CN110567872B - Tension detection device for anti-adhesion degree of tipping paper printing ink - Google Patents
Tension detection device for anti-adhesion degree of tipping paper printing ink Download PDFInfo
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- CN110567872B CN110567872B CN201910957406.1A CN201910957406A CN110567872B CN 110567872 B CN110567872 B CN 110567872B CN 201910957406 A CN201910957406 A CN 201910957406A CN 110567872 B CN110567872 B CN 110567872B
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- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N19/00—Investigating materials by mechanical methods
- G01N19/04—Measuring adhesive force between materials, e.g. of sealing tape, of coating
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Abstract
The invention relates to a tension detection device for the adhesion resistance of tipping paper printing ink, which comprises a first fixed top seat, a first workbench, a first flattening piece, a first dipping piece, a first rotary fixing plate and a first dip measuring piece, wherein the first flattening piece, the first dipping piece, the first rotary fixing plate is connected with the first fixed top seat; a first rotating part is arranged on one side, close to the first workbench, of the first fixed top seat, and the first rotating fixing plate is connected with the first fixed top seat through the first rotating part; the first flattening piece and the first dipping piece are arranged on the first rotating fixing plate and are symmetrical about the first rotating piece, and the first rotating piece can drive the first rotating fixing plate to rotate around the joint of the first rotating fixing plate and the first dipping piece or the first dipping piece and the first dipping piece to move to be aligned with the first dipping degree measuring piece. The automatic detection device has the advantages of high automation degree, convenience in carrying, simple structure, simple measurement mode, quick measurement process and capability of effectively identifying the influence of the adhesion degree of the selected printing ink on the packaging paper.
Description
Technical Field
The invention relates to a detection device for tipping paper ink, in particular to a tension detection device for the anti-adhesion degree of the tipping paper ink.
Background
With the development of the modern tobacco industry and the appearance of various novel technologies, tipping paper serving as a main component of a cigarette holder of a modern cigarette is also remarkably developed, so that the tipping paper is developed for a long time in the aspects of ink printing, material construction, gold stamping marks and the like. And in the printing ink printing process of tipping paper, because printing ink used by the printing ink has certain adhesion degree, the splicing paper can be seriously bonded in the rolling process, the subsequent treatment process of the tipping paper is blocked, the manufacturing progress of cigarette holders is seriously influenced, and the damage of a production machine can be caused.
In order to solve the problem of excessive adhesion of the ink of the existing tipping paper, a device capable of detecting whether the adhesion degree between the tipping paper coated with the ink is serious or not needs to be designed. However, the current devices for measuring the blocking degree of ink all use a rotary viscometer or an ultrasonic viscometer, such as a device for measuring the viscosity of high viscosity fluid disclosed in patent application No. CN201120291163.1, and although the blocking coefficient of ink can be accurately measured, the blocking degree of ink coated tipping paper cannot be detected, and thus the detection of the blocking degree of ink coated tipping paper cannot be solved.
Therefore, a tension detection device for detecting the adhesion resistance of the paper-loading ink, which has the advantages of simple structure, simple measurement mode, quick measurement process and capability of effectively identifying the influence of the adhesion resistance of the selected ink on the paper-loading, becomes necessary.
Disclosure of Invention
The invention provides a tension detection device for the adhesion resistance of tipping paper ink, which is used for detecting the adhesion resistance of the tipping paper after printing the ink and can effectively solve the technical problem.
The invention provides a tension detection device for the adhesion resistance of tipping paper printing ink, which comprises a first fixed top seat, a first workbench, a first flattening piece, a first dipping piece, a first rotary fixing plate and a first adhesion measuring piece, wherein the first flattening piece, the first dipping piece, the first rotary fixing plate and the first adhesion measuring piece are connected with the first fixed top seat; a first rotating part is arranged on one side, close to the first workbench, of the first fixed top seat, and the first rotating fixing plate is connected with the first fixed top seat through the first rotating part; the first flattening part and the first dipping part are both arranged on the first rotary fixing plate and are symmetrical about the first rotary part, and the first rotary part can drive the first rotary fixing plate to rotate around the joint of the first rotary fixing plate and the first rotary fixing plate so as to drive the first flattening part or the first dipping part to move to be aligned with the first dipping degree measuring part; the first viscosity measuring piece can be used for bonding paper to be measured through printing ink, and the first flattening piece can press the paper to be measured along the direction close to the first viscosity measuring piece so as to bond the paper to be measured and one end, coated with the printing ink, of the first viscosity measuring piece together; the first staining and pulling piece can stain and pull paper to be detected along the direction far away from the first staining degree measuring piece, and then the pulling force required for the paper to be detected to be separated from the first staining degree measuring piece can be measured by matching with the first staining degree measuring piece, so that the adhesion resistance of the tipping paper ink can be measured.
