CN112033883A

CN112033883A - Textile fabric color fastness detection equipment

Info

Publication number: CN112033883A
Application number: CN202010917575.5A
Authority: CN
Inventors: 钟贤瑛
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-03
Filing date: 2020-09-03
Publication date: 2020-12-04

Abstract

The invention discloses textile fabric color fastness detection equipment, which structurally comprises a first test box, a second test box, an illumination rotating structure, a machine body and a control panel, wherein the control panel is installed on one side of the machine body, the first test box and the second test box are installed on the other end of the machine body, the second test box is positioned between the first test box and the control panel, the illumination rotating structure is installed inside the first test box and the second test box, and the inner spaces of the first test box and the second test box are movable cavities; according to the invention, the fabric to be detected is installed through the opening frame, the belt and the belt pulley are used as a linkage structure, the fabric hung on the annular support starts to irradiate around the central illumination structure, the fading time of the fabric is used as a detection index influencing the color fastness, the shorter the fading time is, the greater the influence of light on the color fastness of the fabric is, the fabric cannot be directly aired in the sun after being washed, and the fabric can be directly influenced.

Description

Textile fabric color fastness detection equipment

Technical Field

The invention relates to the field of monitoring and detection, in particular to textile fabric color fastness detection equipment.

Background

The color fastness of the fabric relates to the health and safety of human skin, and a product with poor color fastness can fade in the use process, namely the dye on the fabric can be in direct contact with the human skin, the dye can contain irritant components and can cause damage to the human body, and factors influencing the color fastness are not only washing, but also illumination intensity, wherein the illumination intensity refers to the energy of visible light received on a unit area, the fading is more serious when the illumination intensity of some materials is larger, the fading can be influenced by the illumination of the illumination intensity after washing, the color disintegration can influence the adhesiveness of the dye, and the aesthetic property of the fabric can be greatly influenced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a textile fabric color fastness detection device structurally comprises a first test box, a second test box, an illumination rotating structure, a machine body and a control panel, wherein the control panel is installed on one side of the machine body, the first test box and the second test box are installed on the other end of the machine body, the second test box is located between the first test box and the control panel, the illumination rotating structure is installed inside the first test box and the second test box, and the inner spaces of the first test box and the second test box are movable cavities; illumination revolution mechanic is including opening frame, central illumination structure, central illumination structrual installation is in the middle of the centre in activity chamber, central illumination structure and first test box or the perpendicular setting in the middle of the second test box bottom surface is positive, be provided with all around of central illumination structure and open the frame, open frame and first test box or second test box bottom surface clearance fit.

As a further optimization of the technical scheme, the unfolding frame comprises an annular support, three unfolding rods, a bottom rotating disc, a belt pulley and a motor, the annular support is provided with the three unfolding rods which are distributed at equal intervals, the bottom of the annular support is arranged on the bottom rotating disc, the bottom rotating disc is vertically and mechanically connected with the belt pulley, the belt pulley is mechanically connected with the belt, the other end of the belt is mechanically connected with the belt pulley of another unfolding frame, the belt pulley is mechanically connected with an output shaft of the motor, the motor is electrically connected with a power supply and a control panel of a machine body, when the unfolding frame is used, a fabric to be detected is arranged on the unfolding rods, the motor is powered on through the motor to drive the motor to rotate, on one hand, the belt pulley of another unfolding frame is driven to synchronously rotate through the belt, on the other hand, the bottom rotating disc directly rotates synchronously, the fabric hung on the annular support starts to irradiate around a, the fading time of the fabric is used as a detection index influencing the color fastness, the shorter the fading time is, the greater the influence of light rays on the color fastness of the fabric is, the fabric cannot be directly aired in the sun after being washed, and the fabric can be directly influenced.

As a further optimization of the technical scheme, the annular support is provided with a gap of an incomplete circle, and the cross-sectional area of the gap is larger than one half of the area of the concentric circle where the gap is located.

