CN111496883B - Cutting machine for paper tube generation and paper tube cutting method thereof - Google Patents

Abstract

The invention provides a cutting machine for paper tube generation and a paper tube cutting method thereof, which mainly comprise a fixed rod, a winding mechanism, an angle measuring unit, a length measuring unit, a cutter and a driving mechanism. The winding mechanism winds at least one paper tape on the fixed rod to form a paper tube, the angle measuring unit is used for measuring an angle of the winding mechanism or the paper tape relative to the fixed rod, and the length measuring unit is used for measuring a conveying length of the paper tape. The driving mechanism determines the displacement speed of the cutter along the fixed rod according to the angle and the conveying length, so that the displacement speed of the cutter is similar to the paper tube generation speed on the fixed rod, and the paper tube is prevented from being extruded on the side surface of the cutter or pulled by the cutter, thereby improving the durability of the cutter and the quality of the cut paper tube.

Description

Cutting machine for paper tube generation and paper tube cutting method thereof

Technical Field

The invention relates to a paper tube generation and cutting machine, wherein the displacement speed of a cutter is similar to the paper tube generation speed on a fixed rod, so that the durability of the cutter and the quality of the cut paper tube are improved.

Background

The paper tube generating and cutting machine is mainly used for winding at least one paper tape to form a paper tube, and cutting the paper tube through a cutter to generate the paper tube with a preset length. The paper tube has various purposes, for example, the paper tube can be used as a paper straw, and toilet paper can be wound on the paper tube to form a roll type toilet paper.

Generally, in the process of cutting paper tubes, the paper tube forming and cutting machine still continuously forms paper tubes, and the formed paper tubes push the side edges of the cutters, so that the cutting quality of the paper tubes is affected, and the cutters are more likely to be damaged.

Disclosure of Invention

In order to solve the above-mentioned problems, the present invention provides a novel paper tube forming and cutting machine, which can effectively improve the quality of paper tube cutting and is more beneficial to prolonging the service life of the cutter.

An object of the present invention is to provide a paper tube forming and cutting machine, wherein the displacement direction and displacement speed of the cutter are the same as the forming direction and forming speed of the paper tube when the cutter cuts the paper tube, so as to improve the cutting quality of the paper tube and prolong the service life of the cutter.

An object of the present invention is to provide a paper tube forming and cutting machine, which is mainly to wind at least one paper tape on a fixing rod by a winding mechanism to form a paper tube. In addition, the angle of the winding mechanism or the paper tape relative to the fixed rod is measured by an angle measuring unit, and the conveying length of the paper tape is measured by a length measuring unit. The driving mechanism determines the displacement speed of the cutter along the fixed rod according to the angle and the conveying length, so that the displacement speed of the cutter is the same as or similar to the paper tube generation speed on the fixed rod, and the paper tube is prevented from being extruded by the paper tube to the side surface of the cutter or being pulled by the cutter, thereby improving the durability of the cutter and the quality of the cut paper tube.

An objective of the present invention is to provide a paper tube cutting method, which comprises measuring an angle of a winding mechanism or a paper tape relative to a fixing rod, and measuring a conveying length of the paper tape. And then calculating the generation speed of the paper tube according to the angle, the conveying length, the width of the paper tape and/or the radius of the fixing rod, and adjusting the displacement speed of the cutter according to the generation speed of the paper tube so as to improve the durability of the cutter and the quality of the cut paper tube.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

a cutting station for paper tube generation, comprising: a fixed rod; the winding mechanism is adjacent to the fixed rod, wherein the fixed rod and the winding mechanism receive a paper tape, and the paper tape is wound on the fixed rod through the winding mechanism to form a paper tube; an angle measuring unit for measuring an angle of the winding mechanism or the paper tape relative to the fixing rod; a length measuring unit, which is arranged at the upstream of the fixed rod and the winding mechanism and is used for measuring the conveying length of the paper tape; a cutter adjacent to the fixed rod and used for cutting the paper tube on the fixed rod; and a driving mechanism connected with the cutter and adjusting the displacement speed of the cutter along the fixed rod according to the angle and the conveying length.

