-N10S.

4. The photoelectric sensing detection device according to claim 1, wherein: the frequency regulator is electrically connected with the microprocessor, the wireless signal amplifier is electrically connected with the microprocessor, the storage battery plate is electrically connected with the microprocessor, and the storage battery plate is electrically connected with the quick charging plug.

5. The photoelectric sensing detection device according to claim 1, wherein: the wireless signal amplifier is electrically connected with the radio frequency antenna and the memory card.

6. The photoelectric sensing detection device according to claim 1, wherein: the microprocessor is electrically connected with the plug-in connector, the plug-in connector is electrically connected with the photoelectric signal converter, and the photoelectric signal converter is connected with the optical fiber optical signal.

7. The photoelectric sensing detection device according to claim 1, wherein: the straightening device is assembled and connected with the coil spring cable storage device through threads, and the optical fibers are wound in the coil spring cable storage device.

8. The photoelectric sensing detection device according to claim 1, wherein: the optical fiber is fixedly connected with the optical fiber filter, the optical fiber filter is fixedly connected with the handle through a bolt, the shading curtain wall is made of black PC materials, and the focusing adjusting knob is rotatably connected with the photosensitive receiver.

9. The photoelectric sensing detection device according to claim 1, wherein: the photosensitive film is a photosensitive film, the photosensitive film is bonded with the focusing convex lens, and the photosensitive diode is fixed at the focus of the focusing convex lens.

10. A method for using a photoelectric sensing detection device, which is applied to the photoelectric sensing detection device equipment of any one of claims 1 to 9, and is characterized in that: the specific using method comprises the following steps:

a. a worker charges the storage battery plate through the quick charging plug, the storage battery plate provides electric support for the detection device, and then the switch button is pressed down to start the waterproof flame-retardant shell for photoelectric induction detection operation.

b. The worker holds the handle, moves to a proper position, pulls the optical fiber, pulls out the optical fiber in the coil spring cable storage device by a proper length, facilitates the operation of the worker, then covers the shading curtain wall at the position of a light source to be detected, and aligns the detection positioner at the position to be detected.

c. The light emitted by the light source is transmitted through the photosensitive film and then converged by the focusing convex lens, the light is collected by the photosensitive diode after the brightness is improved, the optical signal is fed back to the photoelectric signal converter through the optical fiber and converted into an electric signal, then the electric signal is fed back to the waterproof flame-retardant shell by the plug-in connector for processing, and the processed result is displayed on the display.

d. The staff also can be through wireless signal amplifier, radio frequency antenna converts the testing result into wireless signal and sends out, the information that the memory card synchronous record sent is convenient for recheck in the future.

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