KR20100008306U - metallic yarn of Tension adjustable apparatus - Google Patents

Abstract

The present invention relates to a tension control device of the metallic company,

The present invention relates to a tension control device of metallic yarn used in the normal diameter process of metallic yarn.

More specifically, it is configured to maintain a constant tensile force when winding the metallic yarn subjected to the cutting process to the canon cylinder, the measuring unit for measuring the tensile force of the metallic yarn, and the value calculated by the measuring unit to rotate the canon cylinder through It relates to a metallic tension control device characterized in that the main motor to control the power is configured to be wound up the metallic yarn to always maintain a constant tensile force during the metallic yarn winding operation of the canonical cylinder.

      Metallic yarn

Description

Metallic yarn of Tension adjustable apparatus}

The present invention relates to a tension control device of the metallic company,

The present invention relates to a tension control device of metallic yarn used in the normal diameter process of metallic yarn.

More specifically, the present invention relates to a tension control device of metallic yarns configured to maintain a constant tensile force when winding the thin metallic yarns into the canonical cylinder.

In general, the adhesive film refers to depositing aluminum, silver, gold, and the like on a polyether (PET) film, and coating a variety of colors on the surface. After depositing the dye, the film is also called an adhesive film, and the thinning of such a film is called a metallic yarn in the industry, and winding the adhesive film into a metallic yarn or a metallic yarn is called a canonical process. In detail, the canoning process of fine cutting after cutting into a shape, first of all, is a drum-type cutting device that rotates a roll wound with a gold film deposited with aluminum, silver, gold, etc. on a polyether (PET) film. Supply. The adhesive film supplied to the cutting device is wound into the cutting device and simultaneously cut into metallic yarns, and then the metallic yarn strands are attached to the body part and moved to the curling device. The moved metallic yarn is finally wound on a curling device that is rotated by a power unit, and the metallic yarn is made to be processed into a woven fabric through a post-coating and weaving process.

However, if the rotational speed of the metal scraping device discharged from the cutting device and the winding speed of the winding device for winding the metallic yarn is not constant at the time of the winding operation of the metallic yarn through the winding device, the metallic yarn is tensioned during the winding operation. In addition, the tensile force is not kept constant, and relatively expensive metallic yarns are damaged or cut off, resulting in higher manufacturing costs or lower product value.

On the other hand, Patent No. 10-0123198 filed to compensate for this disadvantage is driven simultaneously with a conventional fine cutting machine and a conventional warping machine, by staking the rotation side staked poly at the lower end of the regular game, Connect and drive with pulley and belt installed in season motor, and stake large pulley to be connected to pulley and belt staked at the end of rotation side on one side of normal raceway. One side of the large pulley is provided with a clutch for transporting on the rotating shaft, and the small pulley is staked on one side of the rotating shaft that has staked the large pulley and the clutch. Technology to be installed has been developed,

The technology combines the cutter motor and the racer motor with pulleys, respectively, to form the same number of revolutions so that the initial tension of the metallic yarn is maintained during the initial winding, but the racer is wound by the metallic yarn wound when the metallic yarn is wound. The cross section diameter is significantly larger than that of the first non-winding machine, and the tension force of the metallic yarn is not maintained accurately even when winding at the same rotation speed of the thinner and the regular machine.

In order to eliminate the above conventional problems,

The tensioning force of the metallic yarn is deformed by configuring a tension adjusting device for controlling the position of guiding the metallic yarn by the winding force of the winding apparatus between the cutting device and the winding apparatus, and outputting the adjusted calculated value to the main motor of the winding apparatus. It is designed with the focus on preventing and making efficient the canoning process.

In order to achieve the above technical problem,

The cutting device 10 for cutting and unwinding the gold foil film in the form of a metallic yarn, the power unit 20 for transmitting power to the cutting device 10, and the first to install the cut metallic yarn y separately. Body 520 and the body portion consisting of a second body 50 for supplying the metallic yarn (y) discharged from the first body 40 to the take-up device 60, and separately mounted to the body portion In the tension control device of the warp device including a winding device (60) including a main cylinder (80) for rotating the warp cylindrical body 70 and the warp cylindrical body (70) winding the Characterized in that the tension control device 30 is configured to measure the tensile force of the metallic yarn supplied to the canned barrel 70 between the cutting device 10 and the first body 40.