As a further optimization of this technical scheme, it is equipped with mobile jib, clamp plate, hemisphere card post to tear open the pole, the upper and lower both ends of mobile jib all are equipped with hemisphere card post, hemisphere card post and mobile jib structure as an organic whole, the side of mobile jib is equipped with the clamp plate, clamp plate and mobile jib adopt the activity block, the length of clamp plate is less than the length of mobile jib, the diameter of hemisphere card post is greater than the maximum width of breach, places the area that will detect at the mobile jib, suppresses with the clamp plate, strengthens its fixed firm degree, and on the other hand, the mobile jib goes the back in the installation, and the diameter of hemisphere card post is greater than the maximum width of breach to and the cross sectional area of breach is greater than the half of its area of place concentric circles, in case tear open the pole installation back, just is difficult to the centrifugation and throw.

As a further optimization of the technical scheme, the central illumination structure is provided with a light screen, a top pillar, a circular upright post, an illumination lamp and a base, the base is vertically fixed on the bottom surfaces inside the first test box and the second test box, the illumination lamp is vertically installed on the base, the circular upright post is installed at the top end of the illumination lamp, the circular upright post and the top pillar are movably matched, after the top pillar is installed and the cover on the machine body is closed, the top end of the top pillar just abuts against the top end inside the cover, the side surface of the circular upright post, which deviates from the illumination lamp, is movably provided with the light screen, the illumination lamp is installed in the middle of the annular bracket, the illumination lamp irradiates the circular upright post from 360 degrees in all directions and is used for checking that the illumination detects the fabrics installed on the opening bracket in all directions around, the color fastness of the fabrics is greatly influenced by the light rays when the fading time is shorter, and the fabrics cannot be directly, can cause direct influence on the fabric.

As a further optimization of the technical scheme, the light shielding plate is composed of an arc-shaped plate and a reflecting plate, the arc circumference of the arc-shaped plate is smaller than one half of the circumference of a circle of the arc-shaped plate, the reflecting plates are arranged on the head side and the tail side of the arc-shaped plate, the included angle between the reflecting plate and the arc-shaped plate is larger than 90 degrees, the light source irradiating the full 360 degrees of the reflector lamp is partially shielded through the light shielding plate, the intensity change of the sunlight is simulated, and the sunlight is more practical.

As a further optimization of the technical scheme, the reflecting plate is formed by embedding a glass mirror in the middle of a plastic plate, and the inclined glass mirror is used for reflecting the coming light so as to achieve the purpose of shielding edge light.

As a further optimization of the technical scheme, the irradiation lamp is in threaded connection with the base, the irradiation lamp is electrically connected with the power supply and the control panel of the machine body, the connection relationship between the irradiation lamp and the base is enhanced by adopting a threaded connection mode, the deviation is not easy to occur, the light screen is touched with the annular support, and the annular support is not smooth in rotation.

Advantageous effects

Compared with the prior art, the textile fabric color fastness detection equipment has the following advantages:

1. according to the invention, the fabric to be detected is installed through the opening frame, the belt and the belt pulley are used as a linkage structure, the fabric hung on the annular support starts to irradiate around the central illumination structure, the fading time of the fabric is used as a detection index influencing the color fastness, the shorter the fading time is, the greater the influence of light on the color fastness of the fabric is, the fabric cannot be directly aired in the sun after being washed, and the fabric can be directly influenced.

2. The disassembly rod clamps the fabric in a clamping mode, the area to be detected is placed on the main rod and is pressed by the pressing plate, the fixing firmness of the disassembly rod is enhanced, on the other hand, after the main rod is installed, the diameter of the hemispherical clamping column is larger than the maximum width of the notch, the cross-sectional area of the notch is larger than one half of the area of the concentric circle where the notch is located, and once the disassembly rod is installed, the disassembly rod is not easy to centrifugally throw out and drop.

3. The central illumination structure is arranged in the middle of the annular support through the illumination lamp, and is used for performing all-around illumination on the annular support to detect that the illumination is used for performing all-around detection on the fabric arranged on the opening support at the periphery, the shorter the fading time is, the greater the firm influence of light on the color of the fabric is, the clothes cannot be directly aired in the sun after being washed, and the direct influence can be caused on the fabric.

