CN222528775U - Color taking adapter and color taking device - Google Patents

Abstract

The application discloses a color taking adapter and a color taking device, and relates to the technical field of color comparison, wherein the color taking adapter is used for being installed on a color taking instrument, and a closed color taking space is formed between the color taking instrument and a coil by using the color taking adapter; the color taking adapter comprises an adapter main body, wherein the interior of the adapter main body is hollow, the connector is arranged at the first end side of the adapter main body and is used for being pressed on a coil, a closed color taking space is formed by combining the interior of the connector and the coil, the connector is arranged at the second end side of the adapter main body and is used for being installed on a color taking instrument, and a color taking channel which communicates the color taking space with the color taking end of the color taking instrument is formed in the connector. Above-mentioned color picking adapter can use with the cooperation of color picking appearance, through forming with the coil between airtight color picking space, effectively isolated external interference to improve color acquisition's accuracy and uniformity.

Description

Color taking adapter and color taking device

Technical Field

The application relates to the technical field of color comparison, in particular to a color taking adapter and a color taking device.

Background

In modern industrial production, the exact matching of colors plays a vital role in product quality and aesthetics, especially in color sensitive industries such as clothing, printing, paint, and automobiles. The color taking instrument is used as a key tool, and helps a user to ensure consistency and accuracy of the color of a product by collecting color data of the surface of an object.

In the clothing industry, in order to make the seam of the sewn clothing less conspicuous, it is necessary to use a seam matching the color of the cloth, which necessitates the acquisition of color data of the seam. However, existing color extraction methods have some obvious limitations. Traditionally, staff is required to manually compare the cloth with the stitching under specific lighting, which is not only inefficient, but also difficult to ensure accurate color matching due to subjectivity. In addition, when the color measuring instrument is adopted to measure the color of the coil, the color taking area of the color comparator is a plane because the shape of the coil is round, so that the color taking is greatly influenced by the outside in the color taking process, and the problem of inaccurate color taking is caused.

Disclosure of utility model

The application aims to provide a color taking adapter which can be matched with a color taking instrument for use, and the color taking adapter can effectively isolate external interference by forming a closed color taking space between the color taking adapter and a coil, so that the accuracy and consistency of color acquisition are improved. Another object of the present application is to provide a color extraction device including a color extraction adapter.

In order to achieve the above object, the present application provides a color-taking adapter, which is used for being installed on a color-taking instrument, and forms a closed color-taking space between the color-taking instrument and a coil by using the color-taking adapter, wherein the color-taking adapter comprises:

The adapter comprises an adapter main body, wherein the interior of the adapter main body is hollow;

The connector is arranged at the first end side of the main body of the adapter main body and is used for being pressed on the coil, and the interior of the connector and the coil are combined to form a closed color taking space;

The connector, the connector set up in the main part second end side of adapter main part, the connector is used for installing on getting the look appearance, the inside of connector forms the color channel that will get the color space and get the look end intercommunication of look appearance.

In some embodiments, the end surface of the engagement body is in abutment with the peripheral portion of the coil, the engagement body being provided with a colour extraction hole which is open through the end surface of the engagement body.

In some embodiments, the cross-sectional shape of the end surface of the engagement body is a concave arc, the cross-sectional arc of the engagement body matching the cross-sectional circular shape of the coil.

In some embodiments, the central axis of the color taking hole intersects with the center of the arc of the cross section of the joint body.

In some embodiments, the connector is provided with a receiving cavity that is open in a direction from the first end side of the main body toward the second end side of the main body, the receiving cavity being configured for mounting a color extraction end of the color extraction instrument.

In some embodiments, the receiving cavity includes an annular side wall and a planar bottom wall;

The annular side wall provides radial limit for the color extractor, and/or the planar bottom wall provides axial limit for the color extractor.

In some embodiments, the end of the annular sidewall is provided with a chamfer that slopes radially outwardly of the receiving cavity in a direction from the first end side of the body toward the second end side of the body.

