KR20120011538A - Soup cutting and vacuum absorption transfer device - Google Patents

Abstract

PURPOSE: A soup package cutting and transferring apparatus is provided to quickly cut sealing parts with a plurality of cutters by pulling soup packages and sealing parts. CONSTITUTION: A soup package cutting and transferring apparatus comprises a feeding unit, a cutting unit, a suction and pulling unit(400), and a soup package transfer unit(450). The feeding unit rotates and transfers soup packages that are connected via sealing parts. The cutting unit cuts the sealing parts with a rotating cutter. The suction and pulling unit pulls the soup packages and the sealing parts through vacuum suction so that the sealing parts are accurately cut. The soup package transfer unit is movably arranged under the suction and pulling unit and accurately supplies the soup packages to transferred instant noodles.

Description

Soup CUTTING AND VACUUM ABSORPTION TRANSFER DEVICE}

The present invention relates to a soup cutting transfer device, and more particularly, to a soup cutting transfer device for cutting and transporting the soup so that the cutting and transfer operation of the soup can be quickly carried out by cutting the adsorption and transporting the soup continuously fed to the rotating cutter. will be.

In general, ramen noodles are instant dried foods with powder soup added to the noodle soup fried in oil after steaming noodles.They have more nutrients per unit weight than juicy foods, and because they are fried foods, they are about 500kcal per 120g. It is a high calorie food.

These kinds of ramen are packed with noodles and soup in a bag so that consumers can put the soup in a pot and boil it directly. have.

In this way, the soup is dried and seasoned in a plastic bag, and each one of the soups is put in a bag. The noodle is completed because the soup is individually cut and fed to the noodle noodles while the ramen is transported and packed. .

In general, one soup is prepared by putting one seasoning into each unit into a long bag and heat-sealing the joint to form a sealing portion, and the soup is continuously supplied in a long state. The sealing part of the cutting machine is cut by feeding the separately separated soup one by one to the ramen.

The above-mentioned invention means the background art of the technical field to which the present invention belongs, and does not mean the prior art.

By the way, in the past, the soup feeder for cutting the soup continuously fed by the unit to supply to the ramen conveyed to the conveyor so that the soup and the sealing portion is supplied at a low speed so that when cutting the sealing portion in the continuously transported soup and the sealing portion It was cut repeatedly with a cutter blade operated by.

However, when developing a high speed soup feeder improved than the conventional low speed soup feeder, it has a problem that it is impossible to properly cut the sealing portion that is fed at a high speed by cutting with a cutter that operates horizontally as in the prior art.

In addition, after cutting the soup, it is guided to the drop chute so that the soup is caught in the middle of the drop can not be put into the ramen had a problem that the defective product is generated.

Thus, there is a need for improvement.

The present invention cuts a plurality of cutters installed in a pair of multiple rollers rotated with each other while pulling the soup and the sealing portion at a high speed by the feeding roller of the feeding portion, so that the cutting operation to perform the cutting operation at high speed quickly It is an object to provide a conveying device.

In addition, an object of the present invention is to provide a soup cutting feed apparatus for properly adjusting the feed friction and cutting force by adjusting the interval between the pair of feeding rollers and the pair of polygonal rollers in which the feeding operation and the cutting operation are made by each pressing unit. to be.

In addition, an object of the present invention is to provide a soup cutting transfer device that is made by cutting the sealing portion of the soup by the suction portion by suction and pulled by the vacuum suction belt of the suction pull portion moving the made cutting.

In addition, the present invention is to provide a soup cutting transfer device for eliminating the poor feed of the soup because the soup is adhered to the bottom of the soup feed belt of the vacuum adsorption belt in close contact with the soup feed belt of the soup conveying portion to freely drop the soup to the ramen. to be.

In order to achieve the above object, the soup cutting and transporting apparatus according to an embodiment of the present invention is a feeding unit for rotating conveying the soup that is connected by the sealing portion; A cutting portion for cutting the soup between the soup and the sealing portion conveyed by the feeding portion and the sealing portion rotating; An adsorption pull unit which provides tension by pulling the soup and the sealing unit by vacuum adsorption transfer before cutting the sealing unit for accurate cutting of the sealing unit by the cutting unit; And a soup feeder which is disposed to be in close contact with the suction puller and is moved by the suction puller and precisely sequentially feeds the soup which is being transferred by the cutter.

The feeding unit may include: a power generating unit installed in the main body unit and generating power; A power transmission unit for transmitting power of the power generation unit; And a pair of feeding rollers which are brought into close contact with both sides of the side sealing portion located on one side of the sealing portion and the soup by the power transmitted from the power transmitting portion.

The power transmission unit may include a drive pulley driven by the power generation unit; A belt wound around the drive pulley to transmit power; A driven pulley engaged with the belt and provided on the shaft of one of the feeding rollers to drive the belt; A drive gear axially coupled to any one of the feeding rollers inside the driven pulley; And a driven gear meshed with the drive gear and axially coupled to the other feeding roller to cause the pair of feeding rollers to rotate at the same rotational speed.

