CN219301803U - Multichannel color detection device - Google Patents

Abstract

The utility model relates to a multi-channel color detection device, which comprises a box body, a storage box, a light supplementing device, a reflecting device, a color sensor and a circuit board, wherein the light supplementing device, the reflecting device, the color sensor and the circuit board are arranged on the box body; a plurality of channels for detecting colors are arranged in the box body; the channel is arranged in the vertical direction; the reflecting device is arranged in the channel; the box body is provided with a plurality of light supplementing holes; the light supplementing device is arranged in the light supplementing hole; the bottom end of one channel is communicated with the bottom end of one light supplementing hole; the top end of the channel is provided with a circuit board; the color sensor is arranged on the circuit board; the utility model has the beneficial effects that through the plurality of adjacent channels, the light of the light supplementing lamp irradiates on the measured object, the light reflected by the object is concentrated on the night color sensor after being concentrated on the convex surface of the convex lens, the color sensor detects the light, and the color sensor transmits the color signal to the control module.

Description

Multichannel color detection device

Technical Field

The utility model relates to the technical field of detection devices, in particular to a multichannel color detection device.

Background

The traditional color detection device only aims at an object to be detected by using a color sensor, a light supplementing lamp is arranged beside the sensor, the color detection device can only detect a large range of colors, the detection precision and the sensitivity are low, different colors in a small area cannot be identified, and the device capable of detecting different colors in a small area and high in detection precision is very necessary.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to solve the technical problems that: how to provide a device capable of detecting different colors in a small area and having high detection accuracy.

In order to solve the problems, the utility model adopts the following technical scheme,

the multichannel color detection device comprises a box body, a storage box, a light supplementing device, a reflecting device, a color sensor and a circuit board, wherein the light supplementing device, the reflecting device, the color sensor and the circuit board are arranged on the box body;

a plurality of channels for detecting colors are arranged in the box body; the channels are arranged in the vertical direction; the reflecting device is arranged in the channel;

the box body is provided with a plurality of light supplementing holes; the light supplementing device is arranged in the light supplementing hole;

the bottom end of one channel is communicated with the bottom end of one light supplementing hole;

the top end of the channel is provided with a circuit board;

the color sensor is arranged on the circuit board;

a plurality of storage grooves are formed in the storage box; the channel is matched with the storage groove;

the color sensor is in signal connection with the circuit board.

The light supplementing device comprises a light supplementing lamp arranged at the top end of the light supplementing hole; the light supplementing holes are matched with the light supplementing lamps.

Further, a detection groove for storing the storage box is formed in the box body; the channel and the light supplementing hole are communicated with the detection groove.

Further, the reflecting device comprises two convex lenses, namely a first convex lens arranged at the lower part of the channel and a second convex lens arranged at the upper part of the channel; one surface of the first convex lens bulge faces to the measured object; one surface of the second convex lens is raised towards the color sensor.

Further, a plurality of anti-slip grooves are formed in two sides of the storage box.

Further, the storage box is provided with a conical hole for storing the object to be tested.

Further, a light blocking partition is arranged between the adjacent channels; a first mounting plate is arranged at the middle upper part of the channel; the middle lower part of the channel is provided with a second mounting plate; the first convex lens is arranged on the first mounting plate; the second convex lens is mounted on the second mounting plate.

Further, the channel is surrounded by the box body and a baffle plate arranged at one side of the box body.

Further, a control module is arranged on the circuit board; and the control module is provided with a storage module and a CPU.

Compared with the prior art, the utility model has the beneficial effects that:

through the plurality of adjacent channels, convex lenses for reflecting light rays are arranged in the channels, each channel is provided with a light supplementing lamp, the light rays of the light supplementing lamps irradiate on an object to be detected, the light rays reflected by the object are concentrated through the convex surface of the second convex lens, then are diverged through the other surface, the light rays are received by the plane of the first convex lens, are concentrated through the convex surface of the first convex lens, and then are collected on a night color sensor for detection, and the color sensor transmits color signals to a control module;

the control module displays the color information through judgment and comparison; for researchers, the color change on a smaller area of the object to be detected can be detected due to the smaller channel area.

Drawings

FIG. 1 is a schematic perspective view of the storage box of the present utility model outside the box body;

FIG. 2 is a schematic perspective view of the storage box in the box body according to the present utility model;

FIG. 3 is a schematic diagram showing a three-dimensional structure of a baffle and a circuit board according to the present utility model;

FIG. 4 is a schematic perspective view of the circuit board of the present utility model with the circuit board removed;

FIG. 5 is a schematic perspective view of the utility model with the baffle and circuit board removed;

FIG. 6 is a schematic view of the structure of the channel portion of the present utility model;

FIG. 7 is a cross-sectional view of the optical path detection of the present utility model;

the reference numerals in the figures illustrate:

1-box body, 11-passageway, 12-detection groove, 13-light filling hole, 14-second mounting panel, 15-first mounting panel, 2-baffle, 3-light filling lamp, 4-circuit board, 5-color sensor, 6-storing box, 61-measured object prevent groove, 62-recess, 63-bell mouth, 8-second convex lens, 9-first convex lens.