In some embodiments, the engagement body is integrally formed with the connector body.

In some embodiments, the material of the jointing body is elastic material, and the jointing body is used for being elastically pressed on the coil.

The application also provides a color taking device which comprises a color taking instrument and the color taking adapter, wherein the color taking adapter is arranged at the color taking end of the color taking instrument;

the color taking adapter is detachably connected with the color taking instrument.

Compared with the background art, the color taking adapter is used for being installed on a color taking instrument, a closed color taking space is formed between the color taking instrument and a coil by using the color taking adapter, the color taking adapter comprises an adapter main body, the interior of the adapter main body is arranged in a hollow mode, the adapter main body is provided with an adapter body and a connector, the adapter body is arranged at the first end side of the adapter main body and is used for being pressed on the coil, the interior of the adapter body is combined with the coil to form the closed color taking space, the connector is arranged at the second end side of the main body of the adapter main body and is used for being installed on the color taking instrument, and a color taking channel which communicates the color taking space with the color taking end of the color taking instrument is formed in the interior of the connector.

In the process of using the color taking adapter, firstly, one end of a connector of the adapter main body is installed on a color taking instrument, then, one end of a connector of the adapter main body is contacted with a coil and pressed to ensure that the connector is tightly attached to the coil to form a closed color taking space, at the moment, a suture is arranged on the coil, for example, the suture is in a state of winding on the coil, after the color taking space is formed, the suture needing to be subjected to color detection is arranged in the color taking space, and then, the adapter main body is used as a medium, and the color detection of the color taking instrument can be realized by using the adapter main body as an intermediate body.

By combining the structure and the process description, the color taking adapter has the advantages that the color taking adapter can be matched with a color taking instrument, and the external interference is effectively isolated by forming a closed color taking space between the color taking adapter and a coil, so that the accuracy and the consistency of color acquisition are improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present application, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a block diagram of a color extraction adapter and a color extraction device according to an embodiment of the present application;

FIG. 2 is a use diagram of a color extraction adapter and a color extraction device according to an embodiment of the present application;

FIG. 3 is a block diagram of a color extraction adapter according to an embodiment of the present application;

Fig. 4 is a block diagram of a color adaptor according to an embodiment of the present application in another view angle.

Wherein:

Color-taking adapter 1, adapter body 11, body first end side 1101, body second end side 1102, joint body 111, color-taking hole 1111, connection body 112, accommodation chamber 1121, chamfer portion 11211,

A color taking instrument 2,

Coil 3, suture 31.

Detailed Description

As described in the background art section above, there are two general schemes for comparing the difference between the cloth and the thread by using a color taking instrument (a desktop and a handheld machine), the first scheme is to wind the thread into a thread plate, the thread process is required to be high, the wound coil is neat and smooth and compact, and then the thread plate is placed in the color taking area of the color taking instrument to take color, and the second scheme is to directly place the thread coil in the color taking area of the color taking instrument to take color. The first scheme has higher requirements on the quality of the winding plate, requires additional equipment to perform winding, and is time-consuming and labor-consuming, and the second scheme has the problem that the color taking is greatly influenced by the outside in the color taking process because the appearance of the coil is circular and the color taking area of the color comparator is a plane, so that the color taking is inaccurate.

The application provides a color taking adapter, which aims to improve the color taking accuracy of a color taking instrument through the adaptation of the color taking adapter and the color taking instrument.

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The present application will be further described in detail below with reference to the drawings and detailed description for the purpose of enabling those skilled in the art to better understand the aspects of the present application.

Referring to fig. 1 to 3, fig. 1 is a block diagram of a color extraction adapter and a color extraction device according to an embodiment of the present application, fig. 2 is a use diagram of a color extraction adapter and a color extraction device according to an embodiment of the present application, and fig. 3 is a block diagram of a color extraction adapter according to an embodiment of the present application.

