CN218823734U - Equipment for detecting curing degree and wear resistance of printing ink - Google Patents

Abstract

The utility model discloses a detect printing ink solidification degree and wear resistance's equipment, including friction device, infusion set, rotatable sample platform, image acquisition device and control and display device that carry, infusion set sets up on friction device, friction device sets up in the top of carrying the sample platform, image acquisition device sets up in the one side of carrying the sample platform, image acquisition device all is connected with control and display device electricity. The friction device can be used for detecting the curing degree of the printing ink and can also be used for detecting the wear-resisting property of the printing ink, the detection mode of the wear-resisting property of the printing ink is similar to the detection mode of the curing degree of the printing ink, the curing degree detection and the wear-resisting property detection of the printing ink are integrated, the automatic degree is high, the operation is convenient, the evaluation is objective, the two detection functions can be flexibly switched, the efficiency can be improved, the application is expanded, the subjectivity of manual operation and evaluation can be avoided, and the problems that the detection process is not connected and the like can be solved.

Description

Equipment for detecting curing degree and wear resistance of printing ink

Technical Field

The utility model relates to a relevant technical field of lithography apparatus, in particular to detect printing ink solidification degree and wear resistance's equipment.

Background

Compared with the traditional ink, the UV ink has the advantages of high efficiency, low cost, environmental protection and the like, and is widely applied to the fields of high-grade printing and packaging of bills, labels, cigarette packets and the like. The rapid development of the printing industry puts higher requirements on the quality of ink and printed matters, and the detection of the curing degree of the UV ink and the wear resistance of an ink layer is one of important indexes for evaluating the quality of printing quality. The UV ink is not completely cured or is cured over the head, so that the adhesion fastness, the glossiness, the printing color reproduction and the like of the ink layer are influenced; the abrasion resistance of the ink layer is poor, so that the phenomena of image-text blurring, frosting, falling and the like are easily caused in a printing area, the appearance of a product is influenced, the grade of the product is reduced, the accurate transmission of image-text information is restricted, and misleading can be caused to consumers.

At present, printing enterprises mainly adopt a finger touch (scraping) method, a scratch method, an anti-adhesion method and the like, whether UV ink is cured or not is judged qualitatively by means of naked eyes and operation experience of technicians, and the methods are too subjective and low in accuracy, cannot judge the curing degree of the UV ink and distinguish curing areas visually, and are difficult to popularize. In addition, when the abrasion resistance of the ink layer of the printing product is evaluated, generally, a sample is fixed on a friction tester, the layer to be abraded and the friction paper are controlled to rub against each other, then a densimeter or a thickness gauge is used for measuring, and the abrasion resistance of the ink layer is judged by comparing the density or thickness change before and after the rubbing. The detection method is incoherent, the operation process is relatively complicated, the efficiency is low, and the leveling property, the uniformity and the like of the ink color all affect the detection result.

Also there is detection device who relates to UV printing ink curing degree among the prior art, CN209589810U discloses a UV solidification detection device for printing, including base and detection device, detection device slidable mounting is in the upper end of base, fixes the surface at the base earlier when needing to detect, then waters a small amount of water toward the surface of product, promotes detection device and removes on the product surface, utilizes the moist of water and the scrubbing of mobile device, judges UV solidification effect through observing whether the product surface fades. The device directly injects water to the surface of the sample before detection, and the water injection amount is not controlled, so that the paper base material is easy to absorb water and deform, the mechanical property is reduced, the scrubbing effect of the surface of the sample is influenced, and the curing degree of the sample cannot be accurately detected; after the UV ink is washed, the UV ink curing degree is judged only by observing whether the surface of the sample is faded or not by human eyes, and certain subjectivity and errors exist. CN209460120U discloses a UV ink curing degree detection device, which includes a detection table, a detection device and a support, wherein the detection device includes a probe, a pressing block, a telescopic rod and a friction coefficient detector, which are in contact with a printed matter to be detected, and whether the UV ink is cured is determined by detecting the friction coefficient of a printing area. The detection method and the detection device have high requirements on the quality of printed products, the dispersibility and the leveling property of the ink, the surface roughness of the printed products and the like have large influence on the test result, and the difference of the friction coefficients cannot directly reflect the curing degree of the interior of the UV ink.