The invention also provides a paper tube cutting method for cutting the paper tube generated by the paper tube generating cutting machine, which comprises the following steps: measuring a transport length of at least one paper tape; conveying the paper tape to a fixing rod and a winding mechanism; measuring a feeding angle of the paper tape relative to the fixed rod; winding the paper tape on the fixed rod to form a paper tube; and adjusting the displacement speed of a cutter along the fixed rod according to the conveying length and the feeding angle.

The cutting machine for paper tube production, wherein the winding mechanism comprises a connecting seat, a driving wheel, at least one rotating wheel and a belt body, wherein the driving wheel and the rotating wheel are arranged on the connecting seat, the belt body is wound on the driving wheel, the rotating wheel and the fixing rod, the paper belt is positioned between the belt body and the fixing rod, and when the driving wheel rotates, the belt body is driven to wind the paper belt on the fixing rod to form the paper tube.

The cutting machine for paper tube production comprises at least one sliding rail connected with the cutter through at least one sliding seat, and the driving device drives the cutter and the sliding seat to move along the sliding rail.

The cutting machine for paper tube generation comprises at least one conveying wheel positioned at the upstream of the fixed rod and the winding mechanism and used for conveying paper tapes to the fixed rod and the winding mechanism, and the length detection unit is connected with the conveying wheel and used for calculating the number of turns of the conveying wheel so as to obtain the conveying length of the paper tapes.

The cutting machine for paper tube generation comprises a calculation unit, an angle measurement unit, a length measurement unit and a driving mechanism, wherein the calculation unit is electrically connected with the angle measurement unit, the length measurement unit and the driving mechanism, the generation speed of the paper tube is pushed out according to the received angle and the conveying length, and the speed of the driving mechanism for driving the cutter to move is controlled according to the generation speed of the paper tube.

The calculating unit receives the radius of the fixing rod and the width of the paper tape, and calculates the generation speed of the paper tube according to the angle, the conveying length, the radius of the fixing rod and the width of the paper tape.

The paper tube cutting method comprises the following steps: and measuring an angle between the winding mechanism and the fixed rod to calculate the feeding angle of the paper tape relative to the fixed rod.

The paper tube cutting method comprises the following steps: obtaining the radius of the fixed rod and the width of the paper tape; and adjusting the displacement speed of the cutter along the fixed rod according to the conveying length, the feeding angle, the radius of the fixed rod and the width of the paper tape.

The paper tube cutting method comprises the following steps: obtaining an overlapping area of adjacent paper tapes on the paper tube; and adjusting the displacement speed of the cutter along the fixed rod according to the conveying length, the feeding angle, the radius of the fixed rod, the width of the paper tape and the overlapping area.

Drawings

Fig. 1 is a schematic view of a cutting machine for paper tube production according to an embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a fixing rod and a winding mechanism of an embodiment of a cutting machine for paper tube production according to the present invention.

Fig. 3 is an enlarged schematic view of a cutter of an embodiment of a cutting machine for paper tube production according to the present invention.

Fig. 4 is a schematic view of a cutting machine for paper tube production according to another embodiment of the present invention.

Fig. 5 is a schematic view showing the construction of a cutting machine for paper tube production according to another embodiment of the present invention.

Fig. 6 is a schematic view showing the construction of an embodiment of a paper tube produced by the cutting machine for paper tube production according to the present invention.

Fig. 7 is a schematic view showing the construction of a paper tube produced by the cutting machine for paper tube production according to still another embodiment of the present invention.

Fig. 8 is a flowchart illustrating steps of an embodiment of a paper tube cutting method of a cutting machine for paper tube production according to the present invention.

Reference numerals illustrate:

10 paper tube generation and cutting machine; 11 fixing rods; 110 fixing frame; 121 a paper strap; 123 paper tubes; 125 overlap areas; 13 a winding mechanism; 131 connecting seats; 133 driving wheels; 135 rotating wheels; 137 belt body; 14 an angle measurement unit; 151 cutters; 1511 plate body; 1512 through holes; 1513 knife flywheel; 1515 swing arms; 153 drive mechanism; 161 slide rail; 163 sliders; 171 length measurement unit; 173 conveying wheels; 18 a calculation unit; 24 angle measurement unit.

