KR20100022294A - The heat processing device - Google Patents

Abstract

PURPOSE: A thermal processing device is provided to regularly maintain surface temperature by measuring the external surface temperature and the inner temperature of a drum. CONSTITUTION: A heat-processing device comprises a band supply part(500), a thermal processing part(200), a band moving part(600), and a controller(300). The band supply part supplies the band to the thermal processing part. The thermal processing part comprises a top drum(210) and a bottom drum(220). The thermal processing part thermally processes the band supplies from the band supply part and contracts band. The band moving part transfers band identically with the band moving speed of the thermal processing part. The band moving part transfers the band to a packing box to prevent tension from being applied on the thermally processed band. The controller controls the speed, the surface temperature and the inner temperature of the bottom drum and the top drum. The controller regularly adjusts the shrinkage of the band.

Description

Heat processor {The heat processing device}

It is to a heat processor 10 for shrinking the band by heat processing. In more detail, the band supply unit 500 for supplying a band for thermal processing to the thermal processing unit 200; A heat processing part 200 including an upper drum 210 and a lower drum 220 and shrinking the band by thermally processing the band supplied from the band supply part 500; A band moving part 600 moving the band in the same manner as the band moving speed of the heat processing part 200 to move the band to the packaging box so that tension is not applied to the heat processed band; By controlling the speed, surface temperature, and internal temperature of the upper drum 210 and the lower drum 220, the shrinkage ratio of the band is constantly adjusted, and the band supply part 500, the heat processing part 200, and the band moving part 600 are controlled. It is for a heat processor 10, characterized in that it comprises a control unit 300 for controlling.

1 shows a conventional heat processor. In the conventional thermal processing machine, the set temperature maintenance is not constant, and the temperature checker needs to be checked and adjusted regularly every minute. In addition, the shrinkage of the band was not constant due to severe temperature deviation. In addition, the shrinkage was not accurate because the band was forced by the path through which the band passes.

In addition, the shrinkage of the band responds sensitively to the outside temperature, and there is no surface temperature measurement function. In addition, there was only one drum, which did not fully achieve the desired processing effect during thermal processing.

In order to solve the above problems, in the present invention, the use of two drums to maintain a constant shrinkage rate is to make a large amount of products can also be heat processed. In addition, the purpose of the control unit to maintain a constant surface temperature using a power regulator to maintain a constant shrinkage of the band. The purpose is to install a square band supply rod on the line through which the band passes, so that the band is not twisted and a constant tension is applied to the band. The purpose is to prevent the tension from acting by installing a band moving part with a roller at the end of the moving path of the thermally processed band so that the band passing through the drum moves at the same speed as the drum.

As a technical idea for achieving the above object, in the present invention,

As a first aspect,

In the heat processor 10 for shrinking by heat processing the band,

A band supply unit 500 for supplying a band for thermal processing to the thermal processing unit 200; A heat processing part 200 including an upper drum 210 and a lower drum 220 and shrinking the band by thermally processing the band supplied from the band supply part 500; A band moving part 600 moving the band in the same manner as the band moving speed of the heat processing part 200 to move the band to the packaging box so that tension is not applied to the heat processed band; By controlling the speed, surface temperature, and internal temperature of the upper drum 210 and the lower drum 220, the shrinkage ratio of the band is constantly adjusted. The heat processor 10 is characterized by including a control unit 300 for controlling the present.

As a second point of view,

In the first aspect,

The heat processor 10, the heat processing unit 10 is characterized in that it further comprises a band input unit 700 for transmitting the band to the band supply unit 500.

In the first or second aspect,

The band supply unit 500,

A band supply rod 520 including a band supply rod gear 521 on one side and supplying the band at a constant speed; Includes a band supply shaft gear 511 on both sides and the band supply shaft 510 for transmitting the band received from the band supply rod 520 to the thermal processing unit 200,

The rotational force transmitted from the thermal processing unit 200 is transmitted through the band supply shaft chain 512 connected to the band supply shaft gear 511 to rotate the band supply shaft 510, and the rotational force is the band. It is transmitted to the band supply rod chain 522 connecting the supply rod gear 521 and the band supply shaft gear 511, characterized in that for rotating the band supply rod,

