A quick-drying detection device for ink production

The design of the lifting assembly and elastic buffer protection solves the problem of inconvenient adjustment of the position and angle of the detection probe, realizing the comprehensiveness and reliability of fast-drying properties testing for ink production, and improving testing efficiency and accuracy.

CN224500623UActive Publication Date: 2026-07-14SUIZHOU QIANTAI CHEM TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUIZHOU QIANTAI CHEM TECH CO LTD
Filing Date
2025-08-12
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The position and angle of the detection probe in the existing ink production quick-drying test device are inconvenient to adjust, making it difficult to comprehensively test the ink in different locations on the substrate. In addition, it lacks an effective buffer protection mechanism, resulting in incomplete test results and poor reliability, and the detection probe is easily damaged.

Method used

The detection probe, which employs a lifting assembly and a motor-driven mechanism, combined with an elastic component and a pressure sensor, enables flexible adjustment and buffer protection of the detection probe. The heating assembly ensures uniform drying, guaranteeing the comprehensiveness and reliability of the detection.

Benefits of technology

It enables flexible adjustment and precise positioning of the detection probe, improves the comprehensiveness and reliability of detection, avoids damage to the probe and ink surface, and improves detection efficiency and accuracy.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a quick drying detection device for ink production relates to ink production technical field. Including installation base, be provided with the installation mechanism for quick drying detection of ink production on the installation base, and installation mechanism includes: processing subassembly, the utility model opens and closes subassembly and adopts the structure of two -way screw rod and sliding slot cooperation, can accurate control the opening degree of two sets of clamping plate, can adapt to different size's printing material, and the fixing effect is stable and reliable, avoided the displacement of printing material in the drying and detection process, guaranteed the accuracy of subsequent detection, then heating component, the hot air of heat -blower main part is blown to the ink through the pipe and the nozzle of even distribution, and the nozzle is inclined distribution alignment bearing plate surface, makes hot air can more comprehensive, evenly act on the ink surface, has improved the efficiency and uniformity of ink drying, has reduced the influence that the detection result is caused to the local drying insufficiency.
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Description

Technical Field

[0001] This utility model relates to the field of ink testing technology, specifically to a quick-drying testing device for ink production. Background Technology

[0002] Ink is an essential material used in printing, which transfers patterns and text onto substrates through printing or inkjet printing. The drying speed of ink is a crucial indicator of its quality; inks with good drying speed can dry and cure quickly, improving printing efficiency and reducing smudging and other problems. Therefore, the drying speed of ink needs to be tested during the ink production process.

[0003] Existing ink production fast-drying testing devices typically use testing probes to pressure test the degree of curing on the ink surface.

[0004] However, the position and angle of the detection probe in existing detection devices are inconvenient to adjust, making it difficult to comprehensively detect ink in different locations on the substrate. Because the detection probe is fixedly installed, it cannot be flexibly adjusted according to actual detection needs, resulting in a limited detection range and an inability to accurately obtain the quick-drying data of ink in different areas, affecting the comprehensiveness and reliability of the detection results. At the same time, during the detection process, when the detection probe descends to contact the ink surface, the lack of an effective buffer protection mechanism makes it easy to damage the ink surface or the detection probe itself due to excessive impact force. Therefore, this utility model provides a quick-drying detection device for ink production. Utility Model Content

[0005] To address the shortcomings of existing technologies, this utility model provides a fast-drying property testing device for ink production. It solves the problems of inconvenient adjustment of the probe position and angle in existing testing devices, making it difficult to comprehensively test ink at different locations on the substrate. Furthermore, the fixed installation of the probe prevents flexible adjustment according to actual testing needs, resulting in a limited testing range and inaccurate acquisition of fast-drying property data for ink in different areas, affecting the comprehensiveness and reliability of the test results. Additionally, during the testing process, the lack of an effective buffering mechanism when the probe descends to contact the ink surface makes it susceptible to damage to the ink surface or the probe itself due to excessive impact.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a quick-drying property testing device for ink production, comprising a mounting base, wherein the mounting base is provided with a mounting mechanism for quick-drying property testing in ink production, the mounting mechanism comprising:

[0007] The processing component includes a support plate fixed to the upper end face of the mounting base, a clamp plate connected by an opening and closing component on the upper end face of the support plate, and heating components for ink drying on both sides of the support plate.