In view of the foregoing, there are still certain drawbacks in the prior art regarding the detection apparatus for the degree of curing of UV ink, and thus the prior art needs to be improved and improved.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing disadvantages of the prior art, an object of the present invention is to provide an apparatus for detecting ink curing degree and wear resistance.

For solving the technical problem, the utility model discloses following technical scheme has been taken:

the utility model provides a detect printing ink solidification degree and wear resistance's equipment, includes friction device, infusion set, rotatable appearance platform, image acquisition device and control and display device of carrying, infusion set sets up on friction device, friction device sets up in the top of carrying the appearance platform, image acquisition device sets up in the one side of carrying the appearance platform.

The equipment for detecting the ink curing degree and the wear resistance is characterized in that the friction device comprises a friction plate, a friction rod and a reciprocating driving piece, the friction plate is connected with one end of the friction rod, the other end of the friction rod is connected with the reciprocating driving piece, and the bottom of the friction plate is provided with a mounting groove for mounting a friction head.

In the device for detecting the curing degree and the wear resistance of the printing ink, the friction plate is provided with a load groove, and the load groove is arranged on the top surface of the friction plate.

In the device for detecting the curing degree and the wear resistance of the printing ink, the friction rod is a square rod, a triangular prism rod or an oval rod.

Detect printing ink solidification degree and wear resistance's equipment in, carry the appearance platform including rotating movable support, a plurality of negative pressure year model, bottom plate, vacuum pump and rotating electrical machines, the negative pressure year model sets up around the bottom plate, the bottom plate sets up on rotating movable support, rotating movable support is connected with rotating electrical machines, rotating movable support and bottom plate all have the passageway of induced drafting, a plurality of through-holes of induced drafting have on the negative pressure year model, the passageway and the through-hole intercommunication of induced drafting, rotating movable support passes through pipeline and vacuum pump connection.

The equipment for detecting the curing degree and the wear resistance of the printing ink is characterized in that the sample carrying platform further comprises a telescopic assembly, and the telescopic assembly is connected with the bottom plate.

Detect printing ink solidification degree and wear resistance's equipment in, infusion set includes out the liquid hole, goes out liquid pipe, liquid storage pot and transfer pump, go out the liquid hole and set up in mounting groove department to communicate with the mounting groove, go out the liquid hole in being arranged in to the one end of liquid pipe, the other end that goes out the liquid pipe passes through transfer pump and liquid storage pot intercommunication.

Detect printing ink curing degree and wear resistance's equipment in, image acquisition device includes CCD camera and light source, CCD camera and light source all set up in the one side of carrying the appearance platform, the light source is the angle setting of predetermineeing with the one side of carrying the appearance platform, the CCD camera is perpendicular with the one side of carrying the appearance platform.

In the equipment for detecting the curing degree and the wear resistance of the printing ink, the number of the mounting grooves is 1-8.

The equipment for detecting the curing degree and the wear resistance of the printing ink further comprises a rack, wherein the infusion device, the friction device, the sample carrying table, the image acquisition device and the control and display device are all arranged on the rack.