In the first or second aspect,

The thermal processing unit 200,

An upper drum 210 for thermally processing the band supplied from the band supply part 500; A lower drum 220 which heat-processes the band heat-processed in the upper drum 210 again; A roller unit 250 for closely contacting the band to a cylindrical surface of the upper drum 210 and the lower drum 220 when the upper drum 210 and the lower drum 220 are thermally processed; It characterized in that it comprises a power transmission means 290 for rotating the upper drum 210 and the lower drum 220 by transmitting a rotational force to the upper drum 210 and the lower drum 220,

In the first or second aspect,

The band moving unit 600,

A tension regulator shaft 630 for moving the band heat-processed from the heat processing part 200 to a band moving load end roller 650; A band moving load end roller 650 for moving the band received from the tension controller shaft 630 into a packing box; A band moving upper end roller 670 positioned above the band moving lower end roller 650 and in contact with the band moving lower end roller 650 to move the band received from the tension regulator shaft 630 to a packaging box; A tension controller 620 for adjusting tension applied to the band by adjusting a band moving speed in the band moving part 600; The tension regulator shaft 630 and the band moving load lower roller 650 and the band are transferred by transmitting the rotational force transmitted from the thermal processing unit 200 to the tension controller shaft 630 and the band moving load lower roller 650. It characterized in that it comprises a band moving floating force transmission means 660 for rotating the upper eastern roller 670.

In the second aspect,

The band input unit 700,

A band circular injection part 714 for transmitting the band to the band injection part first roller 705 and the band injection part second roller 706; A band insertion part second roller 706 which transfers the band transmitted from the band circular injection part 714 to the band waiting part 715; The band injection part which is located on the upper part of the second band input part roller 706 and is in contact with the second band input part roller 706 to transfer the band transmitted from the band circular input part 714 to the band waiting part 715. A first roller 705; A band standby part 715 for transmitting the bands received from the band input part first roller 705 and the band input part second roller 706 to the band supply part 500; Band injection force transmission means for transmitting the rotational force to the band circular input portion 714 and the band input portion second roller 706 to rotate the band circular input portion 714 and the band input portion second roller 706. It characterized in that it comprises (720).

It can generate high temperature heat and operate at high speeds, improving yield. The high heat dissipation ensures that the band shrinkage is accurate and constant, and the surface temperature can be kept constant by measuring the external and internal temperatures of the drum. The shrinkage rate of the band product can be kept constant and the band can be packed without being wrinkled by supplying the band without being twisted.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the embodiment of the present invention.

2 is a perspective view of a heat processor 10 according to the present invention. The heat processor 10 of the present invention is a device for heating the band using the upper drum 210 and the lower drum 220. The heat processor includes a band input part 700, a band supply part 500, a heat processing part 200, a control part 300, a power supply part 400, and a band moving part 600. The band input part 700 supplies the band supply part 500 without twisting the band for thermal processing. The band supply unit 500 supplies a band for thermal processing to the thermal processing unit 200. The thermal processing unit 200 shrinks the band by thermally processing the supplied band. The controller 300 controls the speed, surface temperature, and internal temperature of the upper drum 210 and the lower drum 220 for thermal processing of the band to adjust the shrinkage rate of the band uniformly, and the band input part, the band supply part, and the heating part. Study, control the band moving part. The control unit 300 includes a temperature measuring means to measure the external temperature, the surface temperature of the upper drum 210 and the lower drum 220, the inner temperature. The power supply unit 400 supplies power for driving the heat processor 10. The band moving part 600 moves the thermally processed band to the packing box so that tension is not applied to the thermally processed band at the same speed as the upper drum and the lower drum.