The feeding unit may further include a first pressing unit configured to adjust the pressing force of the sealing unit by pressing or releasing any one of the pair of pulling rollers.

The first pressing unit may include: a first moving member installed in the first space part of the support frame to support and move the pull roller; A first push member for pushing and pushing the first moving member; A first position fixing plate fixed to the support frame such that a first pressing force for pressing the first push member slides; A first tightening member which is fastened or tightened to loosen or loosen the end screw portion of the first compressive force so as to slide the first movable member to operate the first compressive force; And a first spring installed around the first compressive compression and having one end pushing the first push member and the other end supported by the first position fixing plate to apply an elastic force to the first push member.

In addition, the cutting unit, and a power generating unit for generating power; A power transmission unit for transmitting power of the power generation unit; And a pair of polygonal rollers having a plurality of cutters for cutting the sealing part among the soup and the sealing part by the power transmitted from the power transmission part.

The power transmission unit may include a drive gear driven by the power generation unit; A first driven gear engaged with the drive gear to drive one of the polygonal rollers; And a second driven gear meshed with the first driven gear to drive the other one of the polygonal rollers.

The cutting unit may further include a second pressing unit configured to adjust the cutting force of the sealing unit by pressing or releasing any of the polygonal rollers of the pair of polygonal rollers.

The second pressing unit may include: a second moving member installed in a second space part of the support frame to support and move the polygonal roller; A second push member for pushing and pushing the second moving member; A second position fixing plate fixed to the support frame such that a second pressing force for pressing the second push member slides; A second fastening member which is fastened or tightened to loosen or loosen the end screw portion of the second compression shaft so as to slide the second movement member to operate the second compression shaft; And a second spring installed around the second compressive compression, one end pushing the second push member, and the other end supported by the second position fixing plate to apply an elastic force to the second push member.

In addition, the first and second position fixing plate is characterized in that coupled or separated by a plurality of fastening members fastened to the support frame.

The suction puller may include a belt member installed at the main body to drive a driven pulley under the power of the power generating member, and to drive the soup feeder together; A first belt feed roller which is integrally connected to and driven by the driven pulley; An adsorption belt driven by the first belt transport roller and configured to adsorb and transport the cut soup to adsorption holes; The suction belt is driven to the outside and guided, characterized in that it comprises a suction member provided with a suction port to suck the air into the suction hole in a vacuum.

In addition, the soup feed portion is disposed to have a set distance from the first driven pulley, the second driven pulley is wound around the belt member and driven; A second belt feed roller which is integrally connected to the second driven pulley and rotates and rotates in a direction opposite to the rotational direction of the first belt feed roller; And a soup feed belt which is driven in an endless track by the second belt conveying roller, and closely adheres the soup at a speed corresponding to that of the suction belt while supporting the bottom of the soup to be sucked and transported to the suction belt. It is done.

In addition, the suction belt of the suction conveying portion is provided with a tension adjusting member for adjusting the tension in accordance with the height, the feed belt of the feed portion is characterized in that the tension adjusting roller for adjusting the tension in accordance with the height.

As described above, the soup cutting transfer device according to the present invention is cut by a plurality of cutters installed on a pair of polygonal roller rotating each other the sealing portion to be transported while pulling the soup and the sealing portion at high speed by the feeding roller of the feeding portion Therefore, cutting work can be performed quickly and at high speed.

In addition, the soup cutting and transporting apparatus according to the present invention can adjust the feed friction and cutting force appropriately, because the pressing portion is adjusted to each pressing portion of the feeding roller and the pair of feeding rollers and the pair of polygonal rollers.

In addition, the soup cutting transfer device according to the present invention by the suction and pull the vacuum suction belt of the suction pull unit for moving the cutting is made can be cut by the cutting portion of the sealing portion of the soup.

In addition, the soup cutting and transporting apparatus according to the present invention can be transported by bringing the bottom surface of the adsorptive soup of the vacuum adsorption belt in close contact with the soup feed belt of the soup transporting portion to freely drop the soup to the ramen so that the feed failure of the soup can be eliminated.

1 is a front view of a high speed soup feeder having a soup cutting feed apparatus according to an embodiment of the present invention.
Figure 2 is a perspective view of the thickness detection portion of the soup cutting transport apparatus according to an embodiment of the present invention.
3 is a front view of the thickness detection unit of the high speed soup feeder according to FIG.
Figure 4 is a front view of the feeding portion and the cutting portion of the soup cutting transport apparatus according to an embodiment of the present invention.
5 is an enlarged view of the first pressing part of the feeding part according to FIG.
6 is an enlarged view of the second pressing unit of the cutting unit according to FIG. 4.
7 is a cross-sectional view of the feeding unit of the soup cutting transport apparatus according to an embodiment of the present invention.
Figure 8 is a front view of the suction pull portion and the soup feed portion of the soup cutting transport apparatus according to an embodiment of the present invention.
9 is a perspective view of main parts of a feeding part and a cutting part according to an embodiment of the present invention;
Figure 10 is a state of use of the high speed soup feeder having a soup cutting transport apparatus according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a soup cutting transport apparatus according to an embodiment of the present invention.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a front view of a high speed soup feeder having a soup cutting transport apparatus according to an embodiment of the present invention, Figure 2 is a perspective view of a thickness detection unit of the soup cutting transport apparatus according to an embodiment of the present invention, Figure 3 2 is a front view of the thickness detecting unit of the high speed soup feeder according to FIG. 2, and FIG.