In a first specific embodiment, the color taking adapter 1 provided in the embodiment of the present application is configured to be installed on the color taking device 2, and a closed color taking space is formed between the color taking device 2 and the coil 3 by using the color taking adapter 1.

The color taking adapter 1 comprises an adapter main body 11, wherein the interior of the adapter main body 11 is hollow, and the purpose of the color taking adapter is to enable the color taking instrument 2 to form a detection path in the interior of the adapter main body 11. The adaptor body 11 is provided with a joint body 111 and a connector 112.

The joint body 111 is disposed at the first end 1101 of the adapter body 11, the joint body 111 is used for being pressed onto the coil 3, and the interior of the joint body 111 and the coil 3 are combined to form a closed color taking space.

The connector 112 is disposed at the second end 1102 of the adapter body 11, the connector 112 is configured to be mounted on the color extractor 2, and a color extraction channel is formed inside the connector 112 to communicate the color extraction space with the color extraction end of the color extractor 2.

In this embodiment, the closed color extraction space plays a key role in improving the color extraction accuracy.

First, it can block external light sources, thereby reducing the potential impact of ambient light changes on color measurements. This control helps to maintain consistency in color measurements because the light conditions remain the same at each measurement.

Furthermore, standardized measurement conditions for a closed color space mean that the measurement conditions can be kept uniform every time an operation is performed, which helps to reduce operation errors and improve reproducibility of color measurement. This consistency is critical to ensure product quality and to meet color standards in industrial production.

Finally, the closed space ensures that the color taking instrument only measures the color of the suture on the target object, namely the coil, and the interference of other irrelevant factors is eliminated. This targeted measurement improves the accuracy of the color data, making the color matching more accurate, meeting specific application requirements, such as accurate matching of stitch and cloth colors in the clothing industry.

In the process of using the color taking adapter 1, firstly, one end of a connecting body 112 of an adapter main body 11 is installed on a color taking instrument 2, then, one end of a connecting body 111 of the adapter main body 11 is contacted with a coil 3 and pressed, the connecting body 111 is tightly attached to the coil 3, a closed color taking space is formed, at the moment, a seam 31 is arranged on the coil 3, for example, the seam 31 is in a state of being wound on the coil 3, after the color taking space is formed, the seam 31 needing to be subjected to color detection is arranged in the color taking space, and then, the color taking instrument 2 can be detected by taking the adapter main body 11 as an intermediate body by taking the adapter main body 11 as a medium, in particular, on a detection path of the color taking instrument 2, the color taking end, the connecting body 112, the connecting body 111 and the coil 3 of the color taking instrument 2 can be seen, and a detection path between the color taking instrument 2 and the coil 3 is not blocked, so that the detection effect of the color taking instrument 2 can be ensured.

By combining the structure and the process description, the color taking adapter 1 has the advantages that the color taking adapter 1 can be matched with the color taking instrument 2, and the external interference is effectively isolated by forming a closed color taking space between the color taking adapter 1 and the coil 3, so that the accuracy and the consistency of color acquisition are improved.

With reference to fig. 1 to 3 and fig. 4, fig. 4 is a schematic diagram of a color extraction adapter according to an embodiment of the application under another view angle.

In some embodiments, the end surface of the joint 111 is attached to the peripheral portion of the coil 3, and the joint 111 is provided with a color taking hole 1111, and the color taking hole 1111 is opened through the end surface of the joint 111.

In this embodiment, the coupling body 111 is a key component of the color-taking adapter 1, which is designed for direct contact with the surface of the coil 3. The end surface of the coupling body 111 is designed to be able to closely fit the circumference of the coil 3, such a design ensuring the complete formation of a closed color extraction space during the color extraction process.

In addition, the joint 111 is provided with a color taking hole 1111. This color taking hole 1111 is an important feature penetrating the end surface of the joint body 111. The function of the colour taking aperture 1111 is to allow the colour taking end of the colour taking instrument to measure the colour of the suture 31 on the reel 3 directly through this aperture, the colour taking aperture 1111 being considered as part of a closed colour taking space. Since the color take-off hole 1111 is directly aligned with the surface of the coil 3, it ensures the accuracy and consistency of color measurement.