Compared with the prior art, the utility model provides a detect printing ink solidification degree and wear resistance's equipment includes friction device, infusion set, rotatable year appearance platform, image acquisition device and control and display device, wherein, friction device both can be used for detecting printing ink solidification degree, can also be used for detecting printing ink wear resistance, and printing ink wear resistance's detection mode is similar with the detection mode of printing ink solidification degree moreover, and the detection that the difference lies in printing ink solidification degree needs infusion set to provide solution for friction device, and printing ink wear resistance's detection does not need infusion set to provide solution, all the other steps are all the same. The utility model discloses a detect the degree of solidification and the wear resistance of printing ink and detect to close as an organic wholely, realize that degree of automation is high, convenient operation, evaluation are objective and can switch between two kinds of detection function in a flexible way, both can raise the efficiency, simplify the deployment, extend the application, can avoid again the subjectivity of manual operation and judgement and solve the detection process and not link up the scheduling problem.

Drawings

Fig. 1 is the structure diagram of the first viewing angle of the apparatus for detecting ink curing degree and wear resistance provided by the present invention.

Fig. 2 is a schematic structural diagram of a second view angle of the apparatus for detecting ink curing degree and wear resistance provided by the present invention.

Fig. 3 is the utility model provides a detect printing ink solidification degree and wear resistance's equipment's friction device's schematic structure diagram.

Fig. 4 is a schematic structural diagram of a friction plate of the apparatus for detecting ink curing degree and wear resistance provided by the present invention.

Fig. 5 is a schematic structural diagram of the friction plate of the apparatus for detecting ink curing degree and wear resistance provided by the present invention, in which the number of the mounting grooves is four.

Fig. 6 is a schematic structural diagram of the friction plate of the apparatus for detecting ink curing degree and wear resistance provided by the present invention, in which the number of the mounting grooves is two.

Fig. 7 is a schematic structural diagram of the friction plate of the apparatus for detecting ink curing degree and wear resistance according to the present invention, in which the number of the mounting grooves is one.

Fig. 8 is the utility model provides a detect printing ink solidification degree and wear resistance's equipment carry appearance platform's schematic structure.

Fig. 9 is a schematic structural view of the rotating bracket of the apparatus for detecting ink curing degree and wear resistance provided by the present invention.

Reference is made to the accompanying drawings in which:

the device comprises a friction device 1, a friction plate 11, a mounting groove 111, a load groove 112, a load 113, a friction rod 12, a reciprocating driving piece 13, a transfusion device 2, a liquid outlet hole 21, a sample carrying table 3, a rotating bracket 31, a suction channel 311, a negative pressure load sample plate 32, a suction through hole 321, a bottom plate 33, an image acquisition device 4, a CCD camera 41, a light source 42, a control and display device 5, a display screen 51, a control panel 52 and a frame 6

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "on," "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

Referring to fig. 1 and 2, the utility model provides an equipment for detecting printing ink solidification degree and wear resistance includes friction device 1, infusion set 2, rotatable sample platform 3, image acquisition device 4 and control and display device 5 that carry, infusion set 2 sets up on friction device 1, friction device 1 sets up in the top of carrying sample platform 3, image acquisition device 4 sets up in the one side of carrying sample platform 3, infusion set 2, friction device 1, carry sample platform 3 and image acquisition device 4 all are connected with control and display device 5 electricity.

When carrying out printing ink solidification degree and examining, set up the sample in carrying appearance platform 3, by carrying behind the fixed sample of appearance platform 3, again by infusion set 2 provides its required solution for friction device 1, through friction device 1 is the friction of reciprocating on the sample, treats the friction and accomplishes the back, by image acquisition device 4 carries out image acquisition to the friction area of sample, through control carries out image comparison and shows the testing result with display device 5, and it can to take off the sample by carrying appearance platform 3 at last.

Wherein, friction device 1 both can be used for detecting printing ink solidification degree, can also be used for detecting printing ink wear resistance, and printing ink wear resistance's detection mode is similar with printing ink solidification degree's detection mode, except that need not infusion set 2 and provide solution, all the other steps are all the same, the utility model discloses a detect solid degree detection and the wear resistance detection of printing ink and close as an organic wholely, realize that degree of automation is high, convenient operation, evaluation are objective and can switch over between two kinds of detection functions in a flexible way, both can raise the efficiency, simplify the deployment, extend the application, can avoid the subjectivity of manual operation and judgement again and solve the detection process and not link up the scheduling problem.

