CN218629450U - Tipping paper temperature resistance detection device - Google Patents

Abstract

The utility model provides a connect dress paper temperature resistance detection device includes: the test board is provided with a placing surface for stacking two layers of tipping paper opposite to the printing surface; a driving member configured to apply a driving force to the two tipping papers so that a stacking region of the two tipping papers is pressed against the placement surface; a heating device configured to heat the tipping paper in a state where the two layers of tipping paper are pressed by the driving member; and a paper feeding mechanism configured to apply a driving force to one of the two tipping papers away from the other tipping paper. The detection process of the tipping paper temperature resistance detection device is simple and reliable.

Description

Tipping paper temperature resistance detection device

Technical Field

The disclosure relates to the technical field of paper performance detection, in particular to a tipping paper temperature resistance detection device.

Background

The cigarette tipping paper is a printing wrapping paper for tipping the filter tip and the cigarette and is an important packing material of the cigarette. Besides the importance of appearance graphics and texts, the computer adaptability index, such as the temperature resistance of the cigarette tipping paper, is also very important. In the process of operating cigarettes in a cigarette factory, cigarettes need to pass through devices with heating functions such as seven wheels, a small box beauty device, a strip box beauty device and the like, and particularly, when the devices are subjected to factors such as equipment adjustment or halt, cigarette packets can stay in the devices with the heating functions for a long time. If the temperature resistance of the ink printed on the surface of the cigarette tipping paper is poor, the cigarette packet stays in the device with the heating function for a period of time, the ink resin printed on the cigarette tipping paper is heated and sticky, and cigarettes in the cigarette packet are stuck together, so that the quality of the cigarette is affected. Therefore, corresponding detection equipment is needed to detect the temperature resistance of the tipping paper for the cigarette so as to meet the operating requirements of products. However, in the related art known to the inventors, the way of detecting the temperature resistance of the tipping paper is complicated.

SUMMERY OF THE UTILITY MODEL

The purpose of the present disclosure is to provide a tipping paper temperature resistance detection device, so that the detection process is simple and reliable.

The utility model provides a connect dress paper temperature resistance capability detection device includes:

the test board is provided with a placing surface for stacking two layers of tipping paper opposite to the printing surface;

a driving means configured to apply a driving force to the two tipping papers so as to press a stacking region of the two tipping papers against the placement surface;

a heating device configured to heat the tipping paper in a state where the two layers of tipping paper are pressed by the driving means;

a paper feeding mechanism configured to apply a driving force to one of the two tipping papers away from the other tipping paper.

In accordance with some embodiments of the present disclosure,

the heating device is in driving connection with the driving component, and the driving component is configured to drive the heating device to be close to or far away from the placing surface so as to apply a driving force for pressing the two layers of tipping paper to the placing surface to the overlapping region of the two layers of tipping paper; or

The heating device is arranged on the placing surface, the tipping paper temperature resistance detection device further comprises a force transmission component in driving connection with the driving component, and the driving component is configured to drive the force transmission component to be close to or far away from the placing surface so as to apply driving force for enabling the two layers of tipping paper to be tightly pressed on the placing surface to the heating device.

According to some embodiments of the disclosure, the driving part comprises a cylinder, an axis of which is perpendicular to the placing surface.

According to some embodiments of the disclosure, further comprising:

the air pressure detection device is arranged on the test platform and is configured to acquire the actual air pressure of the air cylinder; and

and the air pressure adjusting part is arranged on the test bench and is configured to adjust the actual air pressure of the air cylinder so as to enable the actual air pressure to reach the preset air pressure.

According to some embodiments of the disclosure, further comprising:

the heating temperature adjusting part is arranged on the test bench and is configured to set a preset temperature of the heating device and/or obtain an actual temperature of the heating device; and/or

The heating time adjusting part is arranged on the test bench and is configured to set the preset heating time of the heating device and/or obtain the actual heating time of the heating device.

According to some embodiments of the disclosure, further comprising:

the control part is arranged on the test bench and is configured to generate a first control signal for starting a tipping paper temperature resistance detection process; and

and the control device is in signal connection with the heating device, the operating part, the heating time adjusting part and the driving component, and is configured to send a second control signal for enabling the driving component to be close to the placing surface to the driving component according to the first control signal, send a third control signal for heating the tipping paper to the heating device, send a fourth control signal for enabling the driving component to be far away from the placing surface to the driving component when the actual heating time reaches the preset heating time, and send a fifth control signal for starting the paper feeding mechanism to the paper feeding mechanism after the actual heating time reaches the preset heating time.