By this design, the joint 111 not only provides a stable contact interface, but also enables a direct and accurate measurement of the color on the coil 3 through the color take-off hole 1111. The structure is beneficial to reducing interference of external factors on color measurement, and simultaneously improves the efficiency and accuracy of color acquisition.

In some embodiments, the cross-sectional shape of the end surface of the engagement body 111 is a concave arc, the cross-sectional arc of the engagement body 111 matching the cross-sectional circular shape of the coil 3.

In the present embodiment, the end surface of the joint body 111 is designed in a recessed arc shape, and this design enables its cross-sectional shape to closely match the circular cross-section of the coil 3. This form fit helps ensure better contact between the engagement body 111 and the coil 3, thereby improving the accuracy of color acquisition. The design of the invagination arc is also beneficial to adapting to coils with different diameters, and the universality and applicability of the adapter are improved.

In some embodiments, the central axis of the color taking hole 1111 intersects the center of the cross-sectional arc of the coupling body 111.

In this embodiment, the installation positions of the color extractor 2 and the color extraction adapter 1 can be adjusted, so as to ensure that the detection path of the color extractor 2 coincides with the central axis of the color extraction hole 1111. Based on this, the detection path coinciding with the central axis of the color taking hole 1111 intersects with the center of the cross-sectional arc of the joint body 111, which corresponds to the detection path being perpendicular to the suture line 31 on the coil 3, contributes to improving the accuracy of color measurement, thereby obtaining more accurate and consistent color data.

In some embodiments, the connector 112 is provided with a receiving cavity 1121, the receiving cavity 1121 being provided with an opening in the direction from the main body first end side 1101 towards the main body second end side 1102, the receiving cavity 1121 being provided for mounting a color extracting end of the color extracting instrument 2.

In this embodiment, the accommodating chamber 1121 and its opening are designed such that the color taking end of the color taking instrument 2 can be easily installed into the accommodating chamber 1121. Through such design, the color taking instrument 2 can be stably connected with the color taking adapter 1, and the accurate alignment and stable connection between the color taking end and the coil 3 in the color collecting process are ensured, so that the operation convenience and the color taking precision of the whole color taking device are improved.

It should be noted that, in order to improve the accuracy of color measurement, the color meter 2 should be in sealing contact with the accommodating cavity 1121, and available means include providing a sealing member, or selecting a material of the connecting body 112 to be a material that can be in sealing contact with the color meter 2, which falls within the scope of the present embodiment.

In some embodiments, the receiving cavity 1121 includes annular side walls and planar surfaces that provide radial stops for the color extractor 2 and/or planar bottom walls that provide axial stops for the color extractor 2.

Alternatively, the color extractor 2 is radially and axially limited in the receiving cavity 1121.

In this embodiment, the design of the accommodation cavity 1121 further enhances the positioning stability of the color extractor 2. The receiving cavity 1121 is formed by an annular side wall and a planar bottom wall, which together provide accurate positioning of the color extractor 2.

For radial limiting, the annular side wall forms an annular support around the color taking end of the color taking instrument 2, so that the color taking end is prevented from moving in the radial direction, and the color taking end is ensured to be fixed and stable in the measuring process. For axial limiting, the plane bottom wall provides a flat contact surface at the moment, so that the movement of the color taking instrument 2 along the axial direction is limited, and the accurate alignment of the color taking end in color measurement is further ensured.

With this dual radial and axial limit design, the receiving cavity 1121 ensures stability and repeatability of the color meter 2 during installation and use, which is critical to improving the accuracy of color measurements.

In some cases, taking the case where the joint body 111 and the connecting body 112 are integrally formed as an example, the planar bottom wall is a back side portion of the end surface of the joint body 111, and thus the color taking hole 1111 penetrates through both the end surface of the joint body 111 and the planar bottom wall.