Referring to fig. 3 to 7, the friction device 1 includes a friction plate 11, a friction rod 12 and a reciprocating driving member 13, the friction plate 11 is connected to one end of the friction rod 12, the other end of the friction rod 12 is connected to the reciprocating driving member 13, and a mounting groove 111 for mounting a friction head (not shown) is formed at the bottom of the friction plate 11. When detecting, install the friction head in mounting groove 111, make the regional contact of waiting to rub of 11 boards of friction head protrusion friction plate and sample, through reciprocating drive spare 13 controls the friction head through friction lever 12 and treats the friction area and rub or rub, supplies technical staff to observe or image acquisition device obtains the black layer condition image that drops. The reciprocating drive member 13 may be controlled by a motor or a cylinder, which is prior art and will not be described further herein.

The mounting groove 111 may further be provided with a friction block (not shown in the figure), so as to detect the wear resistance of the surface of the printed product, and specifically, the friction head or the friction block may be replaced according to the detection requirement.

Further, the friction plate 11 is provided with load grooves 112, the load grooves 112 are disposed on the top surface of the friction plate 11, the load grooves 112 are symmetrically disposed on the top surface of the friction plate 11, so that the force applied to the friction plate 11 is uniform, and the weight of the load 113 can be adjusted as required during the detection process, which is simple and convenient to operate, wherein the load 113 can be a weight, the weight of the load 113 can be accurately controlled, and the number of the weights can be one or more, so as to achieve the required load 113.

The number of the mounting grooves 111 is 1-8 (as shown in fig. 5-7), and the number of the mounting grooves 111 can be determined according to the detection requirement, and specifically can be selected according to the number of the tested samples, or the number of a plurality of splines of the same sample.

When the number of the mounting grooves 111 is plural, plural sets of the solvent-impregnated load 113 rubbing may be performed based on plural splines on the same sample, or plural sets of different solvent rubbing or plural sets of sample rubbing with the same solvent may be performed. The solvent can be water, ethanol with different concentrations, acetone with different concentrations and the like, and can be specifically selected according to the properties of the ink on the sample, and the curing degree of the related ink can be judged through a friction test.

Preferably, the mounting groove 111 is square, so as to prevent the friction head or the friction block from shaking or rotating during the reciprocating friction process, thereby ensuring the accuracy of the detection result.

The friction rod 12 is a square rod, a triangular prism rod or an oval rod, and can avoid inclination in the reciprocating process of the friction rod 12, so as to ensure that the friction rod 12 is in direct reciprocating motion.

Referring to fig. 1, 8 and 9, the sample loading table 3 includes a rotating bracket 31, a plurality of negative pressure sample loading plates 32, a bottom plate 33, a vacuum pump (not shown in the figure) and a rotating motor (not shown in the figure), the negative pressure sample loading plates 32 are disposed around the bottom plate 33, the bottom plate 33 is disposed on the rotating bracket 31, the rotating bracket 31 is connected with the rotating motor, the rotating bracket 31 and the bottom plate 33 both have air suction channels 311, the negative pressure sample loading plates 32 have a plurality of air suction through holes 321, the air suction channels 311 are communicated with the air suction through holes 321, and the rotating bracket 31 is connected with the vacuum pump through a pipeline. During detection, a sample is placed on the negative pressure loading sample plate 32, the vacuum pump enables the negative pressure loading sample plate 32 to generate negative pressure to suck the sample through the rotating support 31, the rotating motor rotates 90 degrees to enable the sample to be placed below the friction device 1, the friction device 1 performs reciprocating friction on a region to be rubbed, the rotating motor controls the negative pressure loading sample plate 32 adsorbing the sample to rotate 90 degrees, the sample rotates to the image acquisition device 4, the rotating motor rotates 90 degrees after image acquisition is completed, the negative pressure loading sample plate 32 adsorbing the sample faces downwards, and finally the vacuum pump closes the negative pressure of the negative pressure loading sample plate 32, namely the sample automatically completes blanking operation.