In addition, the tension control device 30 is composed of a main body 100 including a component, the end portion is formed in the form of an idle roller (IDLE ROLLER) to guide the metallic yarn is placed both ends into the main body 100 1 guide rod 110, adjusting rod 120, the second guide rods 190 are configured in sequence, the control rod is configured between the first guide rod 110, the second guide rod lower by the regular body It comprises that the control rod is configured to be moved up and down vertically by the winding force.

In addition, the adjusting rod 120 constitutes a moving groove 130 made of a long hole in the vertical direction of the main body 100 is placed on both sides, the vertical direction toward one side of the moving groove 130 of the main body 100 is configured To the upper, lower side, the chain 160 is fastened to the upper and lower sprockets 140 and 150 in the vertical direction, but one side of the control rod 120 is connected to the stop portion of the chain 160, By configuring the measuring device 180 coupled to the chain and the belt to the outside of the lower sprocket 150 is characterized in that the adjustment rod 120 is configured to measure the distance to move up and down.

According to the present invention between the cutting device and the winding device by adjusting the position of guiding the metallic yarn by the winding force of the winding device to configure the tensioning device for transmitting the adjusted output value to the main motor of the winding device by winding the metallic yarn It prevents the tensile force of metallic yarn from being deformed. It is easy to work on the canon, and the working time is significantly reduced, so that the metallic yarn is not damaged or cut off during the winding work due to the irregular tension of the metallic yarn. Therefore, the effect of reducing the waste of metallic yarn is a big design.

The present invention relates to a tension control device of the metallic company,

The cutting device 10 for cutting and unwinding the gold foil film in the form of a metallic yarn, the power unit 20 for transmitting power to the cutting device 10, and the first to install the cut metallic yarn y separately. Body 520 and the body portion consisting of a second body 50 for supplying the metallic yarn (y) discharged from the first body 40 to the take-up device 60, and separately mounted to the body portion In the tension control device of the warp device including a winding device 60 including a main cylinder 80 for rotating the warp cylinder 70 and the warp cylinder 70 winding the metallic yarn (y),

The tension adjusting device of the metallic yarn, characterized in that the tension control device 30 is configured to measure the tensile force of the metallic yarn supplied to the canned barrel 70 between the cutting device 10 and the first body 40 It relates to a tension control device of the metallic company characterized in that.

1 is an exemplary view showing a preferred form of the warp device according to the present invention, Figure 2 is an exemplary view showing a preferred form of the tension control device according to the present invention, Figure 3 is a preferred form of the tension control device according to the present invention 4 is a perspective view showing a preferred form of the tension control device according to the present invention, Figure 5 (a), (b), (c) is an illustration showing a preferred form to move the control rod according to the present invention 6 is an exemplary view showing a form in which the tensile force of the metallic yarn is deformed due to the metallic yarn laminated on the conventional canonical cylinder. Referring to the drawings, the specific contents of the present invention will be described in detail.

As shown in FIG. 1, the canonical device according to the present invention has a cutting device 10 in which a gold foil film is cut into a metallic yarn shape, and a control device measuring a force to guide the cut metallic yarn (y). Tensile control device 30 for sending out the measured value, the body portion to move the tensioning device by mounting the tensioned metallic yarn (y) individually, and the winding device for winding the metallic yarn separately mounted to the body portion It consists of 60 parts.

Referring to the device as shown in Figures 2 and 4, the cutting device 10 is configured to be guided to the tension control device 30 by cutting the gold film in the form of metallic yarn (y), usually the gold film This rolled film roll and a thinner which winds up the gold film on which the gold film is unwound by the rotation of the film roll, and includes a thinner for cutting in the form of metallic yarns (y). 20 is included.

The tension control device 30 is configured to guide the metallic yarn (y) supplied from the cutting device 10 to guide the metallic yarn (y) to the winding device (60) when configured to measure the tensile force A body 100 is constructed between the device 10 and the first body 40 and includes components.

The first guide rod 110, the adjusting rod 120, the second guide rod 190 is sequentially configured into the main body 100.

The first guide rod 110 is configured on the main body 100 to guide the metallic yarn (y) discharged to the cutting device 10 for the first time so that both ends are guided to the adjustment rod 120. It is configured in the form of an idle roller (IDLE ROLLER) is placed inside the rotating.

