CN215953324U - Cigarette case printing ink temperature resistant testing arrangement - Google Patents

Abstract

The utility model relates to a cigarette case ink temperature resistance testing device which comprises a platform, and a heating assembly, a pressing assembly and a friction assembly which are arranged on the platform, wherein the heating assembly is provided with a friction plane for heating a cigarette case, the pressing assembly is used for applying a preset pressure to the cigarette case, and the friction assembly is used for driving the pressed cigarette case to move back and forth on the friction plane. The utility model adopts one-button operation, realizes standardized operation, and has stable and reliable test result; and moreover, the working efficiency is improved, and the potential safety hazard that workers are scalded is avoided.

Description

Cigarette case printing ink temperature resistant testing arrangement

Technical Field

The utility model relates to a cigarette case ink temperature resistance testing device.

Background

In the production process of cigarettes, when a cigarette case is glued and packaged and formed, heat insulation and solidification are needed on a heating plate, and the cigarette case is pressed on the heating plate and moves relatively, so that ink on the cigarette case can be scratched, the appearance of a product is affected, and the product is unqualified. Therefore, cigarette pack inks need to be subjected to temperature resistance tests. The existing test mode is that friction is simulated manually to test, manual test action cannot be standardized, data reliability is poor, and potential safety hazards of scalding exist.

Disclosure of Invention

The utility model aims to provide a cigarette case ink temperature resistance testing device to solve the problems. Therefore, the utility model adopts the following specific technical scheme:

a cigarette case printing ink temperature resistance testing device can comprise a platform, and a heating assembly, a pressing assembly and a friction assembly which are arranged on the platform, wherein the heating assembly is provided with a friction plane for heating a cigarette case, the pressing assembly is used for applying pressure with a preset magnitude to the cigarette case, and the friction assembly is used for driving the pressed cigarette case to move back and forth on the friction plane.

Further, the heating assembly comprises a steel plate and an electric heating rod in thermal contact with the steel plate, the steel plate is embedded in the platform, the upper surface of the steel plate is flush, and the electric heating rod abuts against the lower surface of the steel plate.

Furthermore, the pressing assembly comprises a fixed support, a pressing cylinder and a pressing plate, the fixed support is fixed on the platform, the pressing cylinder is fixed on the fixed support, and the pressing plate is fixedly connected to a telescopic rod of the pressing cylinder and located right above the steel plate.

Furthermore, the pressing assembly further comprises a buffer plate, and the buffer plate is installed on the pressing plate through a spring pin and located between the pressing plate and the steel plate.

Further, the lower pressing component further comprises a spiral distance meter, the spiral distance meter is installed on the upper surface of the pressing plate, and a distance measuring rod of the spiral distance meter movably penetrates through the pressing plate to abut against the buffer plate.

Further, the friction assembly comprises a clamp, a pressing block, a propulsion cylinder and a linear motion module, the pressing block is arranged in the clamp and is driven by the pressing assembly to clamp and press the cigarette case sample to be tested on the platform, the clamp is arranged on the platform and is in driving connection with the propulsion cylinder, the propulsion cylinder is used for pushing the clamp onto the steel plate, and the propulsion cylinder is in driving connection with the linear motion module.

Further, anchor clamps include left clamp splice, right clamp splice, spring and connecting bolt, the connecting bolt activity pass right clamp splice and fixed connection in left clamp splice, the left end butt of spring right side clamp splice, right-hand member butt connecting bolt's head, the briquetting centre gripping is in left clamp splice with between the right clamp splice.

Further, the linear motion module comprises an air cylinder, a sliding rail, a sliding block and a connecting piece, wherein the air cylinder is fixed on the platform and is in driving connection with the sliding block, the sliding rail is fixed on the platform, and the sliding block is connected on the sliding rail and is fixedly connected with the propulsion air cylinder through the connecting piece.

Further, the cylinder is arranged on the right side of the propulsion cylinder, the slide rail, the cylinder and the propulsion cylinder are arranged side by side in a front-back mode, and the connecting piece is fixed on the top surfaces of the sliding block and the propulsion cylinder.

Furthermore, a control panel is arranged on the platform.

By adopting the technical scheme, the utility model has the beneficial effects that: the one-key operation is adopted, so that the standardized operation is realized, and the test result is stable and reliable; and moreover, the working efficiency is improved, and the potential safety hazard that workers are scalded is avoided.

Drawings

To further illustrate the various embodiments, the utility model provides the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments of the utility model and, together with the description, serve to explain the principles of the embodiments. Those skilled in the art will appreciate still other possible embodiments and advantages of the present invention with reference to these figures. Elements in the figures are not drawn to scale and like reference numerals are generally used to indicate like elements.

