CN211904406U - LED shoe lamp detector - Google Patents

Abstract

The utility model relates to the technical field of shoe lamps, in particular to a LED (light emitting diode) shoe lamp detector, which comprises a pen body, wherein the top end of the pen body is provided with an installation part with a hollow structure, the bottom end of the pen body is provided with a rubber contact, the rubber contact is provided with an opening, the middle part of the pen body is provided with an installation cavity which runs through from the top end of the pen body to the bottom end of the pen body, an optical fiber is laid in the installation cavity, the first end of the optical fiber is arranged in the opening of the rubber contact in a penetrating way, and the second end of the optical fiber; the mounting part comprises a shell which is detachably arranged at the top end of the pen body, a button switch and a display screen are arranged on the shell, a photosensitive sensor and a PCB are arranged in the shell, a processor and a lithium battery are arranged on the PCB, and the photosensitive sensor is right opposite to the second end of the optical fiber and used for receiving light rays emitted by the second end of the optical fiber; the electronic components are connected in a matching way. The LED shoe lamp detector can detect the illumination of the LED shoe lamp, and is low in manufacturing cost and convenient to use.

Description

LED shoe lamp detector

Technical Field

The utility model relates to a shoes lamp technical field especially relates to a LED shoes lamp detector.

Background

The shoe lamp is an LED light source installed in the shoe, and is embedded into the sole after the shoe lamp is subjected to aging test in the production process. The illumination (LUX) test of the shoe lamp is an important content of the shoe lamp aging test, and the current common technical means in the field is that the brightness of the shoe lamp when the shoe lamp is electrified is observed through human eyes of workers, so that people feel uncomfortable when the LED shoe lamp is directly observed by the human eyes, and in addition, the manual judgment is inaccurate (the subjective feeling of each person is different). Another method is to use LED light spectrometer to test the illumination of LED shoe light source. However, the LED light spectrometer is expensive, and the LED light spectrometer is rarely used in the field to detect the illumination of the LED shoe light. Based on the above situation, the invention designs the LED shoe lamp detector which is low in manufacturing cost and convenient to use.

SUMMERY OF THE UTILITY MODEL

Therefore, to foretell problem, the utility model provides a low in cost, convenient to use's LED shoes lamp detector.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an LED shoe lamp detector comprises a pen body, wherein an installation part of a hollow structure is arranged at the top end of the pen body, a rubber contact is arranged at the bottom end of the pen body, an opening is formed in the rubber contact, an installation cavity penetrating from the top end of the pen body to the bottom end of the pen body is formed in the middle of the pen body, an optical fiber is laid in the installation cavity, a first end of the optical fiber penetrates through the opening of the rubber contact, and a second end of the optical fiber penetrates through the installation part;

the installation part comprises a shell which is detachably arranged at the top end of the pen body, a button switch and a display screen are arranged on the shell, a photosensitive sensor and a PCB are arranged in the shell, a processor and a lithium battery are arranged on the PCB, and the photosensitive sensor is right opposite to the second end of the optical fiber and used for receiving light rays emitted by the second end of the optical fiber; the lithium battery is electrically connected with a power end of the processor, and the photosensitive sensor, the button switch and the display screen are respectively electrically connected with the processor.

Furthermore, a buzzer is further arranged on the PCB and electrically connected with the processor.

Furthermore, a vibration motor is further arranged on the PCB and electrically connected with the processor.

Furthermore, an anti-slip rubber sleeve is further arranged on the outer side wall of the pen body.

Furthermore, a plurality of anti-skid stripes are arranged on the anti-skid rubber sleeve at intervals.

By adopting the technical scheme, the beneficial effects of the utility model are that: this LED shoes lamp detector presses key switch when using, supports the rubber contact on the lamp pearl of the LED shoes lamp that awaits measuring, and light is along the leading-in photosensitive sensor of optic fibre, and photosensitive sensor converts light signal into the electric current signal of telecommunication for the treater, calculates the lamp pearl illuminance of this LED shoes lamp that awaits measuring through the treater processing to show on the display screen. The minimum threshold value of lamp pearl illuminance of LED shoes lamp is set for in the treater, and when the lamp pearl illuminance of the LED shoes lamp that awaits measuring that detects was less than minimum threshold value, bee calling organ sounder sounded and vibrating motor vibration informed operator, should await measuring LED shoes lamp and detect unqualifiedly should reject. Furthermore, an anti-slip rubber sleeve is further arranged on the outer side wall of the pen body, and a plurality of anti-slip stripes are arranged on the anti-slip rubber sleeve at intervals, so that a good anti-slip effect can be achieved. The LED shoe lamp detector can detect the illumination of the LED shoe lamp, and is low in manufacturing cost and convenient to use.