In other cases, the connecting body 111 and the connecting body 112 are separately disposed, and the planar bottom walls are provided with light-transmitting structures for the color-capturing holes 1111 to communicate with the color-capturing device 2, including but not limited to gaps or openings formed at intervals, and the like, which are also included in the description of the present embodiment.

In some embodiments, the engagement body 111 is integrally formed with the connection body 112.

In this embodiment, the joint body 111 and the connection body 112 are manufactured at one time as a single body. This integrally formed arrangement may simplify the manufacturing process, reduce the steps and time required for assembly, and may also improve the stability and durability of the structure. In this way, the joint 111 and the connector 112 form a seamless assembly, ensuring the integrity and consistency of the color extraction adapter 1, thereby providing better performance and reliability during color acquisition.

In some embodiments, the end of the annular sidewall is provided with a chamfer 11211, the chamfer 11211 sloping radially outwardly of the receiving cavity 1121 in a direction from the main body first end side 1101 toward the main body second end side 1102.

In this embodiment, the end of the annular sidewall is specifically designed with a chamfer 11211. This chamfer is designed to facilitate the installation of the color take-off end of the color take-off 2 into the receiving cavity 1121, which helps to guide the color take-off end of the color take-off 2 smoothly into or out of the receiving cavity 1121. In addition, the presence of the chamfer 11211 may also provide a better visual effect, making the appearance of the color-taking adapter 1 more neat and fluent. This detailed design embodies a dual consideration of product functionality and user experience.

In some embodiments, the material of the joint body 111 is an elastic material, and the joint body 111 is used for being elastically pressed on the coil 3.

In the present embodiment, the joint body 111 is made of an elastic material, and such a design allows the joint body 111 to be elastically deformed when in contact with the coil 3, thereby achieving a tight and stable press fit. The nature of the resilient material means that the engagement body 111 is able to recover its original shape after application of pressure, which helps to ensure that the coil 3 remains fixed during the colour taking process, preventing slipping or displacement. In addition, the use of the elastic material of the joint body 111 can adapt to the coils 3 with different diameters or shapes, and the applicability and flexibility of the color-taking adapter 1 are increased. Furthermore, the elastic press-fit also helps to reduce damage to the coil 3, while providing sufficient contact force to ensure accuracy of the color measurement. This design allows for ease of operation and protection of the coil 3 while improving the color extraction accuracy.

The elastic material used for the joined body 111 is a material having good ductility, such as rubber.

In some cases, the joint body 111 and the connecting body 112 are integrally formed, that is, the color taking adapter 1 is integrally formed, and the color taking adapter 1 is made of the same material.

Illustratively, the color taking adapter 1 is made of rubber.

The application also provides a color taking device which comprises the color taking instrument 2 and the color taking adapter 1, wherein the color taking adapter 1 is arranged at the color taking end of the color taking instrument 2.

In this embodiment, the color taking device includes the color taking adapter 1, and all the beneficial effects of the color taking adapter 1 are required, which will not be described in detail herein.

In some embodiments, the color taking adapter 1 is detachably connected with the color taking instrument 2

In the present embodiment, the connection between the color taking adapter 1 and the color taking instrument 2 is designed to be detachable, which allows the user to easily mount the color taking adapter 1 to the color taking instrument 2 or dismount from the color taking instrument 2. This way of connection provides great convenience and flexibility, enabling the user to quickly change the color-taking adapter 1 according to different application scenarios or requirements, or to switch between different color-taking instruments 2. At the same time, the detachable connection also simplifies maintenance and cleaning work of the device, since the user can easily detach the color-taking adapter 1 for individual maintenance.

Alternatively, the connecting body 112 is provided with threads to realize the threaded connection of the color taking adapter 1 and the color taking instrument 2, and the connecting body 112 is provided with a magnet to realize the magnetic attraction connection of the color taking adapter 1 and the color taking instrument 2.