Let's look at the band injection unit 700. 3 is a front view of the band insertion part 700. 4 is a right side view of the band insertion unit power transmission unit 720 of the band insertion unit 700. 10 is a left side view of the band insertion part 700. The band input unit 700 is coupled to the components of the band input unit support 716 of the rectangular bar shape. The band injection unit motor 701 is positioned on the band injection unit support 716, and the band injection unit first pulley 702 is connected to one side of the shaft of the band injection unit motor 701. Although not shown in the figure, a band input part central shaft 707 is supported by a bearing on the band input part support 716 at a lower part of the band input part motor 701. One side of the band input part central shaft 707 is connected to the second band input part pulley 703 and the other side of the band input part second roller 706 is connected. The band input part first pulley 702 and the band input part second pulley 703 are connected to the band input part belt 704. Rotation of the band injection unit motor 701 is transmitted to the band injection unit second pulley 703 through the band injection unit belt 704. Inside the band-entry second pulley 703, a band-entry first gear 708 is integrally connected to the band-entry second pulley 703. The band inserting part second center shaft 712 is supported by a bearing on an upper portion of the band inserting part supporter 716 at a predetermined distance from the band inserting part central axis 707. One side of the second band center portion 712 of the band input part is connected to the fourth gear 718 of the band input part, and a band circular input part 714 is connected to the other side thereof. In addition, a band insertion part third central axis 717 is supported by a bearing on an upper portion of the band insertion part second central axis 713. One side of the band-entry part 3 center shaft 717 has a second band-entry part gear 709 and an outside of the band-entry part third gear 711. The band input part first gear 708 and the band input part second gear 709 are connected to the band input part chain 713. The band injection third gear 711 and the band injection fourth gear 718 are engaged with each other. As a result, the rotational force transmitted to the band insertion part second pulley 703 is the band insertion part first gear 708, the band insertion part chain 713, the band insertion part second gear 709, and the band insertion part third gear 711. It is transmitted to the band input fourth gear 718 through the). In addition, the rotational force is transmitted to the band circular injection part 714 through the band injection part second central axis 712 so that the band circular injection part 714 rotates. The band circular input portion 714 has a cylindrical center and a circular plate is attached to both sides of the cylinder. The first band inserting roller 705 is located above the second band inserting roller 706. The central axis of the band injection sub-roller 705 penetrates the bearing on one side of the band injection sub-roller support 719. The other side of the band insertion part first roller support 719 is supported on the upper portion of the band injection part support 716. The center of the band feeding part first roller support 719 is connected by a rectangular frame. The band standby part 715 is located at one side of the band input part supporter 716, and an upper side of the band waiting part 715 surrounds the band input part first roller 705 and the band input part second roller 706 while one side of the rectangular pillar is formed. Extends downwards open; The lower part of the band stand portion 715 is a rectangular pedestal with the upper surface of the rectangular pillar is open, the end is closed and there is a shaft on the side, the shaft is connected to the bearing of the band input support 716 Is connected to form an angle with the upper portion of the band standby portion 715.

When the band is inserted into the band input part 700, the band is passed between the band input part first roller 705 and the band input part second roller 706 via the band circular input part 714. Passing the upper portion of the (715) is stacked on the lower portion of the band standby portion 715. After that, it is supplied to the band supply unit 500. The rotational force of the band injection part motor 701 is transmitted to the band circular injection part 714 and the band injection part second roller 706, so that the band circular injection part 714 and the band injection part second roller 706 are rotated. ) Rotates so that the band moves.

Band input unit power transmission means 740 is the band input unit motor 701, the band input unit first pulley 702, the band input unit second pulley 703, the band input unit belt 704, the band input unit central axis 707, the first band piercing gear 708, the second band piercing gear 709, the third band piercing gear 711, the fourth band ing gear 718, the second band central belt 712, The band input part 3 center axis 717, the band input part chain 713, the rotation force generated in the band input part motor 701 as described above, the band circular input part 714 and the band input part The rotational force is transmitted to the second roller 706 to rotate the band circular input part 714 and the band input part second roller 706.

5 is a right side view of the heat processor 10. 6 is a left side view of the heat processor 10. The enlarged view in FIG. 6 shows a view from above of a portion centered on a circle.

Next, the band supply unit 500 will be described. As shown in FIGS. 2, 5, and 6, the band for thermal processing is first supplied through the band supply rod 520 to the band supply shaft 510, and then the upper drum 210 and the first roller 230. The band is supplied in between. The band supply rod 520 is a rectangular rod and a shaft passes through the center. The band supply rod 520 allows the band to be supplied while maintaining a constant tension without being twisted. There is a band supply rod gear 521 on one side of the band supply rod 520 and is connected to the band supply shaft gear 511 by the band supply rod chain 522 so that the band supply shaft 510 rotates. Rotational force is transmitted to the band supply rod 520. In addition, the band supply shaft chain 512 is connected to the band supply shaft gear 511 on the other side of the band supply shaft 510, so that the rotational force transmitted from the thermal processing unit 200 is connected to the band supply shaft chain 512. It is transmitted through to rotate the band supply shaft 510.