4. The central illumination structure is movably provided with the light screen, the light screen is used for locally shielding a light source which is irradiated by the full-scale comparison spotlight, the intensity change of sunlight is simulated, the central illumination structure is more practical, and the inclined glass mirror is used for reflecting the light which is irradiated by the central illumination structure, so that the purpose of shielding edge light is achieved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a textile fabric color fastness detection device of the present invention.

FIG. 2 is a schematic structural diagram of an illumination rotating structure according to the present invention.

FIG. 3 is a schematic view of a partial enlarged structure of the illumination rotating structure according to the present invention.

FIG. 4 is a schematic structural diagram of A in FIG. 2 according to the present invention.

FIG. 5 is a schematic cross-sectional view of a central illumination structure of the present invention.

In the figure: the device comprises a first test box 1, a second test box 2, an illumination rotating structure 3, a machine body 4, a control panel 5, an opening frame 33, a central illumination structure 34, an annular support 331, a detaching rod 332, a bottom rotating disc 333, a belt 334, a belt pulley 335, a motor 336, a notch 337, a main rod 3-1, a pressing plate 3-2, a hemispherical clamping column 3-3, a light shading plate 341, a top column 342, a circular upright column 343, an illuminating lamp 344, a base 345, an arc-shaped plate a, a reflecting plate b and a movable cavity 31.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, the invention provides a textile fabric color fastness detection device, which structurally comprises a first test box 1, a second test box 2, an illumination rotating structure 3, a machine body 4 and a control panel 5, wherein the control panel 5 is installed on one side of the machine body 4, the first test box 1 and the second test box 2 are installed on the other end of the machine body 4, the second test box 2 is located between the first test box 1 and the control panel 5, the illumination rotating structure 3 is installed inside the first test box 1 and the second test box 2, and the inner space of the first test box 1 and the second test box 2 is a movable cavity 31;

illumination revolution mechanic 3 is including strutting frame 33, central illumination structure 34 is installed in the positive centre in activity chamber 31, central illumination structure 34 and the positive perpendicular setting in the middle of first test box 1 or the 2 bottom surfaces of second test box, central illumination structure 34 is provided with around strutting frame 33, strutting frame 33 and the 2 bottom surfaces clearance fit of first test box 1 or second test box.

The opening frame 33 comprises an annular support 331, three opening rods 332, a bottom rotating disc 333, a belt 334, a belt pulley 335 and a motor 336, wherein the annular support 331 is provided with the three opening rods 332 which are distributed at equal intervals, the bottom of the annular support 331 is arranged on the bottom rotating disc 333, the bottom rotating disc 333 is vertically and mechanically connected with the belt pulley 335, the belt pulley 335 is mechanically connected with the belt 334, the other end of the belt 334 is mechanically connected with the belt pulley 335 of another opening frame 33, the belt pulley 335 is mechanically connected with an output shaft of the motor 336, the motor 336 is electrically connected with a power supply of a machine body 4 and a control panel 5, when in use, a fabric to be detected is arranged on the opening rods 332, and then the motor 336 is electrified to drive the motor 336 to rotate, on one hand, the belt 334 drives the belt pulley 335 of another opening frame 33 to synchronously rotate, on the other hand, the bottom rotating disc 333 is directly synchronously rotated, the fabric hung on the annular support 331 starts to irradiate around the central illumination structure 34, the fading time of the fabric is used as a detection index for influencing the color fastness, the shorter the fading time is, the greater the influence of light on the color fastness of the fabric is, the fabric cannot be directly aired in the sun after being washed, and the fabric can be directly influenced.

The annular support 331 is provided with a gap 337 of an incomplete circle, and the cross-sectional area of the gap 337 is larger than one half of the area of the concentric circle in which the gap is located.