In a specific embodiment, the color taking adapter and the color taking device provided by the application provide a brand new color taking mode. Compared with the traditional mode that a winding wire (a suture 31) is wound into a flat wire board and then placed on the color taking instrument 2 for color taking, the color taking adapter 1 disclosed by the application is tightly attached with the wire coil 3 through the connector 111 of the color taking adapter, so that a closed color taking space is formed, and complex operations such as a winding board and the like are avoided. The user can realize quick color taking only by contacting and pressing the end of the joint body 111 with the coil 3. Compared with the method that the color data acquisition is directly carried out on the color taking instrument 2 by pressing on the winding wire 3, the color taking adapter 1 effectively reduces the problem of color accuracy caused by the influence of the color taking angle and the external light source. The color-taking adapter 1 provides a stable color-taking environment, so that the color difference value of the same winding 3 which is acquired for multiple times is obviously reduced, and the consistency and the accuracy of color-acquisition data are improved. In addition, when not needing to carry out suture data acquisition, get look adapter 1 and can conveniently take off, can carry out the contrast of cloth colour at this moment, easy and fast is operated.

It should be noted that many of the components mentioned in the present application are common standard components or components known to those skilled in the art, and the structure and principle thereof can be known by those skilled in the art through technical manuals or through routine experimental methods.

It should be noted that in this specification relational terms such as first and second are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The color taking adapter and the color taking device provided by the application are described in detail above. The principles and embodiments of the present application have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present application and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the application can be made without departing from the principles of the application and these modifications and adaptations are intended to be within the scope of the application as defined in the following claims.

Claims (10)

1. The color taking adapter is used for being installed on a color taking instrument, a closed color taking space is formed between the color taking instrument and a coil by using the color taking adapter, and the color taking adapter comprises:

The adapter comprises an adapter main body, wherein the interior of the adapter main body is hollow;

The connector is arranged at the first end side of the main body of the adapter main body and is used for being pressed on the coil, and the interior of the connector and the coil are combined to form a closed color taking space;

The connector, the connector set up in the main part second end side of adapter main part, the connector is used for installing on getting the look appearance, the inside of connector forms the color channel that will get the color space and get the look end intercommunication of look appearance.

2. The color-taking adapter according to claim 1, wherein an end surface of the joint body is fitted to a peripheral portion of the coil, the joint body being provided with a color-taking hole penetrating through an end surface of the joint body.

3. The color-taking adapter according to claim 2, wherein the cross-sectional shape of the end surface of the engagement body is an invaginated arc, and the cross-sectional arc of the engagement body matches the cross-sectional circle of the coil.

4. A color take-off adapter according to claim 3, wherein the center axis of the color take-off hole intersects the center of the cross-sectional arc of the coupling body.

5. The color-taking adapter according to claim 1, wherein the connection body is provided with a housing chamber, the housing chamber being provided with an opening in a direction from the first end side of the main body toward the second end side of the main body, the housing chamber being provided for mounting a color-taking end of the color-taking instrument.

6. The color-taking adapter of claim 5 wherein the receiving cavity comprises an annular side wall and a planar bottom wall;

The annular side wall provides radial limit for the color extractor, and/or the planar bottom wall provides axial limit for the color extractor.

7. The color-taking adapter according to claim 6, wherein an end portion of the annular side wall is provided with a chamfer portion, and the chamfer portion is inclined outward in a radial direction of the accommodation chamber in a direction from the first end side of the main body toward the second end side of the main body.

8. The color-taking adapter according to claim 1, wherein the coupling body is integrally formed with the connecting body.

9. The color-taking adapter according to claim 1, wherein the material of the joint body is an elastic material, and the joint body is used for being elastically pressed on the coil.

10. A color extraction device, characterized by comprising a color extraction instrument and a color extraction adapter according to any one of claims 1 to 9, wherein the color extraction adapter is mounted on a color extraction end of the color extraction instrument;

the color taking adapter is detachably connected with the color taking instrument.