Furthermore, the one end of the first piece that flattens is equipped with first telescopic link, and the one end that first fixed footstock was kept away from to first telescopic link is equipped with first dull and stereotyped, is equipped with the first indent that can hold first dull and stereotyped in the first workstation, and first degree of being stained with is measured the piece and is located first indent tank bottom, and then makes first dull and stereotyped can make the paper that awaits measuring bond together with the one end that scribbles printing ink of first degree of being stained with measurement piece under the promotion of first telescopic link.
Furthermore, one end of the first dipping piece is provided with a second telescopic rod, a first accommodating groove is arranged in the second telescopic rod, a first elastic contraction rope is fixedly connected to the bottom of the first accommodating groove, and one end of the first elastic contraction rope is connected with a first adhesive plate; the first elastic contraction rope can pull the first adhesive plate to abut against the second telescopic rod; the second telescopic link can promote first adhesion board and the paper that awaits measuring bonds mutually, and then can drive the shrink of second telescopic link and will survey the paper and take away from first degree of viscosity measuring piece.
Furthermore, one end of the first adhesion plate is coated with super glue, and the adhesion degree of the super glue is far larger than that of the tipping paper ink.
Furthermore, a plurality of first limiting pieces are arranged on the second telescopic rod, a first telescopic frame is arranged on one side, away from the second telescopic rod, of each first limiting piece, a first limiting groove is formed in each first telescopic frame, and a first limiting piece corresponding to the first limiting groove is arranged at one end of each first bonding plate; the first limiting piece can drive the first expansion bracket to move to the first limiting groove to be clamped with the first limiting block.
Further, the first viscosity measuring piece comprises a second dip pull plate which is abutted with the bottom of the first pressing groove and used for coating tipping paper ink, and the first dip pull plate can be matched with the first flattening piece to bond paper to be detected; the second is stained with the arm-tie and is kept away from the one end in first pressing groove and evenly is equipped with a plurality of second elastic contraction ropes, and the other end of second elastic contraction rope is equipped with the tension sensing board, and when the paper that awaits measuring is stained with the pulling member by first and pulls open, the tension sensing board can cooperate second elastic contraction rope, second to be stained with the arm-tie and measure the size of the biggest tensile force that receives.
Further, still include the controller, the controller is connected with first rotating member, first flattening, first being stained with respectively and draws piece, first locating part, the first degree of being stained with measuring piece electricity, and the controller can also show the first tensile force measuring value of being stained with the degree measuring piece, and then shows the anti-adhesion degree that connects dress paper printing ink.
According to the invention, each electric device is controlled by the controller, so that the automation degree of the device is improved, the device is easier to operate, and meanwhile, the controller can also accurately display and record the measured value of the first viscosity measuring piece; the positions of the first flattening piece and the first sticking and pulling piece are adjusted through the first rotating piece, so that the size of the device is reduced, and the device is convenient to carry and use; according to the invention, the paper to be measured is pressed to be bonded with the first viscosity measuring part through the first flattening part, so that the influence of manual bonding on the measuring result is prevented. The measurement accuracy is improved by converting the ink viscous force into the elastic tension by using the first elastic contraction string and the second elastic contraction string.
Therefore, the automatic detection device has the advantages of high automation degree, convenience in carrying, simple structure, simple measurement mode, quick measurement process and capability of effectively identifying the influence of the adhesion degree of the selected printing ink on the packaging paper.