According to some embodiments of the disclosure, the paper feeding mechanism comprises a transport roller configured to move one of the two layers of tipping paper in a direction away from the other of the two layers of tipping paper.

According to some embodiments of the disclosure, the paper feeding mechanism comprises two conveying rollers, at least one of the conveying rollers is adjustable in position, the paper feeding mechanism has a first state in which axes of the two conveying rollers are parallel to each other and the two conveying rollers abut against each other so that the tipping paper can be clamped in a gap between the two conveying rollers, and a second state in which the two conveying rollers are disengaged from each other so as to release the tipping paper.

According to some embodiments of the present disclosure, the paper feeding mechanism further comprises a pressing member configured to press an end of one of the two tipping papers away from one of the two tipping papers against the placement surface in a state where the paper feeding mechanism applies a force to the other of the two tipping papers away from the other of the two tipping papers.

According to some embodiments of the disclosure, the heating device comprises a heating plate, the surface of the heating plate on the side far away from the placement surface and/or the placement surface is provided with a heat preservation material.

According to the tipping paper temperature resistance detection device provided by the disclosure, during testing, the heating device can heat the tipping paper stacked oppositely on two layers of printing surfaces in a mutually compressed state, and can simulate the extrusion state between the tipping paper of cigarettes when a cigarette packet stays on a device with a heating function on a production line; the paper feeding mechanism can apply driving force far away from one of the two layers of tipping paper after heating, can simulate the action of mutually peeling the two layers of tipping paper, can judge whether ink resin on the tipping paper is heated and sticky according to whether the other one of the two layers of tipping paper is taken away, and can judge whether the temperature resistance of the tipping paper meets the requirement according to the judgment. The detection device has simple detection steps and visual evaluation indexes, can truly simulate the environment of the tipping paper for cigarettes in the cigarette packaging equipment, and meets the detection requirements.

Other features of the present disclosure and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the disclosure and together with the description serve to explain the disclosure and not to limit the disclosure. In the drawings:

fig. 1 is a schematic structural diagram of a tipping paper temperature resistance detection device according to some embodiments of the disclosure.

In fig. 1, the respective reference numerals denote:

1. a heating device; 2. a thermal insulation material; 3. a drive member; 4. a support; 5. a pressing member; 6. a paper feeding mechanism; 7. a test bench; 8. a control panel; 9. a heating temperature adjusting part; 10. a heating time adjusting part; 11. an air pressure detecting device; 12. an air pressure adjusting part; 13. an operation section; 14. a power switch; s, placing the noodles.

Detailed Description

The technical solutions in the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the embodiments described are only some embodiments of the present disclosure, rather than all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the disclosure, its application, or uses. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

The relative arrangement of parts and steps, numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present disclosure unless specifically stated otherwise. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be discussed further in subsequent figures.

In the description of the present disclosure, it should be understood that the terms "first", "second", etc. are used to define the components, and are used only for convenience of distinguishing the corresponding components, and if not otherwise stated, the terms have no special meaning, and thus, should not be construed as limiting the scope of the present disclosure.

In the description of the present disclosure, it is to be understood that the orientation or positional relationship indicated by the directional terms such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc., are generally based on the orientation or positional relationship shown in the drawings, and are presented only for the convenience of describing and simplifying the disclosure, and in the absence of a contrary indication, these directional terms are not intended to indicate and imply that the device or element being referred to must have a particular orientation or be constructed and operated in a particular orientation, and therefore, should not be taken as limiting the scope of the disclosure; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Referring to fig. 1, an embodiment of the present disclosure provides a tipping paper temperature resistance detection apparatus, including a test table 7, a driving component 3, a heating device 1, and a paper feeding mechanism 6.

The test table 7 is provided with a placing surface S for stacking two layers of tipping paper with opposite printing surfaces. The driving member 3 is configured to apply a driving force to the two tipping papers to press the stacking region of the two tipping papers against the placement surface S. The heating device 1 is configured to heat the two layers of tipping paper in a state where the tipping paper is pressed by the driving member 3. The paper feed mechanism 6 is configured to apply a driving force to one of the two tipping papers away from the other.

In general, in a use state of the tipping paper temperature resistance detection device, two layers of tipping paper are stacked up and down, wherein when one of the two layers of tipping paper is an upper layer, the other is a lower layer, and when one of the two layers of tipping paper is the lower layer, the other is the upper layer.