As shown in FIG. 3, the adjusting rod 120 guides the metallic yarn (y) guided by the first guide rod 110 to guide the second guide rod 190 to the main body 100. It is configured in the form of an idle roller (IDLE ROLLER) is rotated in the interior, the control rod 120 is configured between the first guide rod 110, the second guide rod 190, the second guide In the process of being guided to the rod 190, the measuring rod 180 is calculated by calculating the distance moved by the adjustment rod 120 vertically moved up and down by the tensile force generated when the canonical cylinder 70 is wound up. It is configured to adjust the rotational speed of the main motor 80 to transmit power to the canonical cylinder 70 by the value.

The adjusting rod 120 is configured to be a moving groove 130 made of a long hole in the vertical direction of the main body 100 is placed on both sides so that the control rod 120 can be moved vertically inside the main body 100.

In addition, the upper and lower sprockets 140 and 150 are formed on the upper and lower sides in the vertical direction toward one side of the moving groove 130 of the main body 100, and are fastened to the upper and lower sprockets 140 and 150. The chain 160 is configured in the vertical direction, and one side of the adjusting rod 120 is connected to the stop of the chain 160 so that the adjusting rod 120 is moved in the vertical direction by the force of the warp cylinder 70. It is configured to be.

The measuring sprocket 170 is axially coupled to the front of the lower sprocket 150 and the measuring device 180 is coupled to the chain and the belt to the outside of the measuring sprocket 170. It is configured to measure the distance that the rod 120 is moved up and down, and transmit the measured distance value to the controller (not shown).

The measuring device 180 is preferably configured of any one of an encoder, a motor including the encoder to measure the rotation value of the measuring sprocket.

The second guide rod 190 is an idle roller (IDLE ROLLER) that both ends are placed in the interior of the main body 100 to guide the metallic yarn (y) guided by the adjusting rod 120 to the canonical cylinder 70 ) Form.

The first body 40 and the first body guiding the metallic yarn (y) guided to the tension adjusting device 30 are configured to guide the take-up device 60 by introducing the shredded metallic yarn (y). The second body 50 for guiding the metallic yarn y discharged from the body 40 to the winding device 60 is configured so that the metallic yarn y is finally wound up to the winding device 60.

The winding device 60 is configured to wind the metallic yarn (y) discharged from the body portion includes a cylindrical barrel 70 in the form of a spinning wheel.

The canned cylinder 70 has a main shaft coupled to the main motor 30 therein, and the canned cylinder 70 is rotated due to the driving of the main motor 30 to be discharged from the second body 50. It is configured to wind yarn (y) sequentially.

The main motor 80 is a rotation speed is set by the control of the control unit (not shown) and the control unit (not shown) is a metallic yarn (y) calculated by the movement of the adjusting rod 120 by the measuring device 180 It is configured to control the rotational speed according to the measured value according to the tensile force of.

Looking at the embodiment of the present invention made of the above configuration device,

First, the gold foil film is cut into metallic yarns (y) by the cutting device (10), and then guided to the tension control device (30), and then the metallic yarns (y) are individually attached to the body and the winding device (60). The metallic yarn (y) is unwound by the rotation of the power unit 20 linked to the cutting device 10 in a state of being partially wound on the canonical cylinder 70 of the canonical cylinder 70 and by the rotation of the main motor 80 of the canonical cylinder 70. The metallic yarn (y) is wound up continuously, and the canonical process of the metallic yarn (y) is performed.

At this time, if the unrolled rotational speed and the unrolled rotational speed are the same as shown in FIG. 6, the metallic yarn (y) wound up is always wound in the canonical tube 70 with a constant tensile force, but is continuously wound in the canonical tube 70. The cross-sectional diameter of the diameter cylindrical body 70 is widened by the metallic yarn (y) laminated by the work, so that the tensile force of the metallic yarn (y) is maintained even if the rotation speed of the power unit 20 and the rotation speed of the main motor 80 are the same. Not exactly maintained, the number of revolutions of the main motor 80 should be adjusted according to the cross-sectional diameter of the canonical cylinder 70 to wind the metallic yarns (y) having the same tensile force so that the winding form can be made constant.

The present invention is configured to control the rotational speed of the main motor 80 by measuring the tensile force of the metallic yarn (y) wound by the rotation of the diameter cylinder 70 through the tension control device 30 for this purpose.

The metallic yarn (y) wound up at the regular cutting device 10 is guided to the first guide rod 110, the adjusting rod 120, and the second guide rod 190, respectively, by the body portion and the canonical barrel 70. The control rod 120 is wound in the initial rotation speed of the power unit 20 and the main motor 80 is the same, so that the adjustment rod 120 is always configured to the lower side of the moving groove 130.