Fig. 1 is a schematic diagram of a cigarette case ink temperature resistance testing device according to an embodiment of the utility model.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings and detailed description.

As shown in figure 1, the cigarette box ink temperature resistance testing device can comprise a platform 1, and a heating component, a pressing component, a friction component and the like which are arranged on the platform 1. Wherein the platform 1 has a box shape in which a circuit board (not shown) is installed to control the actions of the respective components. The front part of the upper surface of the platform 1 is a slope on which a control panel 11 and operation buttons 12, etc. are mounted. The control panel 11 may be a touch screen and the user may make relevant settings such as heating temperature, number of rubs, pressing pressure, etc. After the test is ready, the operation button 12 is pressed to automatically complete the temperature resistance test of the cigarette case ink, which is very convenient.

The heating assembly has a friction plane for heating the cartridge. In particular, the heating assembly comprises a steel plate 2 and an electric bar (not shown) in thermal contact with said steel plate 2. The steel plate 2 is square, and the size of the steel plate can be designed according to needs. The steel plate 2 is embedded in the platform 1 and its upper surface is flush. The electric heating rod is abutted against the lower surface of the steel plate 2. The upper surface of the steel plate 2 serves as a friction plane.

The push-down assembly 3 is used to apply a predetermined amount of pressure to the cartridge. Specifically, the hold-down assembly 3 may include a fixed support 31, a hold-down cylinder 32, a pressure plate 33, a buffer plate 34, a spiral distance meter 35, and the like. Wherein, the fixed support 31 is in an inverted L shape and is fixed on the platform 1 by screws. The fixing support 31 may be machined from an aluminum profile. The hold-down cylinder 32 is fixed to the fixing bracket 31 by a screw. The pressing plate 33 is fixedly connected to the telescopic rod of the lower pressing cylinder 32. The buffer plate 34 is mounted below the pressure plate 33 and directly above the steel plate 2 by a spring pin 36. That is, the buffer plate 34 is located between the pressing plate 33 and the steel plate 2 to avoid pressing down too fast. The spiral rangefinder 35 is mounted on the upper surface of the platen 33 and its rangefinder pole is movable through the platen 33 to abut the bumper plate 34. When the pressing pressure is to be adjusted, it is possible to adjust the distance between the cushion plate 34 and the pressing plate 33 by rotating the spiral distance meter 35. In other embodiments, the bumper plate 34 and the spiral rangefinder 35 may be omitted.

The friction assembly 4 is used to move the cigarette packet under pressure back and forth on the friction plane. Specifically, the friction member 4 may include a jig 41, a pressing block 42, a propulsion cylinder 43, a linear motion module 44, and the like. The clamp 41 may include a left clamp block 411, a right clamp block 412, a spring 413, and a connection bolt 414. The left clamp block 411 and the right clamp block 412 are placed on the platform 1. The connecting bolt 414 passes through the right clamping block 412 movably and is fixedly connected to the left clamping block 411, so that the right clamping block 412 can move relative to the left clamping block 411 to realize clamping and loosening. The left end of the spring 413 abuts against the right side surface of the right clamp block 412, and the right end abuts against the head of the connecting bolt 414, so that clamping is achieved by the elastic force of the spring 413. The pressing block 42 may be placed and clamped between the left clamp block 411 and the right clamp block 412. The cigarette case sample to be tested is folded into a concave shape and is tightly attached to the bottom surface and the side surface of the pressing block 42, then is placed between the left clamping block 411 and the right clamping block 412 together with the pressing block 42 and is clamped, and then is driven by the pressing component 3 (specifically, the pressing cylinder 32 drives the buffer plate 34) to press the cigarette case sample to be tested on the platform 1 (specifically, the area outside the steel plate 2). The telescopic rod of the propulsion cylinder 43 is connected to the side of the right clamping block 412 to push the clamp 41 together with the sample of packets of cigarettes to be tested onto the steel plate 2. The cylinder body of the propulsion cylinder 43 is in driving connection with the linear motion module 44. Therefore, the cigarette case sample to be tested can be driven to rub back and forth on the upper surface (i.e., the rubbing plane) of the steel plate 2 by the linear motion module 44.

Further, the linear motion module 44 may include a cylinder 441, a slide rail 442, a slider 443, and a connecting member 444, wherein the cylinder 441 is fixed on the platform 1, disposed at the right side of the propulsion cylinder 43, and is movably connected with the cylinder body of the propulsion cylinder 43. The slide rail 442 is fixed to the platform 1 and is arranged side by side in front of and behind the propulsion cylinder 43 and the cylinder 441. The slider 443 is slidably engaged on the slide rail 442 and fixedly connected to the propulsion cylinder 43 by the connecting member 444. Specifically, the connecting member 444 is fixed to the top surfaces of the slider 443 and the propulsion cylinder 43 by screws so that the cylinder 441 can push the propulsion cylinder 43 and the clamp 41 to move back and forth together. It should be understood that the linear motion module 44 may also be motorized.

