KR200449076Y1 - Laver cutting equipment - Google Patents

Abstract

This invention,

The container 10 is loaded up and down in the container loading guide 110 and is driven by the motor 121 to be connected to the belt 122 and rotated, and meshes with the gear interlocked with the driven shaft 123. It is provided with a gear 124, the coupling shaft 132 is interlocked with the gear 124, the connecting shaft 132 'by the gear interlocked with the driven shaft 123, the connecting shaft 132 And horizontally provided with a rotary bar 120 connected to one end of the driven shaft 123 to be rotated and slidingly moved back and forth according to the rotation of the driven shaft 123 to push the container 10 forward. The pusher 130 is provided, and the link 131 connected to the rotary bar 120 is rotated by the connecting shaft 132 interlocked with the gear 124, and the connecting shafts 132 and 132 '. Grooves 133 and 133 'are formed on the outer circumferential surface, and the edge 11 of the container 10 is pinched toward the grooves 133 and 133' by rotating the connecting shafts 132 and 132 '. Container supply unit 100 to be dropped and dropped,

The desiccant 30 is connected and administered to the inside of the container 10 supplied from the vessel supply unit 100, and is to cut and process the desiccant 30 individually, and has a through-hole 211 spaced at equal intervals. Desiccant cutting and supply unit 200 having a blade plate 220 is formed in the upper fixing plate 210 and the blade through-hole 221 on the same side as the through-hole 211, and

When the container 10 to be supplied individually by the desiccant cutting and supplying unit 200 is set to nine, the first end of opening or closing the front end side of the container 10 set to be transported by the conveyor belt 140 Controlling the gate 300 and the nine set containers to be transported by the opening of the first gate 300 to stop and at the same time the cutting seam 20 to be transported after being stored in the container. 2 gate 310,

A feed conveyor 410 is provided to load and transport a plurality of ladles, and an alignment bar 420 is provided at the distal end of the supply conveyor 410 to arrange a plurality of ladles, and a center upper side of the feed conveyor 410 is provided. It is fixed to the steaming pushing unit 430 for pushing the rear side of the steam supplied along the supply conveyor 410,

Kim Jaejae block 500 for loading a plurality of sheets of laver supplied by the laver pushing unit 430,

Each container in a state of being stopped by the second gate 310 by cutting the plurality of sheets of seaweed 20 transported by the laver block 500 and picking up the plurality of seams of seaweed 20 processed. (10) seam cutting and accommodating portion 600 to accommodate the plurality of seams 20 cut into the inside,

Each container 10 in which the laver 20 cut by the laver cutting and accommodating part 600 is accommodated is conveyed along the conveyor belt 140 by the opening of the second gate 310 and is disposed on the front side. To be aligned, characterized in that consisting of the guide pushing portion 700 to be supplied and guided by the row of the container 10 to be aligned in each of the nine lines,

Automatically cutting baked seaweed to be automatically stored in each container, but the storage process of baked seaweed cut into the container can be easily and accurately stored and applied without error, thereby improving the accuracy of the storage work of the cutting seaweed. Of course, it is possible to improve the work productivity and work reliability thereby, and relates to a laver cutting device that can expect a significant reduction in the overall production cost.

Laver, cutting device, container supply part, desiccant cutting, 1st gate, 2nd gate, laver loading block, laver cutting and accommodating part, pushing part

Description

Laver cutting device {LAVER CUTTING EQUIPMENT}

The present invention relates to a laver cutting device for cutting the laver to a certain standard, after loading a large number of baked laver and transported to the cutting part side and then cut processing, and after the addition of the desiccant to the container inside the accommodating the laver treated cutting The seaweed cut in the container and the inside of the container are automatically discharged to the discharge tray side, and the seaweed cut in the cutting process of the baked seaweed can be accurately stored in each container. Due to this, it is possible to prevent the operation state of the equipment to stop, so that a series of processes according to the cutting of the roasted seaweed and storage in the container is automatically repeated, and relates to a seaweed cutting device for improving work productivity.

Seaweed is included as one of the main side dishes of the dietary culture in many countries of the East, such as Korea and Japan.