Detailed Description

It should be noted first that the discussion of any embodiment of the present utility model is exemplary only, and is not intended to imply that the scope of the disclosure (including the claims) is limited to such examples; there are many other variations of the different aspects of the utility model as described above, which are not provided in detail for the sake of brevity. Accordingly, other embodiments are within the scope of the following claims.

It should be noted that, the terms "first," "second," and the like are used for defining the components, and are merely for convenience in distinguishing the corresponding components, and unless otherwise stated, the terms do not have special meanings, especially do not have special meanings in the "primary, secondary," or arrangement order, and therefore should not be construed as limiting the scope of the present application.

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

The cylinder in the utility model refers to a power device generally, and can be replaced by an oil cylinder and an electric cylinder. And if simply replaced, falls within the scope of the present application.

Example 1

As shown in fig. 1-7:

the multichannel color detection device comprises a box body 1, a storage box 6, a light supplementing device, a reflecting device, a color sensor 5 and a circuit board 4, wherein the light supplementing device, the reflecting device, the color sensor 5 and the circuit board 4 are arranged on the box body;

a plurality of channels 11 for detecting colors are arranged in the box body 1; the channel 11 is arranged in a vertical direction; the reflecting device is arranged in the channel 11;

the box body 1 is provided with a plurality of light supplementing holes 13; the light supplementing device is arranged in the light supplementing hole 13;

the bottom end of one channel 11 is communicated with the bottom end of one light supplementing hole 13;

the top end of the channel 11 is provided with a circuit board 4;

the color sensor 5 is mounted on the circuit board 4;

a plurality of storage grooves are formed in the storage box 6; the channel 11 is matched with the storage groove;

the color sensor 5 is in signal connection with the circuit board 4.

The light supplementing device comprises a light supplementing lamp 3 arranged at the top end of the light supplementing hole 13; the light supplementing hole 11 is matched with the light supplementing lamp 3.

A detection groove 12 for storing the storage box 6 is formed in the box body 1; the channel 11 and the light supplementing hole 13 are both communicated with the detection groove 12.

The reflecting device comprises two convex lenses, namely a first convex lens 9 arranged at the lower part of the channel 11 and a second convex lens 8 arranged at the upper part of the channel 11; one surface of the first convex lens 9 protruding faces to the measured object; the convex side of the second convex lens 8 faces the color sensor 5.

The storage box 6 is provided with a conical hole 63 for storing the object to be tested.

A light blocking partition is arranged between the adjacent channels 11; a first mounting plate 15 is arranged at the middle upper part of the channel 11; the middle lower part of the channel 11 is provided with a second mounting plate 14; the first convex lens 9 is mounted on the first mounting plate 15; the second convex lens 8 is mounted on the second mounting plate 14.

The channel 11 is surrounded by the box body 1 and the baffle plate 2 arranged at one side of the box body 1.

A control module is arranged on the circuit board 4; the control module receives the analog signal of the color sensor 5; and the control module is provided with a storage module and a CPU.

The working process of the utility model;

placing the object to be measured into the conical hole 63 of the storage box 6; the color sensor 5 is inserted into the detection groove 12 for positioning, the light supplementing lamp 3 is turned on for lighting the object to be detected, the color on the object to be detected is detected after double amplification of the two convex lenses, the accuracy and the sensitivity of color identification are greatly improved, and the color of a micro area can be identified; the multichannel 11 can detect different micro areas simultaneously, can discern the different colours of different areas, has the light filling lamp 3 that cuts off and differ between adjacent channel 11, and the angle of every light filling lamp 3 is the same, can break each regional mutual influence, improves the degree of accuracy of discernment, carries out accurate discernment to the different colours in the micro area.