Drawings

FIG. 1 is a sectional view of an LED shoe lamp detector according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of an LED shoe lamp detector according to an embodiment of the present invention;

fig. 3 is a circuit connection block diagram of the LED shoe lamp detector of the embodiment of the present invention.

Detailed Description

The present invention will now be further described with reference to the accompanying drawings and detailed description.

Referring to fig. 1, 2 and 3, the present embodiment provides an LED shoe lamp detector, which includes a pen body 1, an anti-slip rubber sleeve 5 is further disposed on an outer side wall of the pen body 1, and a plurality of anti-slip stripes 51 are spaced apart from each other on the anti-slip rubber sleeve 5, so that a good anti-slip effect can be achieved. The utility model discloses a pen, including pen body 1, rubber contact 2, opening 20 has been seted up on the rubber contact 2, the installation cavity (not marked in the figure) that runs through to the pen body bottom by the pen body top is seted up at the middle part of pen body 1, an optic fibre 4 has been laid to the installation cavity, the first end of optic fibre 4 is worn to establish in rubber contact 2's opening 20.

The installation department 3 is including dismantling the casing 31 that sets up on the 1 top of handwriting, be provided with button switch 32 and display screen 35 on the casing 31, be provided with photosensitive sensor 34 and PCB board 33 in the casing 31, the second end of optic fibre 4 wears to establish in installation department 3, and photosensitive sensor 34 is just to the second end of optic fibre 4 for the light that the second end of receiving optic fibre 4 sent. The PCB 33 is provided with a processor 36, a buzzer 37, a vibrating motor 38 and a lithium battery 39. In this embodiment, preferably, the AT89C51 single chip microcomputer is used as the processor 36, the photosensitive sensor 34 is a photosensitive resistor, and the resistance value of the photosensitive resistor changes according to the intensity of the received light; all the electronic components are existing equipment. The lithium battery 39 is electrically connected with the power end of the processor 36, and the button switch 31, the photosensitive sensor 34, the display 35, the buzzer 37 and the vibrating motor 38 are respectively electrically connected with the processor 36.

During the use, press key switch 32, support rubber contact 2 on the lamp pearl of the LED shoe lamp that awaits measuring, light is along the leading-in photosensitive sensor 34 of optic fibre 4, and photosensitive sensor 34 converts light signal into the electric current signal of telecommunication (photosensitive sensor 34 receives the illuminance difference, and the resistance is different, causes the variation in size of electric current signal of telecommunication) and transmits for treater 36, handles the lamp pearl illuminance that calculates this LED shoe lamp that awaits measuring through treater 36 to show on display screen 35. The LED shoe lamp detector detects LED shoe lamps with low lamp bead illumination accuracy, but the lamp bead illumination accuracy is more accurate and objective than human eye detection, and a numerical value is formed to facilitate visual observation of workers, so that the LED shoe lamp detector is convenient to operate and low in manufacturing cost.

The processor 36 sets a minimum threshold value of the lamp bead illumination of the LED shoe lamp, when the detected lamp bead illumination of the LED shoe lamp to be detected is lower than the minimum threshold value, the buzzer 37 sounds and the vibration motor 38 vibrates to inform an operator, and the LED shoe lamp to be detected is unqualified and should be rejected.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (5)

1. The utility model provides a LED shoes lamp detector which characterized in that: the pen comprises a pen body, wherein an installation part with a hollow structure is arranged at the top end of the pen body, a rubber contact is arranged at the bottom end of the pen body, an opening is formed in the rubber contact, an installation cavity penetrating from the top end of the pen body to the bottom end of the pen body is formed in the middle of the pen body, an optical fiber is laid in the installation cavity, a first end of the optical fiber is arranged in the opening of the rubber contact in a penetrating mode, and a second end of the optical fiber is arranged in the installation part in a penetrating mode;

the installation part comprises a shell which is detachably arranged at the top end of the pen body, a button switch and a display screen are arranged on the shell, a photosensitive sensor and a PCB are arranged in the shell, a processor and a lithium battery are arranged on the PCB, and the photosensitive sensor is right opposite to the second end of the optical fiber and used for receiving light rays emitted by the second end of the optical fiber; the lithium battery is electrically connected with a power end of the processor, and the photosensitive sensor, the button switch and the display screen are respectively electrically connected with the processor.

2. The LED shoe lamp detector of claim 1, wherein: the PCB is further provided with a buzzer, and the buzzer is electrically connected with the processor.

3. The LED shoe lamp detector according to claim 1 or 2, wherein: the PCB is further provided with a vibration motor, and the vibration motor is electrically connected with the processor.

4. The LED shoe lamp detector of claim 3, wherein: and the outer side wall of the pen body is also provided with an anti-slip rubber sleeve.

5. The LED shoe lamp detector of claim 4, wherein: a plurality of anti-skid stripes are arranged on the anti-skid rubber sleeve at intervals.

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