[0008] The detection component includes a mounting bracket fixed to one side wall of a support plate. The upper end of the mounting bracket is provided with a mounting seat connected via a lifting component. A motor body is provided on the lower end face of the mounting seat. A movable bracket is fixed to the output end of the motor body. A movable block is slidably connected to the inner wall of the movable bracket. A movable groove is formed inside the movable block. A lead screw is rotatably connected inside the movable groove, and the lead screw is threadedly connected to the movable block. A cavity is formed inside the movable block. A detection probe connected via an elastic component is disposed inside the cavity, and a pressure sensor is disposed at the top of the cavity.

[0009] Preferably, the opening and closing assembly includes a sliding groove on the upper surface of the support plate, a bidirectional screw is rotatably connected inside the sliding groove, a protrusion is fixed at the lower end of the clamping plate, and the protrusion is located on the inner wall of the sliding groove and is threadedly connected to the bidirectional screw. The clamping plate is configured in two sets.

[0010] Preferably, the heating assembly includes a hot air blower body fixed on both sides of the mounting bracket, a conduit fixed to the output end of the hot air blower body, nozzles evenly distributed inside the conduit, and the nozzles being inclined and aligned with the surface of the support plate.

[0011] Preferably, the lifting assembly includes an electric push rod fixed through the upper end of a mounting bracket, a mounting seat fixedly connected to the telescopic end of the electric push rod, a guide groove provided on the inner side of the mounting bracket, and a guide block slidably connected to the guide groove fixed on one side of the mounting seat.

[0012] Preferably, the elastic component includes a damping spring fixed inside the cavity groove, a mounting block fixed to the lower end of the damping spring, the mounting block being slidably connected to the cavity groove, a slider fixed to the lower end of the mounting block, the detection probe being located at the lower end of the slider, and a damping support rod provided on the inner ring of the damping spring, the damping support rod being fixedly connected to the top end of the cavity groove.

[0013] Preferably, a control unit is provided on one side of the upper surface of the mounting base, and the control unit includes a display screen and buttons. Beneficial effects

[0014] This invention provides a quick-drying property testing device for ink production. Compared with the prior art, it has the following advantages:

[0015] Firstly, the electric push rod in the lifting assembly of this utility model, in conjunction with the guide block and guide groove, makes the lifting of the mounting base more stable and precise, ensuring that the detection probe can accurately reach the detection position. The structure of the motor body driving the movable bracket to rotate and the lead screw driving the movable block to slide allows the position and angle of the detection probe to be flexibly adjusted, enabling the detection of ink at different positions on the substrate, improving the comprehensiveness and flexibility of the detection. The shock-absorbing spring and damping support rod in the elastic component play a buffering role, preventing damage to the ink surface or the detection probe itself due to excessive impact force when the detection probe descends. At the same time, the pressure sensor can accurately detect the pressure of the ink surface on the detection probe, providing an accurate basis for judging the ink's quick-drying properties. The display screen of the control body can intuitively display the pressure data, and the buttons are easy to operate and control, making the entire detection process more convenient and efficient. The processing components and detection components of the entire device are closely integrated, forming a complete workflow from fixing the substrate, drying the ink to detecting the ink's quick-drying properties, with a high degree of automation, improving the efficiency of ink quick-drying property detection.