1 to 3 and 10, a high speed soup feeder having a soup cutting feed device (A) according to a preferred embodiment of the present invention, is provided in the main body portion 4, the entry roller 40 The feed roller 50 rotated by the rotation shaft 54 to supply a plurality of soups 30 connected to the plurality of sealing parts 32 conveyed by the feed rollers 50 and the soup 30 continuously supplied from the feed rollers 50. ) And the soup 30 and the sealing part 32 transferred from the thickness detecting part 100 and the thickness detecting part 100 to the feeding part 320 to detect and detect the thickness of the sealing part 32. 32 is cut by the cutter 430 of the cutting unit 300, and includes a soup cutting and transporting device (A) for feeding the separated soup 30 to the adsorption transport unit 400 by adsorption transfer to the ramen 20 It is done by

The supply roller 50 has a release prevention jaw 52 protruding to both sides to prevent the soup 30 to be transferred is separated.

And, as shown in Figure 2, the thickness detection unit 100, the fixed frame 120 is fixed to one side to the body portion (4); A moving frame 120 coupled to the fixed frame 120 and being lifted by the height adjusting unit 180; Third and fourth rollers 146 and 154 rotatably coupled to the rotation shaft 142 of the moving frame 120 and installed on the third and fourth rotation shafts 144 and 152 coupled to the end portions thereof. First and second support members 140 and 150 which are opened or retracted by the movement of the soup 30 and the sealing part 32 by the first and second supporters 140 and 150; An elastic part 160 providing elastic force to the first and second support members 140 and 150; Installed on the first and second supporters 140 and 150, respectively, the sensor unit 170 detects the thickness of the soup 30 when the soup 30 enters or opens.

And, the height adjustment unit 180, the protrusion 112 is formed to protrude on the fixed frame 110; A screw shaft 191 rotatably installed at the protrusion 112 and pivoting up and down by being rotated by the screw portion 211 of the moving frame 120; A height adjusting handle 184 for rotating the body portion 186 coupled to the fitting protrusion 188 of the screw shaft 191; It comprises a support portion 114 formed in the fixed frame 110 to support the end of the screw shaft 191.

The sensor unit 170 may include: a sensor 171 installed on the first support 140 and having a sensor groove 172; A detection protrusion 182 inserted into the sensor groove 172; A moving shaft 182 that is screwed with the sensing protrusion 182 to move the intervertebral protrusion 182 forward and backward; A fixed body 174 supporting the moving shaft 182 to rotate and fixed to the second support 150; A handle 176 for rotating the moving shaft 182; Installed on the outer periphery of the moving shaft 182, it comprises a spring 180 for pushing the sensing protrusion 182.

The sensor groove 172 is formed of a “U” shaped groove to rotate the handle 176 to rotate the moving shaft 178 so that the sensing protrusion 182 screwed together is moved horizontally, from which the sensing protrusion 182 is formed. Is moved from the sensor groove 172 to adjust the sensing position of the sensor 171 according to the opening degree of the first and second support (140, 150).

That is, the third and fourth rollers 146 and 154 that are rotatably fixed to the end portions of the first and second support members 140 and 150 by the third and fourth pivot shafts 144 and 152. By adjusting the amount of opening of the first and second supporters 140 and 150 by the thickness of the soup 30 passing through it can be detected by setting the thickness of the soup 30 arbitrarily.

The elastic part 160 may include a support plate 165 fixed to the first support 140; A locking member 161 screwed to the support plate 165 and having a handle 167; A spring that is caught at the end of the locking member 161 and the other end is caught by the support member 164 fixed to the second support 150 to provide elastic restoring force to the first and second supports 140 and 150. 162.

Since the locking member 161 is screwed and fastened to the support plate 165, the nut member 168 for controlling the movement of the locking member 161 is provided.

Then, the thickness detection unit 100, when the soup 30 is transported, is further provided with a blood detection unit 130 for detecting the empty blood without contents.

The encapsulation detecting unit 130 includes: a first roller 124 rotatably coupled to the first pivot shaft 122 installed on the moving frame 120; A second roller 134 installed in close contact with the first roller 124 so as to be rotatable to the second pivot 132 installed in the guide member 131 horizontally guided to the moving frame 120; One end is fixed to the fixing protrusion 194 protruding from the guide member 131, and the other end is fixed to the fixing frame 110, the spring 192 to closely contact the second roller 134 to the first roller 124 and ; It comprises a blood detection sensor 136 for detecting the presence of the soup passing through the first, second roller.