Next, let's look at the thermal processing unit 200. As shown in FIG. 5, the heat treatment body part 201 forms a skeleton of the heat processing part 200 and supports the position of each component of the heat processing part 200. First, looking at the right side, the thermal processing unit 200 has an upper drum 210 at the top and a lower drum 220 at the bottom. The first roller 230 is positioned in front of the upper side of the upper drum 210, and the second roller 232 is positioned behind the upper side of the upper drum 210. A third roller 235 is positioned in front of the lower side of the upper drum 210 and a fourth roller 237 is positioned behind the lower side of the upper drum 210. One side of the band cover 264 surrounds the first roller 230, the second roller 232, the third roller 235, and the fourth roller 237, and one side of the band cover 264 is A cylindrical surface of a portion of the upper drum 210 is wrapped along the cylindrical surface of the upper drum 210.

There is a fourth roller bearing nut 239 on one surface of the fourth roller bearing 238 supporting one side of the fourth roller. The fourth roller bearing nut 239 is connected to a horizontal shaft bolt 285 connected to one side of the belt horizontal motor 284. When the rotational force of the belt horizontal motor 284 is transmitted to the horizontal shaft bolt 285, the fourth roller bearing nut 239 engaged with the belt horizontal motor 284 moves up and down to adjust the horizontality of the fourth roller 237. .

The fifth roller 240 is positioned in front of the upper side of the lower drum 220, and the sixth roller 242 is positioned behind the upper side of the lower drum 220. The seventh roller 245 is positioned in front of the lower side of the lower drum 220, and the eighth roller 247 is positioned behind the lower side of the lower drum 220. One side of the band cover 264 surrounds the fifth roller 240, the sixth roller 242, the seventh roller 245, and the eighth roller 247, and one side of the band cover 264 is The lower drum 220 surrounds a portion of the cylindrical surface along the cylindrical surface of the lower drum 220.

An eighth roller bearing nut 249 is disposed on one surface of the eighth roller bearing 248 supporting one side of the eighth roller 247. The eighth roller bearing nut 249 is connected to a horizontal shaft bolt 285 connected to one side of the belt horizontal motor 284. When the rotational force of the belt horizontal motor 284 is transmitted to the horizontal shaft bolt 285, the eighth roller bearing nut 249 meshed with the belt horizontal motor 284 may move up and down to adjust the horizontality of the eighth roller 247. .

The roller unit 250 for closely contacting the band of the upper drum 210 and the lower drum 220 to the cylindrical surface of the upper drum 210 and the lower drum 220 is the first roller 230. , The second roller 232, the third roller 235, the fourth roller 237, the fifth roller 240, the sixth roller 242, the seventh roller 245, the eighth roller 247, and the like. The band cover 264 is configured.

The band moving part connecting shaft chain 262 connected to the upper drum gear 211 is connected to the band moving part connecting shaft gear 261 on one side of the band moving part connecting shaft 267. Therefore, the rotational force of the upper drum 210 is transmitted to the band moving part connecting shaft 267 through the band moving part connecting shaft chain 262. One side of the band moving part connecting shaft 267 has a plurality of band moving part connecting shaft gears 261. The band moving part connecting shaft gear 261 and the pulley gear 611 are connected to the band moving part connecting chain 266 to transmit rotational force to the band moving part 600. Also, the band moving part connecting shaft gear 261 and the band supply part relay gear 268 are connected to the band supply part connecting chain 263. Therefore, the rotational force is transmitted through the band supply part connecting chain 263. 268 is passed. The rotational power transmitted thereto is transmitted to the band supply shaft chain 512 connected to the band supply relay gear 268 so that the rotational force is transmitted to the band supply unit 500.

This time, look at the left side of the heat processing unit (200). As shown in FIG. 6, the configuration of the eighth roller 247 in the upper drum 210, the lower drum 220, and the first roller 230 is the same as described above, and thus description thereof is omitted. Hereinafter, a description will be given focusing on a process of transmitting power. First, the rotational force generated from the drum rotary motor 269 located at the bottom of the left side of the heat processing machine is located at one side of the drum rotary motor pulley 270 and the reducer 273 located at one side of the drum rotary motor 274. Is connected by a drum rotating pulley belt 271. Therefore, the rotational force of the drum rotation motor 269 is transmitted to the reducer 273 by the drum rotation pulley belt 271. At this time, the diameter of the reducer motor pulley 274 is larger than the diameter of the drum rotation motor pulley 270 and the rotational speed is reduced and transmitted to the reducer 273.