[0016] Secondly, the opening and closing assembly of this utility model adopts a structure with a bidirectional screw and a sliding groove, which can precisely control the opening and closing degree of the two sets of clamps. It can adapt to substrates of different sizes, and the fixing effect is stable and reliable, avoiding displacement of the substrate during drying and testing, thus ensuring the accuracy of subsequent testing. Then, in the heating assembly, the hot air generated by the hot air blown by the hot air blown towards the ink through the duct and evenly distributed nozzles. The nozzles are inclined and aligned with the surface of the carrier plate, so that the hot air can act on the ink surface more comprehensively and evenly, improving the efficiency and uniformity of ink drying and reducing the impact of insufficient local drying on the test results. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0018] Figure 2 This is a schematic diagram of the clamping plate structure of this utility model;

[0019] Figure 3 This is a schematic diagram of the mounting bracket structure of this utility model;

[0020] Figure 4 This is a schematic diagram of the movable block structure of this utility model.

[0021] In the diagram: 1. Mounting base; 2. Bearing plate; 201. Slide groove; 202. Clamping plate; 203. Bidirectional screw; 204. Hot air blower body; 205. Conduit; 206. Nozzle; 3. Control body; 4. Mounting bracket; 401. Electric push rod; 402. Mounting seat; 403. Guide block; 404. Guide groove; 5. Motor body; 501. Movable bracket; 502. Movable groove; 503. Lead screw; 504. Movable block; 6. Cavity groove; 601. Shock-absorbing spring; 602. Mounting block; 603. Slider; 604. Detection probe; 605. Pressure sensor; 606. Damping support rod. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] Please see Figure 1-4 This utility model provides a technical solution: a quick-drying property testing device for ink production, including a mounting base 1, on which a mounting mechanism for quick-drying property testing in ink production is provided, the mounting mechanism including:

[0024] The processing components include a support plate 2 fixed to the upper surface of the mounting base 1, a clamping plate 202 connected by an opening and closing assembly on the upper surface of the support plate 2, and heating components for ink drying on both sides of the support plate 2.

[0025] The detection component includes a mounting bracket 4 fixed to one side wall of a support plate 2. The upper end of the mounting bracket 4 is provided with a mounting seat 402 connected by a lifting component. The lower end face of the mounting seat 402 is provided with a motor body 5. The output end of the motor body 5 is fixed with a movable bracket 501. A movable block 504 is slidably connected to the inner wall of the movable bracket 501. A movable groove 502 is opened inside the movable block 504. A lead screw 503 is rotatably connected inside the movable groove 502. The lead screw 503 is threadedly connected to the movable block 504. A cavity groove 6 is opened inside the movable block 504. A detection probe 604 connected by an elastic component is installed inside the cavity groove 6. A pressure sensor 605 is installed at the top of the cavity groove 6.

[0026] In a preferred embodiment, the opening and closing assembly includes a groove 201 formed on the upper surface of the support plate 2. A bidirectional screw 203 is rotatably connected inside the groove 201. A protrusion is fixed at the lower end of the clamping plate 202, and the protrusion is located on the inner wall of the groove 201 and is threadedly connected to the bidirectional screw 203. The clamping plates 202 are configured in two sets. The ink-coated substrate is placed on the platform of the support plate 2 and the substrate is fixed by the clamping plates 202.

[0027] Specifically, by rotating the bidirectional screw 203 with a handwheel, since the protrusion at the lower end of the clamping plate 202 is threadedly connected to the bidirectional screw 203 and the protrusion is located in the slide groove 201, the rotation of the bidirectional screw 203 will drive the two sets of clamping plates 202 to move closer to each other along the slide groove 201, thereby clamping and fixing the printing substrate.

[0028] In a preferred embodiment, the heating assembly includes a hot air blower body 204 fixed on both sides of the mounting bracket 4. A conduit 205 is fixed at the output end of the hot air blower body 204. Nozzles 206 are evenly distributed inside the conduit 205. The nozzles 206 are inclined and aligned with the surface of the carrier plate 2. Hot air is blown onto the ink on the substrate through the conduit 205 and nozzles 206 by the hot air blower for drying. After the operation is completed, an inspection is performed. If the ink is not dry, the drying process continues.

[0029] When the heating component is activated, the hot air blower body 204 generates hot air. The hot air is transmitted through the duct 205 and then blown onto the ink on the substrate by the nozzles 206 that are evenly distributed and inclined inside the duct 205 and aimed at the surface of the carrier plate 2. The ink is dried. If the subsequent detection component detects that the ink is not dry, the heating component will continue to work until the ink reaches a dry state.

