CN213274194U - Automatic printing ink antiskid angle tester - Google Patents

Abstract

The utility model discloses an automatic printing ink antiskid angle tester, which comprises a bottom plate and a controller, wherein one end of the bottom plate is provided with a vertical plate, and one side of the vertical plate facing the middle of the bottom plate is provided with a lifting device vertical to the bottom plate; a sliding plate is arranged above the bottom plate, one end of the sliding plate, which is far away from the lifting device, is rotatably connected with the bottom plate, and the other end of the sliding plate is a free end; the lifting device is movably connected with the free end of the sliding plate and is used for driving the sliding plate to rotate relative to the bottom plate; a gradienter is arranged on the sliding plate, and the gradienter is provided with a digital display screen capable of displaying angles; the sliding plate is further provided with a first sensor, and the first sensor is used for detecting the movement of the weights. The utility model discloses an automatic antiskid angle tester of printing ink's simple structure, simple operation, antiskid angle that can automatic test printing ink improves the accuracy and the uniformity of test result.

Description

Automatic printing ink antiskid angle tester

Technical Field

The utility model relates to an printing ink technical field especially relates to an automatic printing ink antiskid angle tester.

Background

The anti-slip angle of the printing ink is one of important indexes of printing ink of packaging materials such as food, fast-moving products and the like, the anti-slip angle of the printing ink needs to be tested in research, development and production processes, an angle plate is generally manually pushed to test at present, and the mode has the defects of accuracy and poor consistency.

Therefore, it is urgently needed to design an automatic ink anti-skid angle tester which is convenient to operate and can automatically and accurately measure the anti-skid angle of the ink.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to provide an automatic anti-skidding angle tester of printing ink can record the anti-skidding angle of printing ink automatically, accurately.

In order to solve the above problem, the utility model discloses the technical scheme who adopts as follows:

an automatic printing ink antiskid angle tester, includes bottom plate (10) and controller (40), its characterized in that: a vertical plate (20) is arranged at one end of the bottom plate (10), and a lifting device (50) vertical to the bottom plate (10) is arranged on one side, facing the middle of the bottom plate (10), of the vertical plate (20);

a sliding plate (30) is arranged above the bottom plate (10), one end of the sliding plate (30), which is far away from the lifting device (50), is rotatably connected with the bottom plate (10), and the other end of the sliding plate (30) is a free end;

the lifting device (50) is movably connected with the free end of the sliding plate (30), and the lifting device (50) is used for driving the sliding plate (30) to rotate relative to the base plate (10);

the lifting device (50) is electrically connected with the controller (40).

Preferably, a sample clamp (33) is arranged on one side of the sliding plate (30) close to the free end.

Preferably, the lifting device (50) comprises a screw rod (51) and a nut (53) engaged with the screw rod, and a motor is arranged at the lower end of the screw rod (51); the nut (53) is provided with a support (52), one end of the support (52) is fixedly connected with the nut (53), and the other end of the support (52) is movably connected with the free end of the sliding plate (30).

Preferably, a level gauge (32) is arranged on the sliding plate (30), and the level gauge (32) is provided with a digital display screen capable of displaying angles.

Preferably, a first sensor (31) is arranged on the sliding plate (30), and the first sensor (31) is electrically connected with the controller (40).

Preferably, a second sensor (54) and a third sensor (55) are respectively arranged at two ends of the lifting device (50), and the second sensor (54) and the third sensor (55) are respectively electrically connected with the controller (40).

Preferably, the first sensor (31) is one of a photoelectric sensor or a proximity sensor;

preferably, the second sensor (54) and the third sensor (55) are one or a combination of a photoelectric sensor or a proximity sensor.

Preferably, the motor is a stepping motor and is electrically connected with a controller (40), and the controller (40) can drive the motor to rotate forwards or backwards.

Preferably, rollers are arranged between the bracket (52) and the sliding plate (30).

Compared with the prior art, the beneficial effects of the utility model reside in that:

the automatic printing ink anti-slip angle tester is simple in structure and convenient to operate, can automatically and accurately measure the anti-slip angle of printing ink, and is good in consistency of test results.

Drawings

Fig. 1 is an overall schematic view of the present invention;

fig. 2 is the schematic view of the weight placement of the present invention.

Wherein: a base plate 10; a vertical plate 20; a slide plate 30; a first sensor 31; a level 32; a sample holder 33; a controller 40; a lifting device 50; a screw rod 51; a bracket 52; a nut 53; a second sensor 54; a third sensor 55; a sample 60; a weight 70; test paper 80.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" 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. The terms "vertical," "horizontal," "left," "right," "upper," "lower," "front," "rear," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The invention will be further described with reference to the accompanying drawings and specific embodiments:

as shown in fig. 1 and 2, an automatic ink skid-proof angle tester comprises a bottom plate 10 and a controller 40, wherein one end of the bottom plate 10 is provided with a vertical plate 20, and one side of the vertical plate 20 facing the middle of the bottom plate 10 is provided with a lifting device 50 perpendicular to the bottom plate 10;

a sliding plate 30 is arranged above the bottom plate 10, one end of the sliding plate 30, which is far away from the lifting device 50, is rotatably connected with the bottom plate 10, and the other end of the sliding plate 30 is a free end;

the lifting device 50 is movably connected with the free end of the sliding plate 30, and the lifting device 50 drives the sliding plate 30 to rotate relative to the base plate 10;

the lifting device 50 is electrically connected to the controller 40.

Further, a sample holder 33 is provided on the side of the slide plate 30 near the free end. The sample holder 33 is used to hold the sample 60 and prevent the sample 60 from moving during the test.