Hereinafter, with reference to the accompanying drawings will be described a soup cutting transport device (A) according to an embodiment of the present invention.

4 is a front view of a feeding part and a cutting part of the soup cutting transfer apparatus according to an embodiment of the present invention, FIG. 5 is an enlarged view of the first pressing part of the feeding part according to FIG. 4, and FIG. 2 is an enlarged view of a second pressing part of the negative portion, and FIG. 7 is a sectional view of a feeding part of the soup cutting transport device according to an embodiment of the present invention, and FIG. 8 is an adsorption pulling unit of the soup cutting transport device according to an embodiment of the present invention; 9 is a front view of the soup feeder, and FIG. 9 is a perspective view of main parts of a feeding part and a cutting part according to an exemplary embodiment of the present invention.

4 to 9, the soup cutting and transporting apparatus (A) according to an embodiment of the present invention, the feeding unit 320 for rotationally conveying the soup 30 connected by the sealing portion 32, Among the soup 30 and the sealing part 32 conveyed by the feeding part 320, the soup passes and the sealing part cuts by the cutter 340 which rotates the sealing part 300 and the seal by the cutting part 300. Adsorption pull unit 400 and suction pull unit for providing tension by pulling the soup 30 and the sealing unit 32 in a vacuum suction transfer before cutting the sealing unit 32 for accurate cutting of the ring unit 32 ( It is arranged so as to be movable close to the lower side of the 400 is sucked by the suction pull 400 part and the soup feeder for supplying the sequential to the ramen during the feeding the soup 30, the sealing portion 32 is cut by the cutter 340 sequentially It comprises 350.

The feeding unit 320 is installed in the main body 4, the power generating unit 321 for generating power, the power transmission unit 322 and the power transmission unit for transmitting the power of the power generating unit 321 ( It includes a pair of pull rollers 328, 329 to be in close contact with both sides of the sealing portion 32 and the side sealing portion 36 located on one side of the soup 30 by the power transmitted from the 322.

The power generating unit 321 is preferably a motor or a servo motor.

The power transmission unit 322 is engaged with the drive pulley 324 driven by the power generation unit 321, the belt 325 wound around the drive pulley 324 to transmit power, and the belt 325. And a driven pulley 326 which is provided in one of the feeding rollers 328 and drives. A pair of drive gears 327 coupled to the axis of one of the feeding rollers 328 inside the driven pulley 326, and engaged with the drive gears 327 and axially coupled to the other feeding rollers 329, Feeding rollers 328 and 329 include driven gears 323 to rotate at the same rotational speed.

The belt 325 is preferably a timing belt.

As shown in FIGS. 4 and 5, the feeding part 320 is pressurized or released from any one of the pair of pull rollers 328 and 329 to release the soup 30 and It is preferable to further include a first pressing portion 370 to adjust the close pressing force of the side sealing portion 36 formed on the side of the sealing portion 32.

As shown in FIG. 7, two first pressing parts 370 are formed on each side of the feeding roller 329, one on each side thereof to equalize the pressing force on the pair of feeding rollers 329 and 328. It is preferable to add.

The first pressing unit 370 includes a first moving member 372 and a first moving member 372 installed in the first space portion 304 of the support frame 302 so as to support and move the feeding roller 329. And a first position fixing plate 375 fixed to the support frame 302 such that the first push member 374 for pushing and pushing the first push member 374 and the first pressing compressor 376 for pressing the first push member 374 slide. A first fastening member 378 that is fastened to the end screw portion of the first compression shaft 376 to slide or move the first movement member 372 to operate the first compression shaft 376, and a first A first spring 377 installed around the pressing shaft 376 and having one end pushing the first push member 374 and the other end supported by the first position fixing plate 375 to apply an elastic force to the first push member 374. ).

The first position fixing plate 375 is preferably coupled or separated by a plurality of fastening members 379 fastened to the support frame 302.

The first space portion 304 is open toward the first position fixing plate 375.

Cutting unit 300, the power generator 330 for generating power, the power transmission unit 332 for transmitting the power of the power generating unit 330 and the power received from the power transmission unit 332 the soup ( 30 and a plurality of cutters 340 for cutting the sealing part 32 of the sealing part 32 includes a pair of polygonal rollers 336 and 344 provided in any one of them.

The power generator 330 is preferably a motor or a servo motor.

The power transmission unit 332 includes a drive gear 333 driven by the power generator 330 and a first driven gear 334 meshed with the drive gear 333 to drive one of the polygonal rollers 336. And a second driven gear 342 meshing with the first driven gear 334 to drive the other polygonal roller 344.

The cutter 340 is preferably installed in the protruding groove 338 of the polygonal roller 336 on the left side, and the cutter support member on which the cutter 340 is supported by the protruding groove 345 of the polygonal roller 344 on the right side. 346 is preferably installed. Of course, the installation position can also be configured in reverse.