Detailed Description

Referring to fig. 1 and 2, a schematic structure diagram of an embodiment of a cutting machine for paper tube production and an enlarged schematic diagram of a fixing rod and a winding mechanism according to the present invention are shown. As shown in the drawing, the paper tube forming and cutting machine 10 mainly includes a fixing rod 11, a winding mechanism 13, an angle measuring unit 14, a length measuring unit 171, a cutter 151 and a driving mechanism 153, wherein the winding mechanism 13 and the fixing rod receive a paper tape 121, and the paper tape 121 is wound on the fixing rod 11 by the winding mechanism 13 to form a paper tube 123.

The fixing rod 11 is cylindrical or elongated, and the winding mechanism 13 is adjacent to the fixing rod 11, for example, the fixing rod 11 may be fixed on a fixing frame 110, so that the fixing rod 11 cannot rotate or displace relative to the fixing frame 110.

In an embodiment of the invention, the winding mechanism 13 includes a connecting base 131, a driving wheel 133, at least one rotating wheel 135 and a belt 137, wherein the connecting base 131 can be a plate, and the driving wheel 133 and the rotating wheel 135 are disposed on the connecting base 131 and can rotate relative to the connecting base 131. The belt 137 is wound around the driving wheel 133 and the rotating wheel 135, and when the motor drives the driving wheel 133 to rotate, the belt 137 drives the rotating wheel 135 to rotate.

The belt 137 of the winding mechanism 13 is wound around the fixed rod 11, as shown in fig. 2, for example, the driving wheel 133 and the rotating wheel 135 of the winding mechanism 13 may be located below and above the fixed rod 11, respectively, and the belt 137 located between the driving wheel 133 and the rotating wheel 135 is wound around the fixed rod 11. When the driving wheel 133 rotates, the belt 137 will be displaced with respect to the fixing lever 11.

In practical application, at least one paper tape 121 is placed in the gap between the fixing rod 11 and the tape body 137, and the driving wheel 133 rotates to drive the tape body 137 to displace relative to the fixing rod 11, so that the tape body 137 winds the paper tape 121 between the fixing rod 11 and the tape body 137 on the fixing rod 11, and generates a paper tube 123. The paper tube 123 grows along the fixing rod 11 toward the cutter 151 until the driving wheel 133 stops rotating. In the present embodiment, a paper tape 121 is wound around the fixing rod 11 to form the paper tube 123, and in a different embodiment, a plurality of paper tapes 121 are wound around the fixing rod 11 to form the paper tube 123.

In an embodiment of the present invention, the connecting base 131 is connected to the fixing frame 110 and can swing relative to the fixing frame 110. When the connecting base 131 swings relative to the fixing rod 11, the angle of the belt 137 wound around the fixing rod 11 will be changed, so as to adjust the feeding angle of the paper tape 121 relative to the fixing rod 11. The detailed construction of the winding mechanism 13 described above is only one embodiment of the present invention, and is not intended to limit the scope of the claims.

The cutter 151 is adjacent to the fixing rod 11 and is used to cut the paper tube 123 on the fixing rod 11 to form a fixed length of paper tube 123. In an embodiment of the present invention, as shown in fig. 3, the cutter 151 includes a plate 1511, a plurality of cutter wheels 1513 and a plurality of swing arms 1515, wherein each cutter wheel 1513 is connected to the plate 1511 through one swing arm 1515, for example, the number of cutter wheels 1513 may be three.

The plate 1511 is provided with a through hole 1512, the fixing rod 11 and/or the paper tube 123 pass through the through hole 1512 on the plate 1511, and a plurality of knife wheels 1513 are looped around the through hole 1512. The swing arm 1515 may drive the connected blade wheel 1513 to swing relative to the plate 1511, such that the blade wheel 1513 is displaced relative to the through hole 1512, the fixing rod 11, and/or the paper tube 123 on the plate 1511, for example, by driving the swing arm 1515 to swing by a motor. When cutting the paper tube 123, the swing arm 1515 can drive the knife wheel 1513 to move towards the fixing rod 11 and/or the paper tube 123, so as to cut the paper tube 123 on the fixing rod 11. The above detailed configuration of the cutter 151 is only one embodiment of the present invention, and is not intended to limit the scope of the claims.