These seaweeds are purchased from raw seaweed at home and are cooked by seasonings such as oil and salt before they are cooked separately. It is well known that there is a tendency to eat easily.

The production process of laver, which is cooked and supplied in a packaged manner as described above, is usually a laver seasoning process in which raw laver is coated with oil and seasoning, followed by roasting, laminating a plurality of roasted laver and then cutting the cut laver. It is classified into roasting processing process that stores roasting seaweed in packing container and enables long-term storage and distribution.

In the roasting process, partial automation is performed only in the cutting process in a series of processes for storing the roasted laver after the laver seasoning process, and storing the laver cut to a certain standard in the packaging container. The process has been pointed out as a problem for improving productivity since a large number of people are going by manual work.

In order to solve this problem, the prior art filed and registered or published by the Korean Intellectual Property Office is Utility Model Registration No. 344111, "Automatic Roasting Processing System", and Patent Registration No. 0515442, "Roasting Automatic Cutting and Storage Device". And Patent No. 515443, "Automatic Cutting Device for Continuous Unit Packing Pack," are disclosed.

In the case of these prior arts, the conventional problem is solved, but the utility model registration No. 344111, "Automatic roasting processing system", the process of cutting the roasting and then storing the roasting cut into the container by the pusher In, the plurality of pressure rods are inclined to accommodate the roasted cut inside the container, it is difficult to be accurately stored in the container side according to the inclination angle of the pressure rod.

In other words, the roasted cut by the separation distance between the edge of the container rather than the interval between the cut roasted as it is vertically lowered as it can not be stored in the container, in the case of the prior art is formed so as to incline the pressure bar in order to solve this Since the roasted seaweed is inclined to be stored in the container in an inclined state, and the roasting water entering the inside of the container cannot be stored accurately according to the difference in the inclination angle, the operation of the device is stopped during the work process. The hassle of having to re-adjust or inadequately roast roast in the container by hand is followed.

In addition, in the case of conventional laver cutting device, the maintenance cycle is relatively short such that the equipment should be newly repaired after about 1 year of use. It is relatively easy to obtain, there is a problem that the maintenance cost is increased because the frequency of maintenance work for the device is frequently inserted into the foreign matter in the cutting process.

Therefore, there is such a problem that the reliability of the productivity is lowered, there is a problem that the production efficiency is variable.

The present invention has been made in order to solve the above problems, and after cutting the roasting supplied in the baked state by the whole process, so that the cut roasted to be stored in the container accurately, roasting It is an object of the present invention to improve the productivity by preventing the phenomenon that the roasting cut in the process of cutting and storage of the wrong way out of the container, thereby preventing the operation stop of the device.

In addition, the present invention, to control the cutting specifications to be precisely made when cutting the seaweed, to facilitate maintenance work on site without disassembling the device during maintenance, as well as to extend the maintenance work cycle, the overall maintenance Another aim is to reduce maintenance costs.

The present invention for achieving the above object,

The container 10 is loaded up and down in the container loading guide 110 and is driven by the motor 121 to be connected to the belt 122 and rotated, and meshes with the gear interlocked with the driven shaft 123. It is provided with a gear 124, the coupling shaft 132 is interlocked with the gear 124, the connecting shaft 132 'by the gear interlocked with the driven shaft 123, the connecting shaft 132 It is provided with a horizontal and connected to one end of the driven shaft 123 and rotates to the rotation bar 120, the sliding movement back and forth in accordance with the rotation of the driven shaft 123 and pushes the container 10 to the front side A pusher 130 is provided to allow the link 131 connected to the rotary bar 120 to be rotated by the connecting shaft 132 interlocked with the gear 124, and the connecting shafts 132 and 132 ′. ) Grooves 133 and 133 'on the outer circumferential surface, and the edge 11 of the container 10 is moved toward the grooves 133 and 133' by rotating the connecting shafts 132 and 132 '. And a container supply unit 100 such that War becomes fall,