In this embodiment, the number of the negative pressure sample loading plates 32 is four, and the four negative pressure sample loading plates 32 are symmetrically arranged on the rotating bracket 31, so that the negative pressure sample loading plate 32 can be moved to a corresponding position when the rotating bracket 31 rotates 90 degrees, the operation is simple, and the four negative pressure sample loading plates 32 can be used for continuously performing friction detection, so as to save the detection time of a plurality of samples.

The sample stage 3 further comprises a telescopic assembly (not shown in the figure), which is connected with the bottom plate 33, and controls the telescopic movement of the bottom plate 33 through the telescopic assembly, so as to control the telescopic movement of the negative ballast sample plate 32. Before the rotating motor rotates at every time, the telescopic assembly control bottom plate 33 extends out, after the rotating motor rotates to a required angle, the telescopic assembly control bottom plate 33 retracts (namely, resets), and the telescopic assembly control bottom plate 33 extends out or retracts, so that when the rotating motor control bottom plate 33 rotates, the bottom plate 33 or the negative pressure sample loading plate 32 is prevented from colliding with the friction device 1.

As shown in fig. 3 to 7, the infusion device 2 includes a liquid outlet 21, a liquid outlet conduit (not shown), a liquid storage tank (not shown), and an infusion pump (not shown), the liquid outlet 21 is disposed at the mounting groove 111 and communicated with the mounting groove 111, one end of the liquid outlet conduit is disposed in the liquid outlet 21, the other end of the liquid outlet conduit is communicated with the liquid storage tank through the infusion pump, and a solution in the liquid storage tank can be delivered to the friction head through the liquid outlet 21 to infiltrate the friction head. And each mounting groove 111 department all is provided with out liquid hole 21, can provide different solution for different play liquid holes 21 as required to satisfy the detection of carrying out different solutions simultaneously to same sample or different samples.

Referring to fig. 1 and fig. 2, the image capturing device 4 includes a CCD camera 41 and a light source 42, the CCD camera 41 and the light source 42 are both disposed on one side of the sample stage 3, the light source 42 is disposed at a predetermined angle with respect to one side of the sample stage 3, the CCD camera 41 is perpendicular to one side of the sample stage 3, the light source 42 provides brightness for the sample stage 3, and the CCD camera 41 captures an image, which is compared with the control and display device 5. Such as: when the area to be detected of the sample is exposed, the ink layer is judged to fall off, the falling degree is divided according to the percentage of the exposed area to the total friction area, the falling degree and the friction times of the ink layer in the friction areas of different solutions are integrated to judge the curing degree, the shot detection area image can be amplified in the control and display device 5, the human eye comparison judgment can be assisted according to the amplified image, and the detection result is more accurate.

The preset angle is 45 degrees, that is, the incident angle of the light source 42 and the negative pressure sample carrying plate 32 form a 45-degree included angle, so that light emitted by the light source 42 is incident at 45 degrees and reflected out at 45 degrees and does not enter a measuring head in the 0-degree direction, and therefore, the 45-degree/0-degree reflected light can be automatically filtered, the definition of the CCD camera 41 in the collected image is ensured, and the accuracy of the detection result is further ensured.

The light source 42 is a standard light source or a multiband laser, and the multiband laser is a light source with multiple wave band wavelengths and different intensities and is used for outputting light waves and exciting various photoluminescence or photochromic patterns, so that the image acquisition device 4 can realize the image acquisition of the to-be-detected area of the colorless fluorescent UV ink sample.