The cutter 151 is connected to a driving mechanism 153, wherein the driving mechanism 153 is used for driving the cutter 151 to move along the fixing rod 11, for example, the driving mechanism 153 may be a stepper motor. In an embodiment of the present invention, at least one sliding rail 161 may be disposed on the fixing frame 110, and the cutter 151 is connected to the sliding rail 161 through at least one sliding seat 163, and the driving mechanism 153 may drive the cutter 151 and the sliding seat 163 to move along the sliding rail 161 and the fixing rod 11.

In the process of cutting the paper tube 123 by the cutter 151, the direction of the displacement of the cutter 151 driven by the driving mechanism 153 is the same as the length increasing direction of the paper tube 123, wherein the speed of the displacement of the cutter 151 driven by the driving mechanism 153 can be the same as or similar to the length increasing direction of the paper tube 123 in unit time. For example, when the paper tube 123 has a generation speed of 10cm/s, the driving mechanism 153 also drives the cutter 151 to displace along the fixed rod 11 at a speed of 10 cm/s.

Since the displacement speed of the cutter 151 of the present invention is the same as the generation speed of the paper tube 123, the paper tube 123 will not push against the side of the cutter 151 when the cutter 151 cuts the paper tube 123. In contrast, the conventional cutter does not displace relative to the direction of the paper tube when cutting the paper tube, so that the paper tube can squeeze the side edge of the cutter 151 or the cutter 151 pulls the paper tube 123, which not only affects the cutting quality of the paper tube, but also increases the loss rate of the cutter.

To achieve the above object, the present invention calculates the generation speed of the paper tube 123 and adjusts the speed at which the driving mechanism 153 drives the cutter 151 to move. Specifically, the paper tube forming and cutting machine 10 of the present invention includes an angle measuring unit 14 and a length measuring unit 171, wherein the angle measuring unit 14 is used for measuring the angle of the winding mechanism 13 relative to the fixing rod 11 or the feeding angle of the paper tape 121 relative to the fixing rod 11, and the length measuring unit 171 is used for measuring the conveying length of the paper tape 121.

In an embodiment of the present invention, the angle measuring unit 14 may be connected to the winding mechanism 13 or adjacent to the winding mechanism 13, and is used for measuring the inclination angle of the winding mechanism 13, for example, the angle measuring unit 14 may be an inclination angle measuring device.

The winding mechanism 13 and the connecting base 131 can rotate relative to the fixing rod 11, as shown in fig. 1 and 4, to change the angle of the belt 137 wound on the fixing rod 11 and adjust the feeding angle or winding angle of the paper tape 121 wound on the fixing rod 11. Basically, the feeding angle of the paper tape 121 relative to the fixing rod 11 is related to the angle between the winding mechanism 13 and the fixing rod 11, and in the embodiment of the present invention, the feeding angle of the paper tape 121 relative to the fixing rod 11 is calculated by the angle between the winding mechanism 13 and the fixing rod 11.

In another embodiment of the present invention, the feeding angle of the paper tape 121 relative to the fixing rod 11 can be directly measured, as shown in fig. 5, the angle measuring unit 24 can be disposed near the position where the paper tape 121 enters the fixing rod 11, and directly measure the angle between the paper tape 121 and the fixing rod 11, such as the feeding angle of the paper tape 121.

The length measuring unit 171 is disposed upstream of the fixing lever 11 and the winding mechanism 13, and measures the conveyance length of the paper tape 121. In an embodiment of the present invention, at least one conveying wheel 173 may be disposed upstream of the fixing rod 11 and the winding mechanism 13, and the paper tape 121 is conveyed to the fixing rod 11 and the winding mechanism 13 by the conveying wheel 173, wherein the length measuring unit 171 may be connected to one of the conveying wheels 173, and measure the number of rotations of the conveying wheel 173, so as to calculate the conveying length of the paper tape 121.