Drawings
FIG. 1 is a schematic diagram of an overall structure of a tension detection device for blocking resistance of tipping paper ink according to the present invention;
FIG. 2 is a diagram showing a usage of the tension detecting device for blocking resistance of a tipping paper ink of the present invention;
FIG. 3 is a partially enlarged view A of the overall structure of a tension detecting device for blocking resistance of a tipping paper ink according to the present invention;
FIG. 4 is a partial enlarged view B showing a usage pattern of the tension detecting device for blocking resistance of the tipping paper ink of the present invention;
in the figure: 1-a first fixed top seat, 11-a first rotating piece, 2-a first rotating fixed plate, 3-a first flattening piece, 31-a first telescopic rod, 32-a first flattening plate, 4-a first sticking and pulling piece, 41-a second telescopic rod, 411-a first accommodating groove, 412-a first elastic contraction rope, 413-a first sticking and pulling plate, 42-a first limiting piece, 421-a first telescopic frame, 422-a first limiting groove, 423-a first limiting block, 5-a first workbench, 51-a first pressing groove, 6-a first viscosity measuring piece, 61-a second sticking and pulling plate, 62-a second elastic contraction rope, 63-a tension sensing plate and 7-a controller.
Detailed Description
In order to more clearly illustrate the embodiments of the present invention and/or the technical solutions in the prior art, the following description will explain specific embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from them without inventive effort. In addition, the term "orientation" merely indicates a relative positional relationship between the respective members, not an absolute positional relationship.
As shown in figure 1, the invention provides a tension detection device for the anti-blocking degree of tipping paper ink, which is mainly used for detecting the mutual adhesion degree of tipping paper after being coated with corresponding ink, and further detecting the tipping paper ink which is early in adverse effect due to overlarge adhesion degree in the production, transportation, packaging, processing and use of the tipping paper; in the test of the present invention, a plurality of sets of tests are performed on one ink to obtain the closest test result. Meanwhile, the ink adhesion standard in the invention is determined by an inspector, and can be set according to the environmental temperature, humidity and illumination intensity of a manufacturing place or a region to be sold.
The equipment in the embodiment of the invention comprises a first fixed top seat 1, a first workbench 5, a first flattening piece 3, a first sticking and pulling piece 4, a first rotary fixing plate 2 connected with the first fixed top seat 1, and a first viscosity measuring piece 6 arranged on one side of the first workbench 5 close to the first rotary fixing plate 2.
As shown in fig. 1 or 2, a first rotating member 11 is disposed on a side of the first fixed top base 1 close to the first workbench 5, the first rotating fixing plate 2 is connected to the first fixed top base 1 through the first rotating member 11, the first flattening member 3 and the first adhesion member 4 are both disposed on the first rotating fixing plate 2 and are symmetrical with respect to the first rotating member 11, and the first rotating member 11 can drive the first rotating fixing plate 2 to rotate around a connection point thereof, so as to drive the first flattening member 3 or the first adhesion member 4 to move to align with the first viscosity measuring member 6.
As shown in fig. 2, a first telescopic rod 31 is disposed at one end of the first flattening member 3, a first flattening plate 32 is disposed at one end of the first telescopic rod 31, which is far away from the first fixed top base 1, a first pressing groove 51 is disposed in the first workbench 5, which can accommodate the first flattening plate 32, the first viscosity measuring member 6 is disposed at the bottom of the first pressing groove 51, and the first flattening plate 32 can be pushed by the first telescopic rod 31 to bond the paper to be measured and the end of the first viscosity measuring member 6, which is coated with ink, together.
In the invention, the first viscosity measuring part 6 comprises a second sticky and pulling plate 61 abutted against the bottom of the first pressing groove 51, the second sticky and pulling plate 61 is used for coating and placing tipping paper ink, the ink can be arranged on the second sticky and pulling plate in a digital printing or electroplating way, and the like, and then the first pressing part 3 can be matched to bond paper to be detected; one end, far away from the first pressing groove 51, of the second sticking and pulling plate 61 is uniformly provided with a plurality of second elastic contraction ropes 62, the other end of each second elastic contraction rope 62 is provided with a tension sensing plate 63, and when paper to be detected is pulled open by the first sticking and pulling piece 4, the tension sensing plate 63 can be matched with the second elastic contraction ropes 62 and the second sticking and pulling plate 61 to measure the maximum tension. The second elastic contraction rope 62 is used for preventing the problem that the instantaneous tension is difficult to be accurately measured when the second sticking and pulling piece 61 is instantly pulled away from the paper to be measured, and the second sticking and pulling plate 61 and the first elastic contraction rope 412 solve the problem by converting the ink sticking force into the elastic tension.