At this time, the metallic yarn (y) is laminated to the canned cylinder 70, the tensile force is generated to the adjusting rod 120 by the force of winding the metallic yarn (y) so that the adjusting rod 120 is moved upward and moved Rotation of the upper and lower sprockets 140 and 150 is generated by the rod 120 and the chain 160 configured on one side of the adjusting rod 120 is interlocked upward and interlocked by the rod 120.

When the lower sprocket 150 is rotated, the measuring sprocket 170 of the front side is also rotated so that the measuring device 180 bound to the measuring sprocket 170 is rotated.

As shown in (a), (b) and (c) of FIG. 5, the winding force of the canonical cylinder 70 is adjusted by adjusting the rotation speed of the main motor 80 according to the rotation speed measured by measuring the rotation speed. The lowering adjustment rod 120 is moved to its original form to wind the metallic yarn (y) having a constant tensile force to the canon barrel 70, so that not only cane work easier but also the work time is significantly reduced, so that the canon process is efficient. Although it is made of a metallic yarn (y) by the non-uniform tension of the metallic yarn (y) during the winding operation will have the effect of preventing damage or cutting.

1 is an exemplary view showing a preferred form of the warp device according to the present invention

Figure 2 is an exemplary view showing a preferred form of the tension control device according to the present invention

3 is a perspective view showing a preferred form of the tension control device according to the present invention

Figure 4 is a perspective view showing a preferred form of the tension control device according to the present invention

Figure 5 (a), (b), (c) is an exemplary view showing a preferred form in which the adjusting rod according to the present invention is moved

6 is an exemplary view showing a form in which the tensile force of the metallic yarn is deformed due to the metallic yarn laminated on the conventional canonical cylinder

Explanation of the major symbols used in the main part of the drawing

10: cutting device 20: power unit

30: tension control device 40: the first body portion

50: second body 60: winding device

70: regular cylinder 80: main motor

100: main body 110: first guide

120: adjusting rod 130: moving groove

140: upper sprocket 150: lower sprocket

160: chain 170: measuring procket

180: measuring device 190: second guide

Claims (5)

The cutting device 10 for cutting and unwinding the gold foil film in the form of a metallic yarn, the power unit 20 for transmitting power to the cutting device 10, and the first to install the cut metallic yarn y separately. Body 520 and the body portion consisting of a second body 50 for supplying the metallic yarn (y) discharged from the first body 40 to the take-up device 60, and separately mounted to the body portion It is used to apply to the canon device including a winding device (60) including the canon cylindrical body 70 for winding the metallic yarn (y) and the main motor 80 for rotating the canonical cylinder (70), the canonical cylinder Measuring device for measuring the tensile force of the metallic yarn supplied to the 70 and the tension control of the metallic yarn, characterized in that configured to control the tensile force of the metallic yarn wound up by configuring a control unit for controlling the rotational force of the main motor 80 Device The method of claim 1, The tension control device 30 is composed of a main body 100 including a component, Both ends are placed inside the main body 100 so that the first guide rod 110, the adjustment rod 120, and the second guide rod 190 configured in the form of an idle roller (IDLE ROLLER) to guide the metallic yarn are sequentially. It is configured to, but the control rod is configured between the first guide rod (110), the lower side between the second guide rod is configured to be configured such that the adjustment rod is vertically moved up and down by the force wound by the canonical body Tension control device 3. The method of claim 2, The adjusting rod 120 constitutes a moving groove 130 made of a long hole in the vertical direction of the main body 100 is placed on both sides, The chain 160 is coupled to the upper and lower sprockets 140 and 150 in the vertical direction to the one side in which the moving groove 130 of the main body 100 is configured in the vertical direction, but the chain ( Connect one side of the adjusting rod 120 to the stop of 160, Tension control of the metallic yarn, characterized in that configured by the measuring device 180 coupled to the chain and the belt to the outside of the lower sprocket 150 can measure the distance that the adjustment rod 120 is moved up, down Device The method of claim 3, Configure the measuring sprocket 170 axially coupled to the front of the lower sprocket 150, The measuring sprocket 170 constitutes the measuring device 180 coupled to the chain and the belt to the outside of the measuring sprocket 170, Metallic tension control device including a control unit (not shown) for controlling the main motor by receiving the distance value that the control rod 120 is moved up, down through the measuring device The method of claim 1 or 3, The measuring device is an encoder, tension control device of the metallic company, characterized in that made of any one of the motor including the encoder.

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