The desiccant 30 is connected and administered to the inside of the container 10 supplied from the vessel supply unit 100, and is to cut and process the desiccant 30 individually, and has a through-hole 211 spaced at equal intervals. Desiccant cutting and supply unit 200 having a blade plate 220 is formed in the upper fixing plate 210 and the blade through-hole 221 on the same side as the through-hole 211, and

When the container 10 to be supplied individually by the desiccant cutting and supplying unit 200 is set to nine, the first end of opening or closing the front end side of the container 10 set to be transported by the conveyor belt 140 Controlling the gate 300 and the nine set containers to be transported by the opening of the first gate 300 to stop and at the same time the cutting seam 20 to be transported after being stored in the container. 2 gate 310,

A feed conveyor 410 is provided to load and transport a plurality of ladles, and an alignment bar 420 is provided at the distal end of the supply conveyor 410 to arrange a plurality of ladles, and a center upper side of the feed conveyor 410 is provided. The pusher 432 is fixed to but provided with a pusher 432 to be moved forward by the cylinder 431 to push the rear side of the steam supplied along the supply conveyor 410 and the pusher 430,

Kim Jaejae block 500 for loading a plurality of sheets of laver supplied by the laver pushing unit 430,

Each container in a state of being stopped by the second gate 310 by cutting the plurality of sheets of seaweed 20 transported by the laver block 500 and picking up the plurality of seams of seaweed 20 processed. (10) seam cutting and accommodating portion 600 to accommodate the plurality of seams 20 cut into the inside,

Each container 10 in which the laver 20 cut by the laver cutting and accommodating part 600 is accommodated is conveyed along the conveyor belt 140 by the opening of the second gate 310 and is disposed on the front side. To be aligned, it provides a laver cutting device, characterized in that consisting of a guide pushing portion 700 to be supplied and guided by a row of containers 10 are arranged in each of the nine.

According to the present invention, the roasted seaweed is automatically cut and automatically stored in each container, but the storing process of the baked seaweed cut into the container can be easily and accurately stored and applied, so that the storage operation of the cut seaweed is accurate. In addition to this, it is possible to improve the work productivity and the work reliability thereby, which can be expected to significantly reduce the overall production cost.

In addition, according to the present invention, it is possible to provide the ease and convenience of operation by disassembling the device during the maintenance work of the device, and to reduce the frequency of the maintenance work can be expected to reduce the overall maintenance cost have.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

The present invention is to be supplied by the laver supply unit 400 in a state of stacking a plurality of laver (20) to be supplied in a baked state as described above, but first through the container supply unit 100, a desiccant (10) 30 is automatically administered by the desiccant cutting and supplying unit 200 and is sequentially supplied, and after passing through the first gate 300 to the respective vessels 10 that are stagnant, the laver 20 described above. After loading to the laver loading block 500 side by the supply unit 400 to be transported to the laver cutting and accommodating unit 600 side, the laver 10 to be cut into nine pieces and cut into each container 10 side After the seaweed 20 is received, and then transferred to the front side by the opening of the second gate 310, the container 10 is moved forward by one line under the control of the guide pushing portion 700, and discharged Automated repetition of a series of processes for discharging to the tray (not shown) It was made.

In this case, the container supply unit 100 is a part for automatically supplying the individual container 10 in which the baked laver in FIGS. 1 to 3 can be stored.

The container supply unit 100 for this is provided with a container loading guide 110 for allowing the container 10 to be loaded up and down on the rear end side, the container 10 is put into the container loading guide 110 and stacked in multiple stages. A motor 121 is provided on the side to drop the driven shaft, and a driven shaft 123 connected to the belt 122 is provided according to the driving of the motor 121.

In addition, a gear 124 is engaged with the gear interlocked with the driven shaft 123, and a connecting shaft 132 interlocked with the gear 124 is provided.

In addition, the connecting shaft 132 ′ by a gear interlocked with the driven shaft 123 was provided horizontally with the connecting shaft 132.

In addition, the slide is moved back and forth according to the rotation of the driven shaft 123 is provided with a pusher 130 for pushing the container 10 to the front side.