Most preferably, three cutters 340 are installed.

As shown in FIGS. 4 and 6, the cutting part 320 presses or releases the pressure of the polygonal roller 344 of the pair of polygonal rollers 336 and 344 to seal the seal 32. It is preferable to further include a second pressing portion 380 to adjust the cutting force of the.

Two second pressing unit 380 is formed on both sides of the axis of the multi-function roller 344, one each on both sides, it is preferable to apply a pressing force evenly to the pair of polygonal rollers (344, 336).

The second pressing unit 370 includes a second moving member 382 and a second moving member 382 installed in the second space part 306 of the support frame 302 to support and move the polygonal roller 344. The second position fixing plate 385 fixed to the support frame 302 so that the second push member 384 for pressing and pushing the 382 and the second compression shaft 386 for pressing the second push member 384 are slid. And a second fastening member 388 which is fastened or loosened by being fastened or loosened to the end screw portion of the second compression shaft 386 so as to slide the second movement member 382 to operate the second compression shaft 386. A second spring is installed around the second compression 386, one end pushes the second push member 384, the other end is supported by the second position fixing plate 385 to apply an elastic force to the second push member 384 It is preferable to include (387).

The second position fixing plate 385 is preferably coupled or separated by a plurality of fastening members 389 fastened to the support frame 302.

The support frame 302 is preferably fixed to the body portion (4).

The second space part 306 is opened toward the second position fixing plate 385.

As illustrated in FIGS. 8 to 10, the suction pull unit 400 is installed at the main body 4 and is driven by the power generating member 412 to drive the driven pulley 422. ), Driven by the first belt feed roller 430 and connected to the driven pulley 422 integrally, and driven by the first belt feed roller 430, the cut soup 30 to the suction hole (434) And an adsorption belt 432 for adsorbing and transporting the gas, and an adsorption belt 432 driven outside and guided, and a suction member 440 provided with a suction port 436 to suck air into the suction hole 434. .

The suction member 440 is formed to be rounded in an arc shape at the bottom, and the bottom surface of the suction member 440 moves to suck the soup 30 cut through the suction hole 434 formed in the suction belt 432. A plurality of suction ports 43 communicating with the suction holes 434 are formed in the arc center direction.

The belt member 414 may further include a tension control member 416 for adjusting the tension by using the height of the roller in contact with the inner surface or the outer surface of the belt member 414.

The suction belt 432 may be further provided with a tension adjusting member 433 to adjust the tension by using a roller in contact with the suction belt 432.

The soup feeder 450 is moved in close contact with the lower side of the suction puller 400, and is sucked by the suction puller 400, and then sequentially and accurately supplies the soup to which the soup is cut by the cutter 340. .

The soup feed unit 150 is disposed to have a set distance from the first driven pulley 422 and is integrally connected to the second driven pulley 452 and the second driven pulley 452 wound and driven by the belt member 414. And the second belt feed roller 454 and the second belt feed roller 454 are rotated in an endless track by rotating in a direction opposite to the rotational direction of the first belt feed roller 430. And a soup feed belt 456 that closely moves the soup 30 at a speed corresponding to that of the suction belt 432 in a state of supporting the bottom of the soup to be sucked and transported to the 432.

The soup feed belt 456 of the soup feeder 450 is configured to be driven by receiving the power of the belt member 414 which is rotated by the power generating unit 412 which drives the suction belt 432, but separately if necessary. It is provided with a drive means of the suction pull unit 400 may be configured to separate the driving force.

The first belt feed roller 430 and the second belt feed roller 454 are equal in radius and circumferential distance so that the moving speeds of the adsorption belt 432 and the soup feed belt 456 facing each other are the same.

If the moving speeds of the suction belt 432 and the soup feed belt 456 are different from each other, frictional forces will be generated on the side of the soup 30 that is closely adhered or sucked and moved therebetween.

The bottom surface of the soup feed belt 456 is provided with a tension control roller 460 that can adjust the tension of the soup feed belt 456 by adjusting the height.

As such, the bottom surface of the soup 30 which is sucked and transported by the suction belt 432 is transported in a state in which the soup supply belt 456 is stably supported.

And, even if the suction belt 432 is wound upward in the first belt feed roller 430, the soup 30 is moved along the soup feed belt 456 to the auxiliary roller 458, and the soup feed belt (B) Since the 456 is wound downward from the auxiliary roller 458 and is freely dropped, it is accurately contained in the ramen 20 placed by the adsorption and transport member 12 transported along the conveyor 10, thereby increasing the drop accuracy.

In particular, when the fat falls, there is no part that takes the soup 30, unlike the conventional soup 30 does not occur.

Hereinafter, with reference to the accompanying drawings to look at the operation of the high speed soup supply apparatus having a soup cutting transport apparatus according to an embodiment of the present invention.