According to the tipping paper temperature resistance detection device provided by the embodiment of the disclosure, during testing, the heating device can heat tipping paper stacked oppositely to two layers of printing surfaces in a mutually compressed state, and can simulate the extrusion state between the tipping paper of cigarettes when cigarette packets stay on a device with a heating function on a production line; the paper feeding mechanism can apply a driving force far away from one of the two layers of tipping paper after heating, can simulate the action of mutually peeling the two layers of tipping paper, can judge whether ink resin on the tipping paper is heated and sticky according to whether the other one of the two layers of tipping paper is taken away, and can judge whether the temperature resistance of the tipping paper meets the requirement or not according to the judgment. The detection device has simple detection steps and visual evaluation indexes, can truly simulate the environment of the tipping paper for cigarettes in the cigarette packaging equipment, and meets the detection requirements.

In some embodiments, as shown in figure 1, the heating device 1 is in driving communication with a driving means 3, the driving means 3 being configured to drive the heating device 1 towards or away from the placing surface S to apply a driving force to the region of overlap of the two tipping papers to cause the two tipping papers to compact against the placing surface S.

In some embodiments, which are not shown, the heating device can also be arranged on the placement surface. The tipping paper temperature resistance detection device further comprises a force transmission component in driving connection with the driving component, and the driving component is configured to drive the force transmission component to be close to or far away from the placing surface so as to apply driving force for enabling the two layers of tipping paper to be tightly pressed on the placing surface to the heating device.

In some embodiments, the driving means 3 comprise a cylinder, the axis of which is perpendicular to the resting surface S. In this way, the movable part of the cylinder can move up and down with respect to the resting surface S.

The driving force for pressing the stacking area of the two layers of tipping paper to the placing surface S is applied by the air cylinder, and the driving force can be in a proper pressure range required by the test. In the embodiment shown in fig. 1, the tipping paper temperature resistance detection device further comprises a bracket 4 arranged on the test platform 7, a fixed part of the air cylinder is fixed on the bracket 4, and a movable part is connected to the heating device 1, so that the movable part can drive the heating device 1 to approach or leave the placing surface S.

In some embodiments, the tipping paper temperature resistance detection device further includes an air pressure detection device 11 and an air pressure adjustment portion 12. The air pressure detection device 11 is arranged on the test platform 7 and is configured to obtain the actual air pressure of the air cylinder; the air pressure adjusting part 12 is disposed on the test table 7 and configured to adjust an actual air pressure of the air cylinder to a preset air pressure.

In the above embodiment, by providing the air pressure detecting device 11 and the air pressure adjusting portion 12, it is possible to facilitate the pressure to be adaptively adjusted according to different test requirements. The air pressure detecting means 11 may be a pressure gauge, and the air pressure adjusting portion 12 may be a pressure adjusting valve.

In some embodiments, the tipping paper temperature resistance detection device further comprises a heating temperature adjustment portion 9. The heating temperature adjustment part 9 is provided on the test stand 7 and is configured to set a preset temperature of the heating device 1 and/or to acquire an actual temperature of the heating device 1.

In some embodiments, the tipping paper temperature resistance detection device further comprises a heating time adjusting part 10. The heating time adjusting part 10 is disposed on the test stand 7 and configured to set a preset heating time of the heating apparatus 1 and/or obtain an actual heating time of the heating apparatus 1.

In some embodiments, the tipping paper temperature resistance detection device further comprises an operating part 13 and a control device. The operating part 13 is disposed on the test stand 7 and configured to generate a first control signal for starting a tipping paper temperature resistance detection process. The control device is in signal connection with the heating device 1, the manipulating portion 13, the heating time adjusting portion 10 and the driving member 3, and is configured to send a second control signal for bringing the driving member 3 close to the placing surface S to the driving member 3, a third control signal for heating the tipping paper to the heating device 1 according to the first control signal, send a fourth control signal for bringing the driving member 3 away from the placing surface S to the driving member 3 when the actual heating time reaches the preset heating time, and send a fifth control signal for starting the paper feeding mechanism 6 to the paper feeding mechanism 6 after the actual heating time reaches the preset heating time.

Based on the above arrangement, the driving member 3, the heating device 1, and the paper feeding mechanism 6 can be linked to each other, thereby achieving the linkage of the actions such as pressurization, heating, and paper feeding. In the above embodiment, the heating time setting part and the heating time adjusting part may adopt a temperature controller having a temperature setting function and a timing function, and the manipulating part may be provided in the form of a switch button or a human-computer interaction interface.

In the embodiment shown in fig. 1, the tipping paper temperature resistance detection device further comprises a control panel 8 arranged on the test bench 7. The above-mentioned heating temperature adjusting portion 9, heating time adjusting portion 10, air pressure detecting means 11 and air pressure adjusting portion 12 may be integrated on the control panel 8.