The disassembling rod 332 is provided with a main rod 3-1, a pressing plate 3-2 and a hemispherical clamping column 3-3, the upper end and the lower end of the main rod 3-1 are provided with the hemispherical clamping column 3-3, the hemispherical clamping column 3-3 and the main rod 3-1 are integrated, the pressing plate 3-2 is arranged on the side surface of the main rod 3-1, the pressing plate 3-2 and the main rod 3-1 are movably clamped, the length of the pressing plate 3-2 is smaller than that of the main rod 3-1, the spherical diameter of the hemispherical clamping column 3-3 is larger than the maximum width of the notch 337, an area to be detected is placed on the main rod 3-1 and pressed by the pressing plate 3-2, so that the fixed firmness of the main rod is enhanced, on the other hand, after the main rod 3-1 is installed, the diameter of the hemispherical clamping column 3-3 is larger than the maximum width of, and the cross-sectional area of the notch 337 is greater than one-half of the area of the concentric circle in which it is located, so that once the rod 332 is removed and installed, it is not easy to centrifugally throw it off and drop it.

The central illumination structure 34 is provided with a shading plate 341, a top column 342, a circular column 343, a lamp 344 and a base 345, the base 345 is vertically fixed on the bottom surfaces of the inside of the first test box 1 and the second test box 2, the lamp 344 is vertically installed on the base 345, the circular column 343 is installed at the top end of the lamp 344, the circular column 343 and the top column 342 are movably matched, after the top column 342 is installed, and then the cover on the machine body is closed, the top end of the top column 342 just abuts against the top end of the inside of the cover, the shading plate 341 is movably installed on the side surface of the circular column 343 deviating from the lamp 344, the circular column 331 is installed in the middle of the annular bracket 331 through the lamp 344, the circular column is irradiated in all directions from 360 degrees, the central illumination is used for detecting the fabrics installed on the opening bracket 33 in all directions by the illumination, and the color fading time is shorter, the greater the firm influence of the color of, after washing, the fabric can not be dried in the sun directly, and the fabric can be directly influenced.

The light shielding plate 341 is composed of an arc-shaped plate a and a reflecting plate b, the arc circumference of the arc-shaped plate a is smaller than one half of the circumference of the circle of the arc-shaped plate a, the reflecting plates b are installed at the head and the tail of the arc-shaped plate a, the included angle between the reflecting plate b and the arc-shaped plate a is larger than 90 degrees, the light source irradiating the full 360 degrees of the reflector lamp 344 is partially shielded through the light shielding plate 341, the intensity change of sunlight is simulated, and the light shielding plate is more practical.

The reflecting plate b is formed by embedding a glass mirror in the middle of a plastic plate, and the inclined glass mirror is used for reflecting the light coming from the reflecting plate, so that the purpose of shielding edge light is achieved.

The irradiation lamp 344 is in threaded connection with the base 345, the irradiation lamp 344 is electrically connected with the power supply of the machine body 4 and the control panel 5, the connection relationship between the irradiation lamp 344 and the base 345 is enhanced by adopting a threaded connection mode, deviation is not prone to occurring, the shading plate 341 and the annular support 331 are touched, and the annular support 331 is not smooth in rotation.

When the detection device is used, firstly, the fabric to be detected is placed on the main rod 3-1 and is pressed by the pressing plate 3-2, the fixing firmness degree of the detection device is enhanced, on the other hand, after the main rod 3-1 is installed, the diameter of the hemispherical clamping column 3-3 is larger than the maximum width of the notch 337, the cross-sectional area of the notch 337 is larger than one half of the area of a concentric circle where the notch 337 is located, once the main rod 332 is disassembled and installed, the centrifugal throwing-out and falling are not easy to occur, then the motor 336 is electrified to drive the motor 336 to rotate, on the one hand, the belt pulley 335 of the other opening frame 33 is driven to synchronously rotate by the belt 334, on the other hand, the direct bottom rotating disc 333 is synchronously rotated, the fabric hung on the annular support 331 starts to irradiate around the central illumination structure 34, the irradiation lamp 344 is installed in the middle of the annular support 331 to perform, the color fastness testing device is used for testing the fabric which is arranged on the opening frame 33 around by illumination in an all-around way, the shorter the fading time is, the larger the influence of light on the color fastness of the fabric is, the clothes can not be dried in the sun directly after being washed, and the direct influence can be caused on the fabric.