On the other hand, it is provided by the rotation bar 120 to be interlocked in order to drop the container 10 in accordance with the rotation of the driven shaft 123 is rotated by a link 131 connected to the rotation bar 120 Each connecting shaft 132, 132 'is configured to traverse the lower end portion of the container loading guide 110, the outer peripheral surface of the connecting shaft 132, 132' constitutes a groove (133, 133 ').

The connecting shafts 132, 132 'are rotated by the grooves 133, 133' configured as described above, and the connecting shafts 132, 132 'are placed in the state where the edge portion 11 of the container 10 is placed on the upper side of the grooves 133,133'. Rotating the edge portion 11 is inserted into the grooves (133,133 ') to guide the fall.

Therefore, the container 10 is sequentially dropped and the desiccant 30 may be cut and administered into the respective containers 10 by cutting and supplying the desiccant, which is a subsequent process.

The desiccant cutting and supplying unit 200 is configured to administer the desiccant 30 to the inside of the container 10 to be supplied when the container 10 is automatically supplied sequentially as described above.

As shown in Figure 3, the desiccant cutting and supply unit 200, when the desiccant 30 is connected and is supplied in a reel-shaped winding state, in order to automatically cut the supplied desiccant 30, the lower end portion The upper fixing plate 210 is fixed and is provided with a blade plate 220 sliding to the left and right at the bottom of the upper fixing plate 210.

In addition, a plurality of through holes 211 formed in the upper fixing plate 210 are formed, so that the desiccant 30 passes through the through holes 211 side, and the same number of blade through holes 221 also as the blade plate 220. ) Was perforated to allow the desiccant 30 to pass through the through hole 211.

On the other hand, when one desiccant 30 is inserted into each of the through holes 211 and the blade through hole 221 of the upper fixing plate 210 and the blade plate 220, the blade plate 220 by the operation of the cylinder (not shown) It is transferred to the left or right, as the through-hole 211 of the blade plate 220 of the blade plate 220 and the through-hole 211 of the upper fixing plate 210 as shown in the partial enlarged view of Figure 3, the desiccant 30 and the desiccant The connection part between 30 is cut off.

The desiccant 30 cut in this manner is introduced into the container 10 which is stopped below the guide plate 230 while falling along the guide plate 230 guided below.

As the desiccant 30 is respectively administered into the container 10 supplied by the desiccant cutting and supply unit 200 as described above, the container 10 of the conveyor belt 140 is set until nine containers are set. It should be stopped in spite of the operation, and when the nine containers 10 are set as described above and the supply of the desiccant 30 is completed in each container 10, the nine containers 10 A first gate 300 as shown in FIG. 2 is provided to control the entire movement.

As described above, when the nine containers 10 are set as described above, the first gate 300 is opened so that the nine containers 10 are simultaneously transported along the conveyor belt 140.

On the other hand, the front side of the first gate 300 is provided with a second gate 310 to be stopped in order to accommodate the seaweed cut into each container 10 after the seaweed 20 is cut.

The first gate 300 and the second gate 310 are controlled to be sequentially opened.

That is, as described above, all of the desiccant 30 is administered into each container 10 by blocking the first gate 300 to set the nine containers 10 in one set, and then the first gate ( When 300 is opened, the second gate 310 maintains the stopped state and waits.

On the other hand, the laver supply unit 400 is a means for supplying a plurality of baked laver by the worker, is provided with a feed conveyor 410 to be transported by loading a plurality of laver and a plurality of laver on the end of the supply conveyor 410 The alignment bar 420 is provided to be aligned, and the pusher 432 which is fixed at the center upper side of the supply conveyor 410 but is forward-transferred by the cylinder 431 is provided along the supply conveyor 410. It consists of a laver pushing portion 430 for pushing the rear side of the laver supplied.

On the other hand, the supply conveyor 410 is composed of a plurality of conveyors as shown in the figure, the pusher 432 should be located between the conveyors when the pusher 432 moves forward according to the operation of the cylinder 431 Therefore, it is preferable to configure to avoid the interference by the pusher 432.

When the worker puts a large number of baked laver on the supply conveyor 410 by the laver supply unit 400, the supply conveyor 410 is driven and forwarded by the laver.