Further, the lifting device 50 comprises a screw rod 51 and a nut 53 engaged with the screw rod, and a motor is arranged at the lower end of the screw rod 51; the nut 53 is provided with a bracket 52, one end of the bracket 52 is fixedly connected with the nut 53, and the other end of the bracket 52 is movably connected with the free end of the sliding plate 30. When the automatic lifting device works, the motor drives the screw rod 51 to rotate, and meanwhile, the bracket 52 on the nut 53 drives the free end of the sliding plate 30 to ascend or descend, so that the sliding plate 30 rotates relative to the base plate 10 and forms an included angle of 0-60 degrees with the horizontal plane.

Further, a level 32 is arranged on the sliding plate 30; the level 32 is provided with a digital display screen capable of displaying an angle, and an operator can visually read the inclination angle of the sliding plate 30 through the digital display screen.

Further, a first sensor 31 is disposed on the sliding plate 30, and the first sensor 31 is electrically connected to the controller 40. The first sensor 31 is used for detecting the movement condition of the weight 70, and the sensor is used for replacing manual visual observation, so that the accuracy and consistency of the test result can be improved.

Further, a second sensor 54 and a third sensor 55 are respectively disposed at two ends of the lifting device 50, and the second sensor 54 and the third sensor 55 are respectively electrically connected to the controller 40. The second sensor 54 and the third sensor 55 are used for detecting the lower limit position and the upper limit position of the nut 53 respectively, and prevent the lifting device 50 from exceeding the limit positions and causing damage.

Further, the first sensor 31 is one of a photoelectric sensor or a proximity sensor;

further, the second sensor 54 and the third sensor 55 are one or a combination of a photoelectric sensor or a proximity sensor.

Further, the motor is a stepping motor and is electrically connected to the controller 40; the controller 40 can drive the motor to rotate forwards or backwards; in this embodiment, the raising or lowering of the nut 53 is achieved by the motor rotating forward or backward.

Further, rollers are provided between the bracket 52 and the slide plate 30. Through the setting of gyro wheel, can improve the stationarity of operation, promote the uniformity of test result.

The operation steps of this embodiment are as follows:

1. operating a reset key on the controller to enable the nut 53 to descend to the initial position of the bottom, enabling the sliding plate 30 to be in a horizontal state at the initial position, and entering the next step after confirming that the level gauge 32 displays zero degrees;

2. flattening the sample 60 and fixing the sample on the surface of the sliding plate 30 by using a sample clamp 33;

3. as shown in fig. 2, the test paper 80 is cut into a 60 × 60mm square, then adhered to the bottom of the weight 70 with double-sided tape, and the weight 70 is placed lightly on the top of the test sample 60. The weight 70 is positioned between the first sensor 31 and the sample holder 33;

4. when the test key on the controller 40 is operated, the nut 53 is lifted at a constant speed, so that the sliding plate 30 gradually tilts, and when the weight 70 slides downwards against the friction force, the first sensor 31 detects the movement of the weight 70, and at the moment, the first sensor 31 sends a signal to the controller 40 to stop the movement of the nut 53;

5. the angle displayed on the level 32 is read, and the value of the angle is the ink skid-proof angle of the sample 60.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the present invention.

Claims (10)

1. An automatic printing ink antiskid angle tester, includes bottom plate (10) and controller (40), its characterized in that: a vertical plate (20) is arranged at one end of the bottom plate (10), and a lifting device (50) vertical to the bottom plate (10) is arranged on one side, facing the middle of the bottom plate (10), of the vertical plate (20);

a sliding plate (30) is arranged above the bottom plate (10), one end of the sliding plate (30), which is far away from the lifting device (50), is rotatably connected with the bottom plate (10), and the other end of the sliding plate (30) is a free end;

the lifting device (50) is movably connected with the free end of the sliding plate (30), and the lifting device (50) is used for driving the sliding plate (30) to rotate relative to the base plate (10);

the lifting device (50) is electrically connected with the controller (40).

2. An automatic ink skid angle tester as recited in claim 1, wherein: and a sample clamp (33) is arranged on one side of the sliding plate (30) close to the free end.

3. An automatic ink skid angle tester as recited in claim 1, wherein: the lifting device (50) comprises a screw rod (51) and a nut (53) meshed with the screw rod, and a motor is arranged at the lower end of the screw rod (51); the nut (53) is provided with a support (52), one end of the support (52) is fixedly connected with the nut (53), and the other end of the support (52) is movably connected with the free end of the sliding plate (30).

4. An automatic ink skid angle tester as recited in claim 1, wherein: a level gauge (32) is arranged on the sliding plate (30), and the level gauge (32) is provided with a digital display screen capable of displaying angles.

5. An automatic ink skid angle tester as recited in claim 1, wherein: the sliding plate (30) is provided with a first sensor (31), and the first sensor (31) is electrically connected with the controller (40).

6. An automatic ink skid angle tester as recited in claim 1, wherein: and a second sensor (54) and a third sensor (55) are respectively arranged at two ends of the lifting device (50), and the second sensor (54) and the third sensor (55) are respectively electrically connected with the controller (40).

7. An automatic ink skid angle tester as recited in claim 5, wherein: the first sensor (31) is one of a photoelectric sensor or a proximity sensor.

8. An automatic ink skid angle tester as recited in claim 6, wherein: the second sensor (54) and the third sensor (55) are one or a combination of a photoelectric sensor or a proximity sensor.

9. An automatic ink skid angle tester as recited in claim 3, wherein: the motor is a stepping motor and is electrically connected with the controller (40); the controller (40) may drive the motor in forward or reverse rotation.

10. An automatic ink skid angle tester as recited in claim 3, wherein: and rollers are arranged between the bracket (52) and the sliding plate (30).

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