Example two

On the basis of the first embodiment, the central illumination structure 34 is movably installed with the light shielding plate 341, and the light source irradiating the full 360 degrees of the illumination lamp 344 is partially shielded by the light shielding plate 341, so as to simulate the intensity change of the sunlight, and be more practical, and the light reflected by the inclined glass mirror is utilized to shield the edge light.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a textile fabric colour fastness check out test set which characterized in that: the structure of the device comprises a first test box (1), a second test box (2), an illumination rotating structure (3), a machine body (4) and a control panel (5), wherein the control panel (5) is installed on one side of the machine body (4), the first test box (1) and the second test box (2) are installed on the other end of the machine body (4), the second test box (2) is located between the first test box (1) and the control panel (5), the illumination rotating structure (3) is installed inside the first test box (1) and the second test box (2), and the inner space of the first test box (1) and the second test box (2) is a movable cavity (31);

illumination revolution mechanic (3) are including strutting frame (33), central illumination structure (34), install in the middle of the centre of activity chamber (31) central illumination structure (34), central illumination structure (34) and first test box (1) or second test box (2) bottom surface centre set up perpendicularly, be provided with around central illumination structure (34) and strut frame (33), strut frame (33) and first test box (1) or second test box (2) bottom surface clearance fit.

2. The textile fabric color fastness detection device of claim 1, characterized in that: prop open frame (33) and include annular frame (331), tear pole (332), end whirl (333), belt (334), belt pulley (335), motor (336), it tears pole (332) open to be equipped with three on annular frame (331), and these three are torn pole (332) open and are even equidistance and distribute, install on end whirl (333) annular frame (331) bottom, end whirl (333) and belt pulley (335) perpendicular mechanical connection, belt pulley (335) and belt (334) adopt mechanical connection, the other end of belt (334) and another prop open belt pulley (335) mechanical connection of frame (33), the output shaft mechanical connection of belt pulley (335) and motor (336), power, control panel (5) electricity of motor (336) and organism (4) are connected.

3. The textile fabric color fastness detection device of claim 2, characterized in that: the annular support (331) is provided with a notch (337) of an incomplete circle.

4. The textile fabric color fastness detection device of claim 2, characterized in that: the disassembling rod (332) is provided with a main rod (3-1), a pressing plate (3-2) and a hemisphere clamping column (3-3), the hemisphere clamping column (3-3) is arranged at the upper end and the lower end of the main rod (3-1), and the pressing plate (3-2) is arranged on the side face of the main rod (3-1).

5. The textile fabric color fastness detection device of claim 1, characterized in that: the central illumination structure (34) is provided with a light shielding plate (341), a top column (342), a circular upright column (343), a lamp (344) and a base (345), the base (345) is vertically fixed on the inner bottom surfaces of the first test box (1) and the second test box (2), the lamp (344) is vertically installed on the base (345), the circular upright column (343) is installed at the top end of the lamp (344), the circular upright column (343) and the top column (342) are in movable fit, after the top column (342) is installed, a cover on the machine body is closed, the top end of the top column (342) just props against the inner top end of the cover, and the side surface of the circular upright column (343) deviating from the lamp (344) is movably provided with the light shielding plate (341).

6. The textile fabric color fastness detection device of claim 5, characterized in that: the light shielding plate (341) is composed of an arc-shaped plate (a) and a reflecting plate (b), the arc circumference of the arc-shaped plate (a) is less than one half of the circumference of a circle, the reflecting plates (b) are arranged at the head side and the tail side of the arc-shaped plate (a), and the included angle between the reflecting plate (b) and the arc-shaped plate (a) is greater than 90 degrees.

7. The textile fabric color fastness detection device of claim 6, characterized in that: the reflecting plate (b) is formed by embedding a glass mirror in the middle of a plastic plate.

8. The textile fabric color fastness detection device of claim 5, characterized in that: the irradiation lamp (344) is in threaded connection with the base (345), and the irradiation lamp (344) is electrically connected with the power supply and the control panel 5 of the machine body 4.