As shown in FIG. 1 and FIG. 10, first, the soup 30 connected by the sealing part 32 is transferred to the supply roller 50 via the entry roller 40.

The supply roller 50 has a separation prevention jaw 52 for preventing the separation of the soup 30 is formed, the separation is prevented soup 30 is the first, second roller 124 of the thickness detection unit 100 ( 134).

As shown in Figures 3 and 4, look at the state of use of the thickness detection unit 100.

Since the soup 30 and the sealing part 32 alternately move the first and second moving rollers 124 and 134 of the thickness detecting part 100, the guide member 131 moves to the left and right with respect to the moving frame 120. The guide member 131 spread by the spring 192 fixed to the fixing protrusion 194 and the fixing frame 110 is returned to its original position.

On the other hand, when the soup 30 and the sealing part 32 alternately moves, when the part of the soup which does not contain the soup 30 is generated, the thickness of the soup 30 is not covered with the thickness of the soup sensor 136 The controller detects and outputs an alarm signal or stops the high speed soup feeder.

If the soup without the soup 30 is supplied to the ramen 20 as it is, consumers can buy the ramen without soup, there is a fear that mass production of defective products can be solved.

When the soup 30 passes through the first and second rollers 124 and 134 and the sealing part 32 passes through the third and fourth rollers 146 and 154, the soup 30 passes. The first and second supports 140 and 150 are opened based on the rotation shaft 142, and when the sealing part 32 passes, the first and second supports 140 and 150 are hardly opened. .

That is, when the soup 30 passes through the third and fourth rollers 146 and 154, the first and second support members 140 and 150 are opened due to the thickness of the soup 30. The sensor 171 installed on the second support 140 or 150 detects the moving state of the sensing protrusion 182 to detect a state where the soup 30 passes.

At this time, when the thickness of the soup 30 is detected, the power generating member 330 for driving the polygonal roller 366 to match the cutting position of the sealing portion 32 of the cutter 340 installed in the subsequent polygonal roller 366 Will be controlled. The thickness sensing unit 100 is to be used in advance to set the presence or absence of the mark portion 34 to the operation unit 6 in advance before the work to be used only when there is no mark portion 34 in the sealing portion (32).

And, if you want to adjust the height of the first, second, third, fourth roller 124, 134, 146, 154 to rotate the height adjustment handle 184 in the desired direction, integrally coupled The screw shaft 191 is rotated from the protrusion 112 so that the moving frame 120 coupled with the screw portion 211 moves up and down with respect to the fixed frame 110 to adjust the height.

Then, the soup 30 and the sealing part 32 which passed the thickness detection part 100 are supplied below through a pair of guide rollers 272.

On the other hand, the mark detection sensor 278 is installed between the pair of guide rollers 272, if there is a mark portion 34 in the sealing portion 32, it detects the subsequent feeding roller 329 and the multiple rollers By controlling the power generating members 320 and 330 driving the 336, respectively, the position of the cutter 340 installed in the polygonal roller 336 is controlled to be accurately positioned in the middle of the sealing portion 32.

The mark detection sensor 278 performs the same role as the sensor 171 of the thickness detecting unit 100, and when the sealing unit 32 has the mark unit 34, the mark detecting sensor 278 is referred to. If there is no mark 34, the sensor 171 of the thickness detecting unit 100 is used.

Whether the mark detecting sensor 278 and the sensor 171 of the thickness detecting unit 100 are used or not is determined by the operator by visually determining whether the mark portion 34 is present in the sealing portion 32 of the soup 30. Since the signal is input to (6), it can be selected and used.

On the other hand, look at the state of use of the soup cutting transport device (A) according to the present invention.

As shown in FIGS. 5 to 10, the soup 30 past the mark detection sensor 278 and the sealing portion 32 are drive pulleys that are power transmission members 322 driven by the power generating member 320. 324, the belt 325 and the driven pulley 326 drive the pull rollers 328 and 329 to pull the side sealing portion 34 provided on the side of the sealing portion 32 and the soup 30. To be transported.

In order to provide the frictional force of the feeding rollers 328 and 329, the surface is provided with a knurling protrusion.

The soup 30 and the sealing portion 32 moved by the feeding rollers 328 and 329 by the force pulling the side sealing portion 34 are driven by the power generating portion 330, a drive gear 333, The first roller 334 and the second driven gear 342 are rotated while the polygonal rollers 336 and 344 face each other, and the cutters 340 installed in the three protruding grooves 338 and 345, respectively. As the cutter support member 346 supporting the cutter 340 is rotated, the sealing work 32 is cut three times in one rotation.

That is, in the related art, since the cutter operates by cutting once every day, cutting is delayed, whereas the present invention is made in a rotating manner, and thus cutting is performed at a high speed according to the rotational speed.

Since the cutter 340 uses a wave-type cutter formed like a sawtooth, the cutting portion of the sealing portion 32 is cut into a saw blade shape so that when the user opens the soup 30, the saw blade groove portion is cut so that the soup ( 30) is well cut to provide convenience for the consumer.