The generation speed of the paper tube 123 is related to the feeding length of the paper tape 121 and the feeding angle of the paper tape 121 and the fixing rod 11, so that the length of the paper tube 123 increased in unit time can be calculated by measuring the feeding angle and the feeding length of the paper tape 121.

For this reason, when the paper tube 123 is cut by the cutter 151, the speed of the cutter 151 along the fixing rod 11 can be adjusted according to the angle and the conveying length, for example, the displacement speed of the cutter 151 is adjusted according to the generation speed of the paper tube 123, so that the speeds of the two are the same or similar. In different embodiments, the angle between the winding mechanism 13 and the connecting base 131 can be converted into the (feeding) angle between the paper tape 121 and the fixing rod 11, so that the forming speed of the paper tube 123 can be calculated from the angle between the winding mechanism 13 and the connecting base 131 and the conveying length of the paper tape 121.

In practical applications, the circumference and/or radius of the paper tube 123, the width W and/or thickness of the paper tape 121 can be further measured, and the forming speed of the paper tube 123 can be more precisely calculated from the circumference of the paper tube 123, the width W, thickness, feeding angle and conveying length of the paper tape 121, wherein the circumference of the paper tube 123 is related to the circumference of the fixing rod 11, for example, the circumference of the paper tube 123 approximates the circumference of the fixing rod 11.

In addition, the increasing speed of the paper tube 123 may also be related to the winding manner of the paper tape 121, for example, the adjacent paper tapes 121 wound on the fixing rod 11 do not overlap each other, as shown in fig. 6, so that the generating speed of the paper tube 123 can be calculated by the included angle between the winding mechanism 13 and the fixing rod 11, the circumference of the paper tube 123, the width W, the thickness, the feeding angle and/or the conveying length of the paper tape 121, and the speed of the driving mechanism 153 for driving the cutter 151 to move can be adjusted.

In various embodiments, adjacent ribbons 121 wrapped around the rod 11 may overlap, as shown in FIG. 7, such that the ribbons 121 of the resulting tube 123 have an overlapping region 125. In this way, the width of the overlap region 125 needs to be further considered in calculating the paper tube 123 generation speed.

In practice, the paper tube forming and cutting machine 10 may include a computing unit 18, for example, the computing unit 18 may be a computer. The calculating unit 18 is electrically connected to the angle measuring unit 14, the length measuring unit 171 and the driving mechanism 153, and receives the data of the angle and the conveying length from the angle measuring unit 14 and the length measuring unit 171, respectively, to calculate the generating speed of the paper tube 123, and then control the speed of the driving mechanism 153 to drive the cutter 151 to move according to the generating speed of the paper tube 123. In addition, the calculating unit 18 may also receive the radius of the fixing rod 11 and the width of the paper tape 121, and calculate the generating speed of the paper tube 123 according to the angle, the conveying length, the radius of the fixing rod 11 and the width of the paper tape 121.

Specifically, the direction of displacement of the cutter 151 of the cutting machine 10 for paper tube production is the same as the direction of production of the paper tube 123, and in addition, the displacement speed of the cutter 151 is also the same as the growth speed of the paper tube 123, so that the paper tube 123 will not be extruded by the side edge of the cutter 151 or the cutter 151 will pull the paper tube 123 during the process of cutting the paper tube 123 by the cutter 151, thereby effectively improving the cutting quality of the paper tube 123 and prolonging the service life of the cutter 151.

Referring to fig. 8, a flowchart of steps of an embodiment of a paper tube cutting method according to the present invention is shown. Referring to fig. 1, the conveying length of at least one paper tape 121 is measured, and in step 31, the conveying length of the paper tape 121 can be measured by the length measuring unit 171 and the conveying wheel 173.

The paper tape 121 is conveyed to the fixing rod 11 and the winding mechanism 13, as shown in step 33, wherein the paper tape 121 is located in the gap between the fixing rod 11 and the winding mechanism 13, and the paper tape 121 can be driven by the winding mechanism 13.