The equipment for detecting the ink curing degree and the wear resistance further comprises a frame 6, wherein the infusion device 2, the friction device 1, the sample carrying table 3, the image acquisition device 4 and the control and display device 5 are all arranged on the frame 6, and specifically, the control and display device 5 comprises a display screen 51 and a control panel 52.

For making the utility model provides a structure of the equipment of detection printing ink solidification degree and wear resistance is clearer, and following carries out the detailing to its operating procedure:

the method comprises the following steps: before the UV ink curing degree detection is carried out, the friction plate needs to be installed or replaced. Firstly, taking down a friction plate in a friction device, and clamping a friction head into a mounting groove on the lower surface of the friction plate, wherein the friction head protrudes out of the surface of a platform and can be contacted with a region to be rubbed; then loading equal load into the symmetrical load grooves on the two sides of the upper surface of the friction plate respectively; and finally, re-nesting the friction plate on the friction rod of the friction device.

Step two: and placing the sample. The sample is placed on the left negative pressure sample loading plate of the sample loading platform, the air exhaust control switch of the area is started through the control and display device, the vacuum pump is started to enable the sample to be adsorbed and fixed on the surface of the negative pressure sample loading plate, the telescopic assembly controls the negative pressure sample loading plate to extend out, the negative pressure sample loading plate and the sample on the negative pressure sample loading plate are driven by the rotating motor to rotate for 90 degrees, and then the telescopic assembly controls the bottom plate to retract (namely reset), so that the sample is placed under the friction plate.

Step three: the friction head is wetted. The amount of the solution needed for infiltrating the friction head is input into the control panel, the infusion pump pumps out the corresponding amount of the solution from the liquid storage tank, and the corresponding amount of the solution is input into the liquid outlet hole above the friction head through the conduit to infiltrate the friction head.

Step four: and (6) rubbing. The friction speed and times are input into the control panel, the friction rod is driven by the reciprocating driving piece to reciprocate horizontally as required, the friction rod drives the friction plate with load weight to reciprocate, and the soaked solution or the dry friction head or the friction block is rubbed above the sample in a reciprocating manner.

Step five: after the sample is rubbed, the extension assembly controls the extension of the negative pressure sample plate, the negative pressure sample plate and the sample on the negative pressure sample plate are driven to rotate for 90 degrees by the rotating motor, the extension assembly controls the bottom plate to retract (namely reset), when the rubbed area of the sample moves to the position right below the image acquisition device, the light source is started, the standard light source or the multiband laser is started as required, and the CCD camera focuses and acquires the image of the area to be measured of the sample; and then the extension of the negative pressure sample plate is controlled by the telescopic assembly, the negative pressure sample plate and the upper sample are driven by the rotating motor to rotate by 90 degrees, the sample is reset after rotating to the lower part, the lower-end negative pressure switch is opened, and the sample is taken down.

Step six: and comparing the image acquired according to the area to be measured of the sample with the image of the same area of the original sample acquired and recorded into the computer in advance, judging that the ink layer falls off when the area to be measured of the sample is exposed, and dividing the falling degree according to the percentage of the exposed area to the total friction area. Judging the curing degree by integrating the ink layer falling degree and the friction times of different solvent friction areas; the shot detection area image can be amplified in the control and display device, and the human eye comparison and judgment can be assisted according to the amplified image so as to ensure the detection precision.

When the wear resistance of a sample needs to be detected, the friction head can be clamped into the mounting groove for friction detection, and other operations are the same as the step of detecting the curing degree of the printing ink except that solution does not need to be added.

The sample curing degree and the wear resistance can be detected through the steps, the automation degree is high, the detection efficiency is effectively improved, the subjectivity of manual operation and judgment can be avoided, and the accuracy of the detection result is ensured.