Next, the process of transmitting the rotational force to the lower drum 220 will be described. As shown in FIG. 6, the reducer power transmission pulley 276 and the lower drum power transmission pulley 277 on one side of the reducer 273 are connected by the lower drum power transmission belt 283, thereby reducing the rotational force of the reducer. The lower drum power transfer pulley 277 is delivered. On the other side of the lower drum power transmission pulley 277, a lower drum power transmission gear 278 is formed as one body. The lower drum power transmission gear 278 is connected to the lower drum gear 221 on one side of the lower drum 220 by the lower drum power transmission chain 279. Accordingly, the rotational force of the reducer 273 is transmitted to the lower drum 220 through the lower drum power transmission pulley 277, the lower drum power transmission gear 278, and the lower drum power transmission chain 279. do.

Next, the process of transmitting the rotational force to the upper drum 210 will be described. A reduction gear 275 positioned between the reduction gear power transmission pulley 276 of the reduction gear 273 and an axis of the reduction gear 273 and an upper drum power transmission 1 gear 281 positioned on the right side of the upper drum 210; The upper drum power transmission 2 gear 282 and the upper drum gear 211 of the upper drum 210 are connected by the upper drum power transmission chain 280. Therefore, the rotational force of the reducer 273 is transmitted to the upper drum 210 through the upper drum power transmission chain 280.

The power transmission means 290 for rotating the upper drum 210 and the lower drum 220 is the drum rotation motor 269, drum rotation motor pulley 270, drum rotation pulley belt 271, reducer 273 ), Reducer motor pulley (274), reduction gear (275), reducer power transmission pulley (276), lower drum power transmission pulley (277), lower drum power transmission gear (278), lower drum power transmission chain (279), It consists of an upper drum power transmission chain 280, an upper drum power transmission 1 gear (281), an upper drum power transmission 2 gear (282), a lower drum power transmission belt (283) is generated in the drum rotation motor (269) The rotational force is transmitted to the upper drum 210 and the lower drum 220 by the power transmission means 290 so that the upper drum 210 and the lower drum 220 rotate.

Next, the inside of the upper drum 210 will be described. 7 is a perspective view of the upper drum. 8 is a side view of the upper drum and the lower drum. The upper drum 210 is both semi-cylindrical and both sides are hollow, and a hollow circular ring is connected to the semi-cylindrical by a connecting rod so that an electric wire can pass through the center thereof. A plurality of small cylindrical heaters 212 are placed along the semi-cylindrical outer surfaces of both sides, and heater wires 213 penetrate through the heaters 212. 220V is supplied to the electric wire, and the electric wire is connected to the heater wire 213 on both sides of the heaters 212 to supply electricity. The semi-cylinder in which the heaters 212 are surrounded is surrounded by the outer circular cylinder of the upper drum. Since the inner semi-cylinder and the outer circular cylinder are separated, the outer cylindrical shaft is supported by the bearing body body 201 as a bearing, and rotates. The shaft of the through-hole is fixed to the body portion 201. The inner semicylinder is fixed and does not rotate, but the outer circular cylinder rotates.

The lower drum 220 has the same structure as the upper drum 210 and will not be described.

Next, the band moving unit 600 will be described. As shown in FIGS. 2, 5, and 6, the band moving part connecting chain 266 is connected to the pulley gear 611 on one side of the pulley 610 to transmit rotational force to the band moving part 600. Pulley belt 622 is connected to the cylindrical groove of the tension regulator 620 is connected to one side of the tension regulator shaft 630. The pulley 610 is transmitted to the rotational force is transmitted to the tension regulator shaft 630 is connected to one side of the tension regulator 620, the tension regulator shaft 630 is rotated. The rotational force is transmitted to the band moving part chain 640 connected to the tension regulator shaft gear 621 on one side of the tension regulator shaft 630. The rotational force is transmitted to the band movement load end roller gear 651 on one side of the band movement load end roller 650 by the band movement part chain 640 so that the band movement load end roller 650 rotates. In addition, the band moving part upper roller 670 in contact with the band moving load end roller 650 is also rotated.