The working process of the utility model is briefly described below: firstly, setting corresponding parameters (such as temperature, pressure, friction times and the like) according to the type of the cigarette case to be tested, clamping the cigarette case sample in a clamp 41 through a pressing block 42, then pressing an operation button to automatically test, pushing the clamp 41, the pressing block 42 and the cigarette case sample onto a heated steel plate 2 through a pushing cylinder 43, pressing the pressing cylinder 32 to press on the pressing block 42 so as to apply a certain friction force to the cigarette case sample, finally, actuating a cylinder 441 to drive the cigarette case sample to move back and forth on the steel plate 2 for a preset friction time, returning each cylinder after the test is finished, taking out the cigarette case sample, checking the test result, and if the ink is not worn out, indicating that the product is qualified. The whole process is very simple to operate (one-button operation), standardized operation is realized, and the test result is stable and reliable; and moreover, the working efficiency is improved, and the potential safety hazard that workers are scalded is avoided.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. The cigarette case ink temperature resistance testing device is characterized by comprising a platform, and a heating assembly, a pressing assembly and a friction assembly which are arranged on the platform, wherein the heating assembly is provided with a friction plane for heating a cigarette case, the pressing assembly is used for applying pressure with a preset magnitude to the cigarette case, and the friction assembly is used for driving the pressed cigarette case to move back and forth on the friction plane.

2. The cigarette pack ink temperature resistance testing device according to claim 1, wherein the heating assembly includes a steel plate embedded in the platform and having an upper surface flush with an upper surface thereof, and an electric heating rod in thermal contact with the steel plate, the electric heating rod abutting against a lower surface of the steel plate, the upper surface of the steel plate being the friction plane.

3. The cigarette case ink temperature resistance testing device according to claim 2, wherein the pressing assembly comprises a fixed support, a pressing cylinder and a pressing plate, the fixed support is fixed on the platform, the pressing cylinder is fixed on the fixed support, and the pressing plate is fixedly connected to a telescopic rod of the pressing cylinder and is located right above the steel plate.

4. The cigarette pack ink temperature resistance testing device according to claim 3, wherein the hold-down assembly further comprises a buffer plate mounted on the pressure plate by a spring pin between the pressure plate and the steel plate.

5. The cigarette pack ink temperature resistance testing device according to claim 4, wherein the pressing component further comprises a spiral distance meter, the spiral distance meter is mounted on the upper surface of the pressing plate, and a distance measuring rod of the spiral distance meter movably penetrates through the pressing plate and abuts against the buffer plate.

6. The cigarette case ink temperature resistance testing device according to claim 2, wherein the friction assembly comprises a clamp, a pressing block, a propulsion cylinder and a linear motion module, the pressing block is arranged in the clamp and is driven by the pressing assembly to clamp and press the cigarette case sample to be tested on the platform, the clamp is arranged on the platform and is in driving connection with the propulsion cylinder, the propulsion cylinder is used for pushing the clamp onto the steel plate, and the propulsion cylinder is in driving connection with the linear motion module.

7. The cigarette case ink temperature resistance testing device according to claim 6, wherein the clamp comprises a left clamping block, a right clamping block, a spring and a connecting bolt, the connecting bolt movably penetrates through the right clamping block and is fixedly connected to the left clamping block, the left end of the spring abuts against the right side face of the right clamping block, the right end of the spring abuts against the head of the connecting bolt, and the pressing block is clamped between the left clamping block and the right clamping block.

8. The cigarette case ink temperature resistance testing device according to claim 7, wherein the linear motion module comprises an air cylinder, a slide rail, a slide block and a connecting member, the air cylinder is fixed on the platform and is in driving connection with the slide block, the slide rail is fixed on the platform, and the slide block is engaged on the slide rail and is fixedly connected with the propulsion air cylinder through the connecting member.

9. The cigarette case ink temperature resistance testing device according to claim 8, wherein the air cylinder is arranged at the right side of the propulsion air cylinder, the slide rail is arranged in front of and behind the air cylinder and the propulsion air cylinder, and the connecting piece is fixed on the top surfaces of the sliding block and the propulsion air cylinder.

10. The cigarette pack ink temperature resistance testing device according to claim 1, wherein a control panel is provided on the platform.

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