In some embodiments, the paper feed mechanism 6 comprises a transport roller configured to move one of the two tipping papers away from the other tipping paper.

Specifically, in some embodiments, as shown in fig. 1, the paper feed mechanism 6 includes two transport rollers, at least one of which is adjustable in position, the paper feed mechanism 6 having a first state in which the axes of the two transport rollers are parallel and the two transport rollers abut each other to enable the tipping paper to be clamped in the gap between the two transport rollers, and a second state in which the two transport rollers are disengaged from each other to release the tipping paper.

In some embodiments, not shown, the paper feeding mechanism 6 may also comprise a transport roller to which one of the two tipping papers is fixed at its end remote from the other tipping paper.

In order to avoid the influence of the friction force between the tipping papers on the detection result, a certain pressure needs to be applied to one end of the other tipping paper far away from one of the two tipping papers.

To achieve the above purpose, in some embodiments, the tipping paper temperature resistance detection device further includes a pressing member 5. The pressing member 5 is configured to press one end of the other of the two tipping papers away from one of the two tipping papers against the placement surface S in a state where the paper feeding mechanism 6 applies a force to the one of the two tipping papers away from the other of the two tipping papers.

The pressing member 5 may be a member that is powered or exerts pressure by its own weight, for example, in the embodiment shown in fig. 1, the pressing member 5 may be a press block disposed on the test table 7.

In some embodiments, the heating device 1 comprises a heating plate, the surface of which on the side remote from the placement surface S and/or the placement surface S is provided with a thermal insulation material 2.

For example, in the embodiment shown in fig. 1, the heating plate may be attached to the movable part of the cylinder, and the heat insulating material 2 may be provided on the surface of the heating plate on the side away from the placement surface S and at a position corresponding to the heating plate on the placement surface S. The heating plate is internally provided with an electric heating wire, and the size and the shape of the heating plate can be adaptively arranged according to test requirements, and for example, the heating plate can be a square of 100mm multiplied by 100 mm.

Set up insulation material 2 on the hot plate and can reduce the influence of ambient temperature to heating device's heating temperature in the test procedure, do benefit to and make the test result more accurate.

The detection method of the tipping paper temperature resistance detection device provided by the disclosure is further described with reference to fig. 1.

The tipping paper temperature resistance detection device comprises a heating device 1, a heat insulation material 2, a driving component 3, a support 4, a pressing component 5, a paper feeding mechanism 6, a test board 7, a control panel 8, a heating temperature adjusting part 9, a heating time adjusting part 10, an air pressure detection device 11, an air pressure adjusting part 12, a control part 13 and a power switch 14. The driving part 3 is an air cylinder, and the pressing part 5 is a pressing block arranged on the left side of the test board. The structure, connection and function of the respective components can be referred to the related description. The test process of the tipping paper temperature resistance detection device is as follows:

and (4) turning on a power switch 14 to determine the preset temperature, the preset air pressure and the preset heating time required by the detection of the temperature resistance of the tipping paper.

Two sheets of tipping paper as test samples are placed on the test stand 7 with the printed sides of the tipping paper on the upper tier longer than the tipping paper on the lower tier. The left end of the tipping paper positioned at the lower layer is fixed by a pressing block, and the right end of the tipping paper positioned at the upper layer is fixed on the paper feeding mechanism 6.

The cylinder and the heating device 1 are started through the operating part 13, the heating device 1 moves downwards along with the movable part of the cylinder to be close to the placing surface S and is pressed in the stacking area of two layers of tipping paper, the heating time adjusting part 10 starts timing, and when the actual heating time reaches the preset heating time, the heating device 1 moves upwards along with the movable part of the cylinder to be far away from the placing surface S and is separated from the tipping paper.

The transfer roller of paper feed mechanism 6 starts afterwards, and the pulling is located the tipping paper on upper strata, and the observation is located the tipping paper of lower floor and whether is taken away by the tipping paper that is located the upper strata to judge that two-layer tipping paper takes place the adhesion. If no adhesion occurs, the tipping paper as the test sample has good temperature resistance.

In some embodiments, the control devices described above may be implemented as a general purpose Processor, a Programmable Logic Controller (PLC), a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable Logic device, discrete Gate or transistor Logic, discrete hardware components, or any suitable combination thereof for performing the functions described in this disclosure.