Then, the state of use of the first and second pressing parts 370 and 380 for adjusting the interval between the pair of pull rollers 328 and 329 and the pair of polygonal rollers 336 and 344 will be described.

First, as shown in FIGS. 4 to 7, if the distance between the pair of pull rollers 328 and 329 and the pair of polygonal rollers 336 and 344 is narrowed, the first and second pressurizations are reduced. When the first and second fastening members 378 and 388 which are fastened to the shafts 376 and 386 are released, the first and second compression shafts 376 and 386 are released, and the first and second springs are loosened. The first and second push members 374 and 384 are moved to the left side by the elastic force of the 377 and 387 to push the first and second moving members 372 and 382.

Therefore, the pulling rollers 329 fixed to the first and second moving members 372 and 382 and the polygonal roller 344 move toward the other pulling roller 328 and the polygonal roller 336 which are in contact with each other, thereby increasing adhesion. Let's go.

On the other hand, if you want to widen the interval between the pair of pull rollers (328) (329) and the pair of polygonal rollers (336, 344), the first and second compression (376) (386) fasteners When the first and second fastening members 378 and 388 are locked, the first and second compression compressors 376 and 386 are pulled and the first and second springs 377 and 387 are elastically compressed. The first and second push members 374 and 384 are moved to the right side, such as the first and second compression compressors 376 and 386, and the pressing force of the first and second moving members 372 and 382 is increased. To alleviate

Therefore, the pulling roller 329 and the polygonal roller 344 fixed to the first and second moving members 372 and 382 fall on the other pulling rollers 328 and the polygonal roller 336 that are in contact with each other, thereby increasing adhesion. Relaxed.

And, the soup 30 just before the cutting is made of the suction belt 432 by the adhesive brush 364 of the contact roller 362 rotated by the pulley 365 and the belt 261 of the polygon roller 344. It adheres well to the surface and serves to help the sealing portion 32 to be pulled tight. Of course, the soup 30 made of the cutting of the sealing portion 32 also serves to help the vacuum adsorption.

As shown in FIG. 8, the soup 360 closely contacted by the contact brush 364 is attached to the adsorption hole 434 of the adsorption belt 432 by the air sucked into the inlet 436 of the adsorption member 440. Adsorbed and transported to the lower side in accordance with the movement of the suction belt 432.

The first belt transfer roller 430 driving the suction belt 432 is rotated by the power of the power generating member 412 and the driven pulley 422 which is rotated by the power transmission of the belt member 414. do.

On the other hand, the bottom surface of the suction puller 400 is provided with a soup conveying portion 450, in a state that the soup supply belt 456 supports the bottom surface of the soup 432 to be transported to the lower side by the suction belt 432. It feeds at the same speed as the suction belt 432.

Then, when the soup feed belt 456 is rotated and the soup 30 is no longer supported by the auxiliary belt 458, the soup 30 is no longer supported, so that the soup falls down by its own weight and is transported along the conveyor 10. The ramen 20 placed in the member 12 is placed and transferred to a subsequent packaging process.

The soup feed belt 456 of the soup feeder 450 is configured to be driven by receiving the power of the belt member 414 which is rotated by the power generating unit 412 which drives the suction belt 432, but separately if necessary. It is provided with a drive means of the suction pull unit 400 may be configured to separate the driving force.

By repeatedly passing through this process, the soup 30 and the sealing part 32 are continuously supplied, and the sealing part 32 is cut at high speed to supply the soup 30 at high speed, thereby improving productivity unlike the conventional art.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and those skilled in the art to which the art belongs can make various modifications and other equivalent embodiments therefrom. I will understand.

Therefore, the true technical protection scope of the present invention will be defined by the claims below.

4 body 10: conveyor
20: Ramen 30: Soup
32: sealing part 34: mark part
40: entry roller 50: supply roller
100: thickness detection unit 110: fixed frame
112: protrusion 120: moving frame
124: first roller 130: blood detection unit
134: second roller 136: blood detection sensor
140: first support 142: rotation axis
146: third roller 150: second support
154: fourth roller 160: elastic portion
162: spring 164: support member
165: support plate 170: sensor
200: feeding unit 210: power generating unit
211: power transmission unit 220: main power supply unit
224: copper supply belt 226: copper plate
232: tension roller 240: driven supply
244: driven plate 254: driven supply belt
260: spacing control unit 262: cylinder
266: fixing member 268: spring
300: cutting unit 310: fixed frame
320,330: Power generating member 322,332: Power transmitting member
328,329: Moving roller 336,344: Multi-angle roller
350: pressing portion 351: push member
356: tightening member 358: position fixing plate
360: close contact 361: belt
262: adhesion roller 400: adsorption transfer part
414: belt member 430: first belt feed roller
440: adsorption member 450: soup transfer unit
4454: second belt feed roller 456: soup feed belt
458: auxiliary roller 460: tension control roller