As shown in fig. 3 and 4, a second telescopic rod 41 is disposed at one end of the first adhesive pull member 4, a first accommodating groove 411 is disposed in the second telescopic rod 41, a first elastic contraction rope 412 is fixedly connected to a groove bottom of the first accommodating groove 411, and a first adhesive pull plate 413 is connected to one end of the first elastic contraction rope 412; the first elastic contraction rope 412 can pull the first sticky pulling plate 413 to abut against the second expansion link 41; one end of the first sticky pull plate 413 is coated with a super glue, and the adhesion degree of the super glue is far greater than that of the tipping paper ink. The second telescopic rod 41 can push the first sticking and pulling plate 413 to be bonded with the paper to be measured, so that the second telescopic rod 41 can be driven to contract to take the paper to be measured away from the first viscosity measuring piece 6, and in the whole process, the first viscosity measuring piece 6 can measure the tension borne by the second sticking and pulling plate 61, so that the critical tension value of the paper to be measured which can be pulled away is obtained.
In the present invention, a plurality of first limiting members 42 are disposed on the second telescopic rod 41, a first telescopic frame 421 is disposed on a side of the first limiting members 42 away from the second telescopic rod 41, a first limiting groove 422 is disposed in the first telescopic frame 421, and a first limiting block 423 corresponding to the first limiting groove 422 is disposed at one end of the first sticky pull plate 413; the first limiting member 42 can drive the first expansion bracket 421 to move to the first limiting groove 422 to be engaged with the first limiting block 423, and further can cooperate with the second expansion link 41 to push the first sticky-pull plate 413 to be adhered to the paper to be detected. When the paper to be detected is pulled away, the first limiting member 42 drives the first expansion bracket 421 to move to the first limiting block 423 and separate from the first limiting groove 422.
As shown in fig. 1 or 2, the present invention further includes a controller 7, the controller 7 is electrically connected to the first rotating member 11, the first flattening member 3, the first adhesion-pulling member 4, the first limiting member 42, and the first viscosity measuring member 6, respectively, the controller 7 can also display a tensile force measurement value of the first viscosity measuring member 6, and further can display the anti-blocking degree of the tipping paper ink, and meanwhile, the controller 7 also enables a user to control the apparatus more conveniently, and can also play a role in improving the measurement accuracy.
The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.
Claims (6)
1. The utility model provides a connect tensile force detection device of anti-adhesion degree of dress paper printing ink which characterized in that: the viscosity measurement device comprises a first fixed top seat (1), a first workbench (5), a first flattening piece (3), a first sticking and pulling piece (4), a first rotary fixing plate (2) connected with the first fixed top seat (1), and a first viscosity measurement piece (6) arranged on one side, close to the first rotary fixing plate (2), of the first workbench (5); a first rotating part (11) is arranged on one side, close to the first workbench (5), of the first fixed top seat (1), and the first rotating fixed plate (2) is connected with the first fixed top seat (1) through the first rotating part (11); the first flattening piece (3) and the first sticking and pulling piece (4) are arranged on the first rotary fixing plate (2) and are symmetrical about the first rotary piece (11), and the first rotary piece (11) can drive the first rotary fixing plate (2) to rotate around the joint of the first rotary fixing plate and the first flattening piece (3) or the first sticking and pulling piece (4) to be driven to move to be aligned with the first viscosity measuring piece (6); the first viscosity measuring piece (6) can be bonded with paper to be measured through printing ink, and the first flattening piece (3) can press the paper to be measured along the direction close to the first viscosity measuring piece (6) so as to bond the paper to be measured with one end, coated with the printing ink, of the first viscosity measuring piece (6); the first sticking and pulling piece (4) can stick and pull the paper to be detected along the direction far away from the first viscosity measuring piece (6), and then the pulling force required by the paper to be detected to be separated from the first viscosity measuring piece (6) can be measured by matching with the first viscosity measuring piece (6), so that the blocking resistance of the tipping paper ink can be measured; the one end of first piece (3) that flattens is equipped with first telescopic link (31), the one end that first fixed footstock (1) was kept away from in first telescopic link (31) is equipped with first dull and stereotyped (32), be equipped with in first workstation (5) and hold first indent (51) of first dull and stereotyped (32), first viscosity measurement piece (6) are located first indent (51) tank bottom, and then make first indent (32) can make the paper that awaits measuring bond together with the one end that scribbles printing ink of first viscosity measurement piece (6) under the promotion of first telescopic link (31).