Finally, it should be noted that: the above examples are intended only to illustrate the technical solution of the present disclosure and not to limit it; although the present disclosure has been described in detail with reference to preferred embodiments, those of ordinary skill in the art will understand that: modifications to the embodiments of the present disclosure or equivalent substitutions for parts of the technical features can be made, which are intended to be covered by the technical scope of the present disclosure.

Claims (10)

1. The utility model provides a connect dress paper temperature resistance detection device which characterized in that includes:

a test bench (7) provided with a placing surface (S) for stacking two layers of tipping paper with opposite printing surfaces;

a driving means (3) configured to apply a driving force to the two layers of tipping paper to press a stacking region of the two layers of tipping paper against the placing surface (S);

a heating device (1) configured to heat the two layers of tipping paper in a state where the tipping papers are pressed by the driving means (3); and

a paper feeding mechanism (6) configured to apply a driving force to one of the two layers of tipping paper away from the other of the two layers of tipping paper.

2. The tipping paper temperature resistance detection device according to claim 1,

the heating device (1) is in driving connection with the driving part (3), and the driving part (3) is configured to drive the heating device (1) to be close to or far away from the placing surface (S) so as to apply a driving force for pressing two layers of the tipping paper to the placing surface (S) to the overlapping area of the two layers of the tipping paper; or

The heating device is arranged on the placing surface, the tipping paper temperature resistance detection device further comprises a force transmission component in driving connection with the driving component, and the driving component is configured to drive the force transmission component to be close to or far away from the placing surface so as to apply driving force for enabling the two layers of tipping paper to be tightly pressed on the placing surface to the heating device.

3. The tipping paper temperature resistance detection device according to claim 1, characterized in that the drive member (3) comprises a cylinder, the axis of which is perpendicular to the placing surface (S).

4. The tipping paper temperature resistance detection device according to claim 3, characterized by further comprising:

the air pressure detection device (11) is arranged on the test bench (7) and is configured to acquire the actual air pressure of the air cylinder; and

the air pressure adjusting part (12) is arranged on the test platform (7) and is configured to adjust the actual air pressure of the air cylinder to enable the actual air pressure to reach a preset air pressure.

5. The tipping paper temperature resistance detection device according to claim 1, characterized by further comprising:

a heating temperature adjustment part (9) arranged on the test bench (7) and configured to set a preset temperature of the heating device (1) and/or obtain an actual temperature of the heating device (1); and/or

A heating time adjustment part (10) arranged on the test bench (7) and configured to set a preset heating time of the heating device (1) and/or obtain an actual heating time of the heating device (1).

6. The tipping paper temperature resistance detection device according to claim 5, characterized by further comprising:

the operation part (13) is arranged on the test bench (7) and is configured to generate a first control signal for starting a tipping paper temperature resistance detection process; and

and a control device which is in signal connection with the heating device (1), the operating part (13), the heating time adjusting part (10) and the driving part (3) and is configured to send a second control signal for enabling the driving part (3) to approach the placing surface (S) to the driving part (3) according to the first control signal, send a third control signal for heating the tipping paper to the heating device (1), send a fourth control signal for enabling the driving part (3) to get away from the placing surface (S) to the driving part (3) when the actual heating time reaches the preset heating time, and send a fifth control signal for starting the paper feeding mechanism (6) to the paper feeding mechanism (6) after the actual heating time reaches the preset heating time.

7. The tipping paper temperature-resistance detection device according to any one of claims 1 to 6, characterized in that the paper feed mechanism (6) comprises a conveying roller configured to move one of the two tipping papers in a direction away from the other of the two tipping papers.

8. The tipping paper temperature resistance detection device according to claim 7, characterized in that the paper feeding mechanism (6) comprises two conveying rollers, at least one of which is adjustable in position, and the paper feeding mechanism (6) has a first state in which the axes of the two conveying rollers are parallel and the two conveying rollers abut against each other so that the tipping paper can be clamped in a gap between the two conveying rollers, and a second state in which the two conveying rollers are disengaged from each other so as to release the tipping paper.

9. The tipping paper temperature resistance detection device according to any one of claims 1 to 6, characterized by further comprising a pressing member (5), wherein the pressing member (5) is configured to press an end of one of the two tipping papers away from one of the two tipping papers against the placement surface (S) in a state where the paper feeding mechanism (6) applies a force to the other of the two tipping papers away from the other of the two tipping papers.

10. The tipping paper temperature resistance detection device according to any one of claims 1 to 6, characterized in that the heating device (1) comprises a heating plate, and the surface of the heating plate on the side far away from the placing surface (S) and/or the placing surface (S) is/are provided with a heat insulating material (2).

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