In addition, when passing through the central point of the supply conveyor 410 in accordance with the forward movement of the seam by the operation of the cylinder 431 after the pusher 432 is lowered by the lower cylinder 433 of the gimpus pushing portion 430. The pusher 432 moves forward and pushes the rear end side of the seaweed so that the pusher 432 may be seated toward the above-described laver loading block 500.

At this time, when the laver is conveyed to the laver loading block 500, the alignment bar 420 is provided on both sides of the supply conveyor 410 as shown in the drawing on the distal end of the supply conveyor 410 for correct alignment of the laver. It is preferable.

The laver loading block 500 is for stacking and arranging a plurality of baked laver, and as shown in FIG. 4, a seating table 540 is provided as an upper surface of the base 520, and an outer surface of the outer base 520 is provided. By forming a vertical rod 530 that is vertically fixed to facilitate the alignment of the laver 20 seated on the seating table 540, the blade groove 541 is divided into equally horizontally and vertically the seating table 540 is The lifting plate 550 is provided with a lattice, and the lifting plate 550 is elastically lifted by the spring 552 of the rod 551 on the front of the base part 520 and the lifting plate is lifted up and down according to the lowering of the seam cutting unit 600. 550 is provided, and a guide bar 553 for guiding the laver 20 connected to and supplied with the lifting plate 550 is provided, and the guide bar is interlocked according to the lowering of the lifting plate 550. Guy to the seat 540 to be in the fall of 553 The draw bar inlet groove 554 is provided.

When the laver 20 is seated on the laver loading block 500 by the operation of the laver supply unit 400, the lifting plate is configured to guide the laver to rest properly on the laver loading block 500. The guide bar 553 is connected to the 550.

Therefore, the laver being transported is to be transported forward by the guide bar 553, the position of the guide bar 553 at this time is located on the upper surface of the seating table 540 in the laver loading block (500).

As described above, when the seaweed 20 is seated under the guidance of the guide bar 553 described above on the upper surface of the seaweed loading block 500 (generally, 10 seaweeds are settled), the seaweed cutting and accommodating part 600 The cutting knife 634 is guided through the laver 20 stacked by the cutting knife 634 and is cut into the blade groove 541 of the seating table 540 and cut the laver 20. Will be processed.

At this time, the above-described guide bar 553 should be lowered to eliminate the interference phenomenon with the cutting knife 634.

To this end, as shown in the drawing, the guide bar 553 is connected to interlock with a lifting plate 550 located at the front side of the seating table 540, and the lifting plate 550 is along the rod 551. It is preferably configured to be able to lift up and down, and to provide elasticity to the lifting plate 550, a spring 552 is wound around an outer circumferential surface of the rod 551 to elastically support the bottom of the lifting plate 550.

On the other hand, while the cover plate 640 in the seam cutting and accommodating portion 600, which will be described later as to lower the movement of the elevating plate 550, the end of the cover plate 640 is the elevating plate 550 The upper surface of the will be pressed down.

The guide bar 553 which is interlocked with the lifting plate 550 in accordance with the lowering of the lifting plate 550 forms a guide bar inlet groove 554 along the longitudinal direction of the seating table 540, as shown in FIG. 4. As it is lowered so as to be inserted into the guide bar inlet groove 554, the interference phenomenon with the cutting knife 634 does not occur.

The laver cutting and accommodating part 600 is a configuration for accommodating the laver 20 cut to each container 10 at the same time while cutting the laver 20 seated on the laver loading block 500, 5 to 9, the elevating plate 612 that is lifted up and down along the rod 611 by the operation of the cylinder 610, and the second cylinder 620 that is fixed to the lower portion of the elevating plate 612. A fixed plate 613 connected to the lower end and allowing the second rod 621 connected to the lower end of the elevating plate 612 to pass therethrough, and a rod guide plate 630 connected to the end of the second rod 621. In addition, nine rods 631 are provided at the lower end of the rod guide plate 630 to pass through the cutting knife fixing block 632, and a pusher 636 for pushing the laver 20 to the end of the rod 631. Is integrally formed and penetrates through the pusher 636, but the upper side is in the cutting knife fixing block 632. The cutting knife fixing block 632 which is fixed and is provided with a pin 633 for picking up and passing through the seaweed 20, and a guide plate 635 covering the outer periphery of the lower cutting knife fixing block 632. Are each provided and the cutting knife 634 between the cutting knife fixing block 632 in the inner direction of the guide plate 635, and the horizontal to ensure that the gimyeo and the entire receiving portion 600 is transferred on a horizontal line The transfer cylinder 650 is supported by the transverse plate 670 across both vertical fixing plates 660, and the guide 680 transferred by the horizontal transfer cylinder 650 is inside the vertical fixing plate 660. It was made to add.