The band moving speed may be adjusted by turning the tension controller 620 to adjust the band moving speed of the band moving part 600 to adjust the tension applied to the band. The pulley 610 and the tension regulator 620 is connected to the pulley belt 622, when turning the tension regulator 620, there is a spring inside the center of the tension regulator 620, the center becomes larger and smaller Should be lost. At this time, the length of the pulley belt 622 is fixed so that the center of the pulley 610 to which the pulley belt 622 is connected is also larger and smaller. When the center of the tension controller 620 is increased by adjusting the tension controller 620, the rotation speed of the tension controller shaft 630 connected to the tension controller is reduced, thereby reducing the band moving speed.

Band moving force transmission means 660 is the pulley gear 611, pulley 610, pulley belt 622, tension regulator 620, tension adjuster shaft gear 621, band moving part chain 640, band moving part It is composed of a lower roller gear 651 to transmit the rotational force transmitted from the heat processing unit 200 to the tension regulator shaft 630 and the band moving load lower roller 650 and the band moving upper roller 670 The tension controller shaft 630 and the band moving load lower roller 650 and the band moving upper roller 670 are rotated.

Next, the band movement process will be described. 9 shows the movement path of the band when heat processing using the band. A band is supplied to the band supply rod 520 of the band supply unit 500 and then passes through the band supply shaft 510. The band passing through the band supply shaft 510 passes between the first roller 230 and the upper drum 210 to rotate along the cylindrical surface of the upper drum 210 and then the third roller 235. Comes out) Thereafter, it is supplied between the fifth roller 240 and the lower drum 220. After the band is rotated along the cylindrical surface of the lower drum 220 to the seventh roller 245 and then the band moving part 600 along the bottom surface of the band cover 264 supported by the seventh roller Go to). The band moved to the band moving part 600 passes through the tension regulator shaft 630 and then passes between the band moving upper end roller 670 and the band moving lower end roller 650. When the band input part 700 is disposed in front of the band supply part 500, the band input part first roller 705 passes through the band circular input part 714 of the band input part 700 as described above. ) And the band-inserting part of the second roller 706 is stacked in the band waiting part 715, the stacked band is supplied to the band supply part 500 to go through the above process.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, those skilled in the art to which the present invention pertains may be embodied in other specific forms without changing the technical spirit or essential features of the present invention. You will understand that. Therefore, the exemplary embodiments described above are exemplary in all respects and are not intended to be limiting.

1 shows a conventional heat processor.

2 is a perspective view of a heat processor 10 according to the present invention.

3 is a front view of the band insertion part 700.

4 is a right side view of the band insertion unit power transmission unit 720 of the band insertion unit 700.

5 is a right side view of the heat processor 10.

6 is a left side view of the heat processor 10. The enlarged view in FIG. 6 shows a view from above of a portion centered on a circle.

7 is a perspective view of the upper drum.

8 is a side view of the upper drum and the lower drum.

9 shows the movement path of the band when heat processing using the band.

10 is a left side view of the band insertion part 700.

<Description of the symbols for the main parts of the drawings>

10: Heat processor

200: heat processing part 201: heat processing part

210: upper drum 211: upper drum gear

212: heater 213: heater wire

220: lower drum 221: lower drum gear

230: first roller 232: second roller

235: third roller 237: fourth roller

238: 4th roller bearing 239: 4th roller bearing nut

240: fifth roller 242: sixth roller

245: seventh roller 247: eighth roller

248: 8th roller bearing 249: 8th roller bearing nut

250: roller part 261: band moving part connecting shaft gear

262: band moving part connecting chain 263: band supply part connecting chain

264: band cover 266: band moving part connecting chain

267: band moving part connecting shaft 268: band moving part relay gear

269: drum rotation motor 270: drum rotation motor pulley

271: drum rotating pulley belt 272: upper drum temperature measuring instrument

273: reducer 274: reducer motor pulley

275: reduction gear 276: reduction gear power transmission pulley

277: lower drum power transmission pulley 278: lower drum power transmission gear

279: lower drum power transmission chain 280: upper drum power transmission chain