To sum up, the utility model provides a detect printing ink solidification degree and wear resistance's equipment includes friction device, infusion set, rotatable sample platform, image acquisition device and control and display device that carries, wherein, friction device both can be used for detecting printing ink solidification degree, can also be used for detecting printing ink wear resistance. When the ink curing degree is detected, a sample is fixed by a sample carrying platform, then the required solution is provided for a friction device by the infusion device, the friction device performs reciprocating friction on the sample, after the friction is completed, the image acquisition device performs image acquisition on a friction area of the sample, the control and display device performs image comparison and displays a detection result, and finally the sample is taken down by the sample carrying platform. The detection mode of printing ink wear resistance is similar with the detection mode of printing ink solidification degree, except that need not infusion set and provide solution, all the other steps are the same, the utility model discloses a detect solidification degree and the wear resistance detection with printing ink and close as an organic wholely, realize that degree of automation is high, convenient operation, evaluation are objective and can switch over between two kinds of detection functions in a flexible way, both can raise the efficiency, simplify the deployment, extend the application, can avoid the subjective nature of manual operation and judgement again and solve the detection process and not link up the scheduling problem.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (10)

1. The utility model provides a detect printing ink solidification degree and wear resistance's equipment, its characterized in that, includes friction device, infusion set, rotatable sample platform, image acquisition device and control and display device that carry, infusion set sets up on friction device, friction device sets up in the top of carrying the sample platform, image acquisition device sets up in the one side of carrying the sample platform, image acquisition device all is connected with control and display device electricity.

2. The apparatus for detecting ink curing degree and wear resistance according to claim 1, wherein the friction device comprises a friction plate, a friction rod and a reciprocating driving member, the friction plate is connected with one end of the friction rod, the other end of the friction rod is connected with the reciprocating driving member, and the bottom of the friction plate is provided with a mounting groove for mounting the friction head.

3. The apparatus for detecting ink curing degree and wear resistance according to claim 2, wherein the friction plate has a loading groove thereon, and the loading groove is disposed on a top surface of the friction plate.

4. The apparatus for detecting ink curing degree and wear resistance according to claim 2, wherein the friction bar is a square bar, a triangular prism bar or an oval bar.

5. The apparatus for detecting ink curing degree and wear resistance according to claim 1, wherein the sample loading table comprises a rotating support, a plurality of negative pressure loading sample plates, a bottom plate, a vacuum pump and a rotating motor, the negative pressure loading sample plates are arranged around the bottom plate, the bottom plate is arranged on the rotating support, the rotating support is connected with the rotating motor, the rotating support and the bottom plate are both provided with air suction channels, the negative pressure loading sample plates are provided with a plurality of air suction through holes, the air suction channels are communicated with the air suction through holes, and the rotating support is connected with the vacuum pump through a pipeline.

6. The apparatus for detecting ink curing degree and wear resistance according to claim 5, wherein the sample stage further comprises a telescopic assembly, and the telescopic assembly is connected with the bottom plate.

7. The apparatus for detecting ink solidification and wear resistance according to claim 2, wherein the infusion device includes a liquid outlet hole, a liquid outlet conduit, a liquid storage tank and an infusion pump, the liquid outlet hole is disposed at the mounting groove and communicated with the mounting groove, one end of the liquid outlet conduit is disposed in the liquid outlet hole, and the other end of the liquid outlet conduit is communicated with the liquid storage tank through the infusion pump.

8. The apparatus for detecting ink curing degree and wear resistance according to claim 1, wherein the image capturing device includes a CCD camera and a light source, the CCD camera and the light source are both disposed on one side of the sample stage, the light source is disposed at a predetermined angle with respect to one side of the sample stage, and the CCD camera is perpendicular to one side of the sample stage.

9. The apparatus for detecting ink curing degree and wear resistance according to claim 2, wherein the number of the mounting grooves is 1-8.

10. The apparatus for detecting ink curing degree and wear resistance according to any one of claims 1-9, further comprising a frame, wherein the fluid infusion device, the rubbing device, the sample stage, the image acquisition device and the control and display device are all disposed on the frame.

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