Accordingly, the second rod 621 and the cover plate 640 which are connected to the elevating plate 612 and the second cylinder 620 and the elevating plate 612 according to the operation of the cylinder 610 are cut. The knife fixing block 632 is lowered at the same time.

As described above by the cutting knife fixing block 632 to be lowered at the same time as a number of laminations on the seating table 540 of the laver loading block 500 and the laver 20 transported in a seated state standardized size Cutting process.

Meanwhile, as described above, according to the lowering of the cutting knife fixing block 632, a plurality of sheets of seaweed 20 seated on the seating table 540 of the laver loading block 500 are cut in a standardized state. It is in a state of being fitted to the pin 633 fixed to the cutting knife fixing block 632.

Meanwhile, a pusher 636 is connected between the pins 633 and a rod 631 extending from the rod guide plate 630, and the pusher 636 is operated according to the operation of the second cylinder 620. While descending, a plurality of seams 20 inserted in the pin 633 are removed to be stored inside the container 10.

That is, if it is described again, when the seam 20 is seated on the seam loading block 500, the cylinder 610 of the top end of the seam cutting and accommodating part 600 operates to move up and down the plate 612, the cover plate 640. The cutting knife fixing block 632 and the cutting knife 634 are simultaneously lowered while the seam 20 seated on the seating table 540 of the laver loading block 500 is standardized by the cutting knife 634. Cutting process.

When the cutting process as described above is in a state in which the seaweed 20 is cut into the pin 633 is inserted, the outer peripheral side of the cut seaweed is to be picked up by the cutting blade 634 and the guide plate 635. do.

That is, the cut seaweed is guided by the guide 680 according to the operation of the horizontal transfer cylinder 650 in the state picked up by the cutting blade 634, the guide plate 635 and the pin 633, the container 10 described above. That is, the cutting and accommodating part 600 is positioned on the upper side of the nine containers 10 set to be stopped by the second gate 310.

On the other hand, the horizontal transfer cylinder 650 is for transporting the gimjeom and the receiving portion 600 on the horizontal line, so as to be supported by the transverse plate 670 across the two vertical fixing plate 660 above. The guide 680 transported by the horizontal transfer cylinder 650 is arranged in parallel with the vertical fixing plate 660.

Here, the meaning of "both sides" should be interpreted as meaning the front and rear sides of the seam cutting and accommodating portion 600.

On the other hand, the cutting knife fixing block 632, as described above, before the horizontal cutting of the seam cutting and receiving portion 600 by the horizontal transfer cylinder 650, the cutting knife fixing block 632 in front, rear, left and right Each of them should be spaced apart.

That is, the cutting knife fixing block 632 for this is provided with a cover plate 640 covering the upper outer periphery, the cutting knife fixing block 632 toward the cover plate 640 side in the left and right and diagonal directions According to the operation of the transfer cylinder 641 provided on the side of the cover plate 640 as shown in Figures 8 to 9 the gap is opened to be transported.

As described above, the cutting blade fixing blocks 632 are spaced apart from each other so that the center angle of the center of the container 10 is cut by the interference of the edge portion 11 between the container 10 and the container 10. It is common to form a wider than the distance between the center of the (20), in order to correspond to such a difference, the distance is widened by the transfer cylinder 641 provided on the side of the cover plate 640 This is because the position of the cut seaweed 20, which is located above the container 20 side, must correspond.

On the other hand, when the cutting knife fixing block 632 is opened as described above, the rod 631 which is interlocked with the cutting knife fixing block 632 is also opened in the space spaced to a certain degree of the rod guide plate 630.