281: upper drum power transmission 1 gear 282: upper drum power transmission 2 gear

283: lower drum power transmission belt 284: belt horizontal motor

285: horizontal shaft bolt 290: power transmission means

300: control unit

400: power supply

500: band supply unit 510: band supply shaft

511: band supply shaft gear 512: band supply shaft chain

520: band supply rod 521: band supply rod gear

522: band supply rod chain 523: band supply unit support

600: band moving part 610: pulley

611: pulley gear 620: tension regulator

621: tension regulator shaft gear 622: pulley belt

630: tension regulator shaft 640: band moving chain

650: band movement load roller 651: band movement load roller

652: band moving load end roller bearing 660: band moving load power transmission means

670: band moving upper end roller

700: band input part 701: band input part motor

702: Band input part 1 pulley 703: Band input part 2 pulley

704: band insertion section belt 705: band insertion section 1 roller

706: second band insert roller 707: the center of the band insert section

708: Band insertion part 1st gear 709: Band insertion part 2nd gear

711: Band insertion part 3 gear 712: Band insertion part 2 center axis

713: band insertion part 714: band circular insertion part

715: band standby unit 716: band input unit support

717: band insertion part 3 center axis 718: band insertion part 4 gear

719: Band insertion section first roller support 720: Band insertion section power transmission means

Claims (6)

In the heat processor for shrinking the band by heat processing, A band supply part for supplying a band for thermal processing to the thermal processing part; A heat processing part including an upper drum and a lower drum, the heat processing part shrinking the band by heat processing the band supplied from the band supply part; A band moving part moving the band in the same manner as the band moving speed of the heat processing part to move to the packaging box so that tension is not applied to the heat processed band; And a controller for controlling the band shrinkage of the band by controlling the speed, the surface temperature, and the internal temperature of the upper drum and the lower drum, and controlling the band supply part, the heat processing part, and the band moving part. The method according to claim 1, The heat processor, And a band input unit configured to transfer a band to the band supply unit. The method according to claim 1 or 2, The band supply unit, A band supply rod including a band supply rod gear on one side and supplying the band at a constant speed; A band supply shaft including a band supply shaft gear on both sides and transferring the band received from the band supply rod to the thermal processing unit, The rotational force transmitted from the heat processing unit is transmitted through the band supply shaft chain connected to the band supply shaft gear to rotate the band supply shaft, and the rotational force is supplied to the band supply rod gear and the band supply shaft gear. Heat processing machine characterized in that the transfer to the rod chain to rotate the band supply rod. The method according to claim 1 or 2, The thermal processing unit, An upper drum for thermally processing the band supplied from the band supply unit; A lower drum for thermally processing the band heat-processed in the upper drum; A roller unit for closely contacting the band to a cylindrical surface of the upper drum and the lower drum when the upper drum and the lower drum are thermally processed; And a power transmission means for transmitting the rotational force to the upper drum and the lower drum to rotate the upper drum and the lower drum. The method according to claim 1 or 2, The band moving unit, A tension regulator shaft for moving the band heat-processed from the heat processing part to a band moving load end roller; A band moving load end roller for moving the band received from the tension controller shaft to a packaging box; A band moving part upper roller positioned at an upper portion of the band moving load end roller and in contact with the band moving load end roller to move the band received from the tension regulator shaft to a packaging box; A tension controller for adjusting tension applied to the band by adjusting a band moving speed in the band moving unit; And a band moving force transmission means for transmitting the rotational force transmitted from the heat processing part to the tension controller shaft and the band moving load end roller to rotate the tension regulator shaft and the band moving load end roller and the band moving upper end roller. Heat processor characterized in that. The method according to claim 2, The band input unit, A band circular injection unit for transferring the band to the first injection roller and the second injection roller; A band injection part second roller which transfers the band transmitted from the band circular injection part to the band waiting part; A band inserting part first roller positioned on an upper part of the band inserting part second roller and in contact with the band inserting part second roller to transfer the band transmitted from the band circular input part to a band standby part; A band standby unit for transferring the bands received from the first and second band insertion part rollers to the band supply part; And a band injection portion power transmission means for transmitting the rotational force to the band circular insertion portion and the band input portion second roller to rotate the band circular input portion and the band input portion second roller.

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