In step 35, in an embodiment of the present invention, the feeding angle of the paper tape 121 relative to the fixing rod 11 can be directly measured by the angle measuring unit 24. In various embodiments, the permeable angle measuring unit 14 measures the angle between the winding mechanism 13 and the fixing rod 11, and further calculates the feeding angle of the paper tape 121 relative to the fixing rod 11.

The paper tape 121 is wound around the fixing rod 11 to form a paper tube 123, step 37. Specifically, the paper tape 121 may be wound around the fixing lever 11 by the winding mechanism 13 and the paper tube 123 may be formed.

The speed of the cutter 151 along the fixed rod 11 is adjusted according to the conveying length and the feeding angle, as shown in step 39. Specifically, the feeding angle of the paper tape 121 relative to the fixing rod 11 and the conveying length of the paper tape 121 can be used to calculate the generation speed of the paper tube 123, and the displacement speed of the cutter 151 along the fixing rod 11 is the same as or similar to the generation speed of the paper tube 123, so as to improve the cutting quality of the paper tube 123 and the service life of the cutter 151.

In another embodiment of the present invention, the circumference and/or radius of the paper tube 123 or the fixing rod 11 and the width W and/or thickness of the paper tape 121 can be further measured, so that the generation speed of the paper tube 123 and the displacement speed of the cutter 151 can be calculated more precisely from the radius, circumference, width W, thickness, feeding angle and conveying length of the paper tube 123 or the fixing rod 11, and the displacement speed of the cutter 151 along the fixing rod 11 can be adjusted.

In addition, when calculating the forming speed of the paper tube 123, the width of the overlapping area 125 of the adjacent paper strips 121 on the paper tube 123 can be further considered, and the speed of the cutter 151 moving along the fixing rod 11 can be adjusted according to the conveying length, the feeding angle, the radius of the fixing rod 11, the width of the paper strips 121 and the overlapping area 125.

The foregoing description is only one preferred embodiment of the present invention and is not intended to limit the scope of the invention, i.e., all equivalent variations and modifications in shape, construction, characteristics and spirit as defined in the claims are intended to be included in the scope of the present invention.

Claims (1)

1. A paper tube cutting method for cutting a paper tube produced by a cutting machine, comprising:

disposing at least one delivery wheel upstream of a fixed rod and a winding mechanism;

conveying a paper tape to the fixing rod and the winding mechanism;

calculating the number of turns of the conveying wheel to obtain the conveying length of the paper tape;

measuring a feeding angle of the paper tape relative to the fixing rod;

measuring the angle of the winding mechanism relative to the fixed rod to further obtain a feeding angle of the paper tape relative to the fixed rod;

winding the paper tape on the fixed rod to form a paper tube, wherein the generation speed and the conveying length of the paper tube are related to the feeding angle, and measuring the feeding angle and the conveying length of the paper tape to obtain the increased length of the paper tube in unit time;

providing a cutter, wherein the cutter comprises a plurality of cutter wheels which are respectively connected with a plate body through a swing arm, a through hole is arranged on the plate body, and the cutter wheels are annularly arranged around the through hole;

passing the fixing rod and the paper tube through the through hole on the plate body;

a driving mechanism is connected with the plate body through a sliding seat and a sliding rail, and the driving mechanism drives the cutter and the sliding seat to move along the sliding rail so as to further enable the cutter to move along the fixed rod;

obtaining the radius of the fixing rod and a width of the paper tape; a kind of electronic device with high-pressure air-conditioning system

According to the conveying length, the feeding angle, the radius of the fixing rod and the width of the paper tape, the speed of the cutter along the fixing rod is adjusted by the driving mechanism;

obtaining an overlapping area of the adjacent paper tape on the paper tube; a kind of electronic device with high-pressure air-conditioning system

Adjusting the displacement speed of the cutter along the fixed rod according to the conveying length, the feeding angle, the radius of the fixed rod, the width of the paper tape and the overlapping area;

the swing arm drives a plurality of cutter wheels to move towards the fixed rod so as to cut the paper tube positioned on the fixed rod;

when the cutter cuts the paper tube, the displacement direction and the displacement speed of the cutter are the same as the generation direction and the generation speed of the paper tube.

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