Claims (13)

A feeding part for rotationally conveying the soup connected by the sealing part;
A cutting portion for cutting the soup between the soup and the sealing portion conveyed by the feeding portion and the sealing portion rotating;
An adsorption pull unit which provides tension by pulling the soup and the sealing unit by vacuum adsorption transfer before cutting the sealing unit for accurate cutting of the sealing unit by the cutting unit; And
Soup cutting is characterized in that it is disposed so as to move in close contact with the suction pull portion and the feed portion which is adsorbed by the suction pull and precisely sequentially supplied to the ramen being transported soup is cut by the cutter. Conveying device.
The method of claim 1,
The feeding part is provided in the main body portion, the power generating portion for generating power;
A power transmission unit for transmitting power of the power generation unit; And
And a pair of feeding rollers which are brought into close contact with both sides of the side sealing part located on one side of the soup part and the soup by the power transmitted from the power transmitting part.
The method of claim 2,
The power transmission unit, a drive pulley driven by the power generating unit;
A belt wound around the drive pulley to transmit power;
A driven pulley engaged with the belt and provided on the shaft of one of the feeding rollers to drive the belt;
A drive gear axially coupled to any one of the feeding rollers inside the driven pulley;
And a driven gear meshed with the drive gear and axially coupled to the other feeding roller to cause the pair of feeding rollers to rotate at the same rotational speed.
The method of claim 1,
The feeding part, the soup cutting transport apparatus further comprises a first pressing unit for adjusting the pressing force of the sealing portion by pressing or releasing any one of the pull roller of the pair of pull rollers.
The method of claim 4, wherein
The first pressing unit includes: a first moving member installed in the first space portion of the support frame to support and move the pull roller;
A first push member for pushing and pushing the first moving member;
A first position fixing plate fixed to the support frame such that a first pressing force for pressing the first push member slides;
A first tightening member which is fastened or tightened to loosen or loosen the end screw portion of the first compressive force so as to slide the first movable member to operate the first compressive force;
And a first spring installed around the first compressive compression and having one end pushing the first push member and the other end supported by the first position fixing plate to apply an elastic force to the first push member. .
The method of claim 1,
The cutting unit includes a power generating unit for generating power;
A power transmission unit for transmitting power of the power generation unit; And
Soup cutting transport apparatus characterized in that it comprises a pair of polygonal roller which is provided in any one of a plurality of cutters for cutting the sealing portion of the soup and the sealing portion by the power transmitted from the power transmission unit.
The method according to claim 6,
The power transmission unit includes a drive gear driven by the power generation unit;
A first driven gear engaged with the drive gear to drive one of the polygonal rollers;
And a second driven gear that is engaged with the first driven gear to drive the other one of the polygonal rollers.
The method of claim 1,
The cutting portion, the soup cutting transport apparatus further comprises a second pressing portion for adjusting the pressing force of the sealing portion of the sealing by pressing or releasing the pressure of any one of the pair of polygonal rollers.
The method of claim 8,
The second pressing unit includes: a second moving member installed in the second space portion of the support frame to support and move the polygonal roller;
A second push member for pushing and pushing the second moving member;
A second position fixing plate fixed to the support frame such that a second pressing force for pressing the second push member slides;
A second fastening member which is fastened or tightened to loosen or loosen the end screw portion of the second compression shaft so as to slide the second movement member to operate the second compression shaft;
And a second spring installed around the second compressing force, one end of which pushes the second push member, and the other end of which is supported by the second position fixing plate, to apply an elastic force to the second push member. .
The method according to claim 5 or 9,
The first and second position fixing plate, the soup cutting transport apparatus, characterized in that coupled or separated by a plurality of fastening members fastened to the support frame.
The method of claim 1, wherein the suction pull unit,
A belt member installed on the main body to drive a driven pulley under the power of the power generating member, and to drive the soup feeder together;
A first belt feed roller which is integrally connected to and driven by the driven pulley;
An adsorption belt driven by the first belt transport roller and configured to adsorb and transport the cut soup to adsorption holes;
And a suction member having a suction port to guide the suction belt to the outside and suction the air into the suction hole in a vacuum.
The method of claim 11, wherein the soup feed unit
A second driven pulley disposed to have a set distance from the first driven pulley and wound and driven by the belt member;
A second belt feed roller which is integrally connected to the second driven pulley and rotates and rotates in a direction opposite to the rotational direction of the first belt feed roller;
And a soup feed belt which is driven in an endless track by the second belt conveying roller, and closely adheres the soup at a speed corresponding to that of the suction belt while supporting the bottom of the soup to be sucked and transported to the suction belt. Soup cutting feeder.
The method according to claim 11 or 12,
The suction belt of the suction transfer part is provided with a tension control member for adjusting the tension in accordance with the height,
Soup cutting transport device characterized in that the supply belt is provided with a tension control roller for adjusting the tension in accordance with the height of the feed pipe.

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