Example 2

This embodiment is substantially identical in structure to embodiment 1,

as shown in fig. 7 and 2, the case 1 is composed of a rectangular block and a projection 16 provided on the rectangular block; a detection groove 12 with one end open is arranged in the rectangular block; the sampling box 6 is placed in the detection groove 12;

the channel 11 consists of a baffle plate 2 and a straight hole on the bulge, a second mounting plate 15 for fixing the second convex lens 8 is arranged at the middle upper part of the straight hole, a first mounting plate 14 for fixing the first convex lens 9 is arranged at the middle lower part of the straight hole, the top of the channel is fixed with a circuit board 4, and the color sensors 5 on the circuit board 4 are integrated into a whole group of second convex lenses 8;

one side of the bulge 16 is sequentially provided with inclined light supplementing holes 13; the other side is sequentially provided with vertical channels 11 for reflecting colors; one light supplementing hole 13 corresponds to one channel 11; the bottom of the light supplementing hole 13 is communicated with the bottom of the channel 11, the communicated position is positioned in the detection groove 12, and the detected object is placed in the first groove 61 or the conical hole 63 of the storage box 6 for storing the detected object; if the object is large, it is placed in the first recess 61, if the object is small, it is placed in the tapered hole 63,

as shown by the arrow in fig. 7, the light irradiates the object to be measured from the light supplementing lamp 13, after being reflected by the object to be measured, the light enters the channel 11, after being amplified and reflected by the first convex lens 9 and the second convex lens 8, the light is received by the color sensor 5, and then the light is transmitted to the control module for analysis and color change.

The working principle of the embodiment is basically the same as that of embodiment 1; and will not be described in detail.

Example 3

This embodiment is substantially identical in structure to embodiment 1,

the difference is that the two sides of the storage box 6 are provided with a plurality of anti-slip grooves 62.

The storage box 6 is convenient to take, increases friction force with hands, and avoids the hand from being taken off.

The working principle of the embodiment is basically the same as that of embodiment 1; and will not be described in detail.

At present, the technical scheme of the application adopts the best implementation mode of the embodiment 1, and pilot tests, namely small-scale experiments of products before large-scale mass production, are carried out; after the pilot test is completed, the use investigation of the user is performed in a small range, and the investigation result shows that the user satisfaction is higher; now, the preparation of the formal production of products for industrialization is started; the above; is only a preferred embodiment of the present utility model; the scope of the utility model is not limited in this respect; any person skilled in the art is within the technical scope of the present disclosure; equivalent substitutions or changes are made according to the technical proposal of the utility model and the improved conception thereof; are intended to be encompassed within the scope of the present utility model.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (9)

1. The multichannel color detection device comprises a box body (1) and a storage box (6), and is characterized by further comprising a light supplementing device, a reflecting device, a color sensor (5) and a circuit board (4), wherein the light supplementing device, the reflecting device, the color sensor (5) and the circuit board are arranged on the box body;

a plurality of channels (11) for detecting colors are arranged in the box body (1); the channel (11) is arranged in the vertical direction; the reflecting device is arranged in the channel (11);

a plurality of light supplementing holes (13) are formed in the box body (1); the light supplementing device is arranged in the light supplementing hole (13);

the bottom end of one channel (11) is communicated with the bottom end of one light supplementing hole (13);

the top end of the channel (11) is provided with a circuit board (4);

the color sensor (5) is arranged on the circuit board (4);

a plurality of storage grooves are formed in the storage box (6); the channel (11) is matched with the storage groove;

the color sensor (5) is in signal connection with the circuit board (4).

2. The multi-channel color detection device of claim 1, wherein: the light supplementing device comprises a light supplementing lamp (3) arranged at the top end of the light supplementing hole (13); the light supplementing hole (13) is matched with the light supplementing lamp (3).

3. A multi-channel color detection device according to claim 2, wherein: a detection groove (12) for storing the storage box (6) is formed in the box body (1); the channel (11) and the light supplementing hole (13) are communicated with the detection groove (12).

4. A multi-channel color detection device according to claim 3, wherein: the reflecting device comprises two convex lenses, namely a first convex lens (9) arranged at the lower part of the channel (11) and a second convex lens (8) arranged at the upper part of the channel (11); one surface of the first convex lens (9) protruding faces to the object to be measured; one surface of the second convex lens (8) protruding faces the color sensor (5).

5. The multi-channel color detection device of claim 4, wherein: a plurality of anti-slip grooves (62) are formed in two sides of the storage box (6).

6. The multi-channel color detection device of claim 5, wherein: the storage box (6) is provided with a conical hole (63) for storing the object to be tested.

7. The multi-channel color detection device of claim 6, wherein: a light blocking partition is arranged between the adjacent channels (11);

the middle upper part of the channel (11) is provided with a first mounting plate (15); the middle lower part of the channel (11) is provided with a second mounting plate (14); the first convex lens (9) is arranged on the first mounting plate (15); the second convex lens (8) is mounted on the second mounting plate (14).

8. The multi-channel color detection device of claim 7, wherein: the channel (11) is surrounded by the box body (1), the partition and the baffle plate (2) arranged on one side of the box body (1).

9. The multi-channel color detection device of claim 8, wherein: a control module is arranged on the circuit board (4); the control module is in signal connection with the color sensor (5); and the control module is provided with a storage module and a CPU.

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