2. A tensile force testing device for blocking resistance of a tipping paper ink according to claim 1, wherein: a second telescopic rod (41) is arranged at one end of the first sticking and pulling piece (4), a first accommodating groove (411) is formed in the second telescopic rod (41), a first elastic contraction rope (412) is fixedly connected to the bottom of the first accommodating groove (411), and a first sticking and pulling plate (413) is connected to one end of the first elastic contraction rope (412); the first elastic contraction rope (412) can pull the first sticky pulling plate (413) to be abutted with the second telescopic rod (41); the second telescopic rod (41) can push the first sticking and pulling plate (413) to be stuck with the paper to be measured, and then the second telescopic rod (41) can be driven to contract to take the paper to be measured away from the first viscosity measuring piece (6).
3. A tensile force testing device for blocking resistance of tipping paper ink according to claim 2, wherein: one end of the first sticky pull plate (413) is coated with super glue, and the adhesion degree of the super glue is far larger than that of the tipping paper ink.
4. A tensile force testing device for blocking resistance of tipping paper ink according to claim 2, wherein: a plurality of first limiting parts (42) are arranged on the second telescopic rod (41), a first telescopic frame (421) is arranged on one side, away from the second telescopic rod (41), of each first limiting part (42), a first limiting groove (422) is arranged in each first telescopic frame (421), and a first limiting block (423) corresponding to the first limiting groove (422) is arranged at one end of each first sticky pull plate (413); the first limiting piece (42) can drive the first expansion bracket (421) to move to the first limiting groove (422) to be clamped with the first limiting piece (423).
5. A tensile force testing device for blocking resistance of a tipping paper ink according to claim 1, wherein: the first viscosity measuring piece (6) comprises a second sticky pull plate (61) which is abutted with the bottom of the first pressing groove (51), and the second sticky pull plate (61) is used for coating and placing tipping paper ink so as to be matched with the first pressing piece (3) to bond paper to be measured; one end, far away from the first pressing groove (51), of the second adhering and pulling plate (61) is evenly provided with a plurality of second elastic contraction ropes (62), the other end of each second elastic contraction rope (62) is provided with a tension sensing plate (63), and when paper to be detected is pulled open by the first adhering and pulling piece (4), the tension sensing plate (63) can be matched with the second elastic contraction ropes (62) and the second adhering and pulling plate (61) to measure the maximum tension.
6. A tensile force testing device for blocking resistance of a tipping paper ink according to claim 1, wherein: still include controller (7), controller (7) are connected with first rotating member (11), first flattening (3), first gluing and draw piece (4), first locating part (42), first viscosity measurement piece (6) electricity respectively, controller (7) can also show the pulling force measured value of first viscosity measurement piece (6).
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| CN111426628A (en) * | 2020-03-23 | 2020-07-17 | Oppo广东移动通信有限公司 | Method for testing adhesive force of printing ink |
| CN111721702B (en) * | 2020-06-22 | 2022-04-01 | 云南中烟工业有限责任公司 | Method for measuring lip adhesion force of cigarette tipping paper |
| CN112255140B (en) * | 2020-10-10 | 2023-07-25 | 柳州工学院 | Intelligent detector for liquid density |
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| CN207502368U (en) * | 2017-11-06 | 2018-06-15 | 广西真龙彩印包装有限公司 | A kind of printed matter surface ink adhesion detection device |
| CN108414439A (en) * | 2018-02-05 | 2018-08-17 | 杭州电子科技大学 | Spool and valve pocket interface time-varying adhesion strength characteristic test method and device |
| CN208736789U (en) * | 2018-08-29 | 2019-04-12 | 湖北中烟工业有限责任公司 | A kind of paper adhesion strength detection device |
| CN209356379U (en) * | 2018-09-25 | 2019-09-06 | 靖江市精益胶粘制品有限公司 | A kind of adhesive tape viscosity detecting device |
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