[0030] In a preferred embodiment, the lifting assembly includes an electric push rod 401 fixed through the upper end of the mounting bracket 4, a mounting base 402 fixedly connected to the telescopic end of the electric push rod 401, a guide groove 404 provided on the inner side of the mounting bracket 4, a guide block 403 slidably connected to the guide groove 404 fixed on one side of the mounting base 402, the elastic assembly includes a shock-absorbing spring 601 fixed inside the cavity groove 6, a mounting block 602 fixed to the lower end of the shock-absorbing spring 601, the mounting block 602 slidably connected to the cavity groove 6, a slider 603 fixed to the lower end of the mounting block 602, a detection probe 604 located at the lower end of the slider 603, a damping support rod 606 provided on the inner ring of the shock-absorbing spring 601, the damping support rod 606 fixedly connected to the top end of the cavity groove 6, and a control body 3 provided on one side of the upper surface of the mounting base 1, the control body 3 including a display screen and buttons.

[0031] The pressure is detected by the downward movement of the detection probe 604, which makes contact with the ink surface.

[0032] When it is necessary to test the quick-drying properties of the ink, the lifting assembly is activated, the electric push rod 401 extends and retracts, driving the mounting base 402 to move up and down. At the same time, the guide block 403 on one side of the mounting base 402 slides in the guide groove 404 inside the mounting bracket 4, ensuring the stability of the lifting of the mounting base 402.

[0033] The mounting base 402 descends, causing the motor body 5, movable bracket 501, and other components to descend together until the detection probe 604 approaches the ink surface.

[0034] The motor body 5 is started as needed. The output end of the motor body 5 drives the movable bracket 501 to rotate, adjusting the detection angle of the detection probe 604. In addition, a motor is installed inside the movable bracket 501 to drive the rotating lead screw 503. Since the lead screw 503 is threadedly connected to the movable block 504, the movable block 504 will slide along the inner wall of the movable bracket 501, further adjusting the position of the detection probe 604 so that it is accurately aligned with the detection area.

[0035] When the detection probe 604 descends and contacts the ink surface, it will be subjected to the reaction force of the ink, which will push the slider 603 and the mounting block 602 to move upward, compressing the shock-absorbing spring 601. At the same time, the damping support rod 606 will also be compressed. The pressure sensor 605 at the top of the cavity groove 6 will sense the pressure change and transmit the pressure signal to the control body 3. The control body 3 displays the pressure data on the display screen, and the staff can judge the quick-drying properties of the ink based on the pressure data.

[0036] The motor used is model 5IK120RGN-CF, the drive motor is model 86BYGH40-1304A, the electric actuator is model DT-500, and the pressure sensor used to accurately detect the pressure of the ink surface on the detection probe is model HBMS9M.

[0037] Furthermore, any content not described in detail in this specification is existing technology known to those skilled in the art.

[0038] During operation, the ink-coated substrate is placed on the carrier plate 2. By turning the handwheel, the bidirectional screw 203 in the slide groove 201 of the carrier plate 2 is rotated. Its thread drives the two sets of clamping plates 202 to move closer to each other along the slide groove 201, thereby centered and clamping the substrate. Then, the heating component is started. The hot air generated by the hot air blower body 204 is delivered through the duct 205 to the evenly distributed and inclined nozzles 206 aligned with the carrier plate 2. The hot air is blown in a direction to the ink surface for drying.

[0039] When testing the ink's quick-drying properties, the electric push rod 401 of the lifting assembly is activated. Its telescopic end drives the mounting base 402 to move vertically. Simultaneously, the guide block 403 on one side of the mounting base 402 slides along the guide groove 404 inside the mounting bracket 4, ensuring lifting stability. During the descent of the mounting base 402, the motor body 5 and the movable bracket 501 are moved downwards, bringing the detection probe 604 close to the ink surface. According to the testing requirements, the motor body 5 drives the movable bracket 501 to rotate to adjust the detection angle. At the same time, the motor inside the movable bracket 501 drives the lead screw 503 to rotate, which, through threaded transmission, causes the movable... The movable block 504 slides along the inner wall of the movable bracket 501 to finely adjust the horizontal position of the detection probe 604. When the detection probe 604 contacts the ink surface, the ink reaction force pushes the slider 603 and the mounting block 602 upward, compressing the shock-absorbing spring 601 and simultaneously compressing the damping support rod 606. At this time, the pressure sensor 605 at the top of the cavity groove 6 senses the pressure change in real time and transmits the signal to the control body 3. Finally, the pressure data is displayed on the screen. The staff judges the ink drying status based on the pressure value. If it does not meet the standard, the heating component is restarted to continue drying until the detection data meets the requirements.

[0040] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0041] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A quick-drying property testing device for ink production, comprising a mounting base (1), characterized in that: The mounting base (1) is provided with a mounting mechanism for testing the quick-drying properties of inks used in production. The mounting mechanism includes: The processing component includes a support plate (2) fixed to the upper surface of the mounting base (1), the upper surface of the support plate (2) is provided with a clamp (202) connected by an opening and closing component, and heating components for ink drying are provided on both sides of the support plate (2). The detection component includes a mounting bracket (4) fixed to one side wall of a support plate (2). The upper end of the mounting bracket (4) is provided with a mounting seat (402) connected by a lifting component. The lower end face of the mounting seat (402) is provided with a motor body (5). The output end of the motor body (5) is fixed with a movable bracket (501). The inner wall of the movable bracket (501) is slidably connected with a movable block (504). The movable block (504) has a movable groove (502) inside. The movable groove (502) is rotatably connected with a lead screw (503) inside. The lead screw (503) is threadedly connected to the movable block (504). The movable block (504) has a cavity groove (6) inside. The cavity groove (6) is provided with a detection probe (604) connected by an elastic component inside. The top of the cavity groove (6) is provided with a pressure sensor (605).

2. The quick-drying property testing device for ink production according to claim 1, characterized in that: The opening and closing assembly includes a slide groove (201) opened on the upper surface of the support plate (2), a bidirectional screw (203) is rotatably connected inside the slide groove (201), a protrusion is fixed at the lower end of the clamping plate (202), and the protrusion is located on the inner wall of the slide groove (201) and is threadedly connected to the bidirectional screw (203). The clamping plate (202) is configured in two sets.

3. The quick-drying property testing device for ink production according to claim 1, characterized in that: The heating assembly includes a hot air blower body (204) fixed on both sides of the mounting bracket (4). A conduit (205) is fixed at the output end of the hot air blower body (204). Nozzles (206) are evenly distributed inside the conduit (205). The nozzles (206) are inclined and aligned with the surface of the support plate (2).

4. The quick-drying property testing device for ink production according to claim 1, characterized in that: The lifting assembly includes an electric push rod (401) fixed through the upper end of the mounting bracket (4), and a mounting seat (402) fixedly connected to the telescopic end of the electric push rod (401). A guide groove (404) is provided on the inner side of the mounting bracket (4), and a guide block (403) is fixed on one side of the mounting seat (402) and is slidably connected to the guide groove (404).

5. The quick-drying property testing device for ink production according to claim 1, characterized in that: The elastic component includes a damping spring (601) fixed inside the cavity groove (6), a mounting block (602) fixed to the lower end of the damping spring (601), the mounting block (602) being slidably connected to the cavity groove (6), a slider (603) fixed to the lower end of the mounting block (602), the detection probe (604) being located at the lower end of the slider (603), and a damping support rod (606) provided on the inner ring of the damping spring (601), the damping support rod (606) being fixedly connected to the top end of the cavity groove (6).

6. The quick-drying property testing device for ink production according to claim 1, characterized in that: A control body (3) is provided on one side of the upper end face of the mounting base (1), and the control body (3) includes a display screen and buttons.