In this manner, the cutting knife fixing block 632 is opened in a position corresponding to the position of the laver 20 and the container 10 inserted into each pin 633.

After reaching this state, the second cylinder 620 fixedly mounted on the lower surface of the elevating plate 612 operates to lower the rod guide plate 630, the rod 631, and the pusher 636. Done.

Therefore, since the cut laver 20 inserted into the pin 633 by the pusher 636 is pushed out of the pin 633, the laver 20 into the container 10 positioned below the laver 20. Each of these functions to be stored.

On the other hand, the guide pushing portion 700, as described above, if the seaweed 20 is cut into each container 10 is accommodated, nine containers 10 in accordance with the opening control of the second gate (310). After the supply is supplied, the three by the gate cylinder 710 is provided to be sequentially opened and each row of the container 10 to be supplied in one row, the pushing cylinder to the side of the container 10 is supplied in one row ( 730 and a pusher bar 740 transported by the pushing cylinder 730, the discharge tray guide port 750 is provided on the front end of the pusher bar 740, the container 10 is supplied in a row Is pushed to the discharge tray guide 750 is configured to be guided.

Therefore, in order to accommodate the already baked laver 20 by using the configuration of the present invention having the above-described configuration to each container 20 side to the container supply unit 100 which is supplied one by one while the container 20 is stacked and received. When the desiccant 30 is cut and administered one by one into the container 10 dropped by the pusher 130, the container 10 is set to nine while being moved forward by the pusher 130.

At this time, in order to prevent each container 130 from being transferred by the conveyor belt 140, the container 130 is stopped by the first gate side 300 of the container 130.

In addition, when the seaweed 20 in the baked state by the seaweed supplying unit 400 is sequentially supplied, and a plurality of sheets of seaweed 20 are seated on the seating stand 540 of the seaweed loading block 500, the seaweed cutting and After cutting by the cutting knife 634 of the storage unit 600, the seam cutting and receiving unit 600 is transferred to the side in accordance with the operation of the horizontal transfer cylinder 650 to the first gate (300) It is located above the set container 10 which is stopped by it.

Thereafter, the cutting knife fixing block 632 is spaced apart from each other in front, rear, left, and right sides, and the processed seaweed 20 is pusher 636 by the operation of the second cylinder 620 of the seaweed cutting and accommodating part 600. As the number of pieces of seaweed 20 which is inserted into the pin 633 is lowered into each container 10 corresponding to each of them.

When the seam 20 that is standardized and cut into a plurality of sheets is accommodated in each of the containers 10 arranged as described above, the second gate 310 is opened and stopped by the gate cylinder 710 at the tip side. The container 10, which is aligned with the sequential driving of the gate cylinder 710, is guided along the guide bar 720 line by line and positioned on the front side of the pusher bar 740. The pusher bar 740 moves forward by 730 and pushes the containers 10 arranged in line with the pusher bar 740 to the discharge tray guide 750 side by one line. After transported to the side), it will go through a known process of packaging.

1 is a schematic overall perspective view showing the configuration of the present invention

Figure 2 is a perspective view showing the connection relationship between the container supply unit and each gate and the guide pushing unit configured along the conveyor belt in the present invention

Figure 3 is a schematic diagram showing the general cross-sectional view and operation relationship of the container supply unit in the present invention

Figure 4 is a schematic perspective view of the laver loading block in the present invention

Figure 5 is a general overview perspective view of the seam cutting and storage portion adopted in the present invention

6 is a schematic front view of FIG.

7 is a bottom perspective view of the cutting knife fixing block in FIG.

8 is a schematic bottom view of the cutting knife fixing block of FIG.

FIG. 9 is a bottom view schematically showing a state in which each cutting knife fixing block is opened in left and right and diagonal directions respectively by the transfer cylinder in FIG. 8; FIG.

※ Brief description of the main symbols in the drawings

10; Container 11; Border

20; Kim 30; Desiccant

100; Container supply unit 110; Container Loading Guide

120; Rotating bar 121; motor

122; Belt 123; Driven shaft

130; Pusher 131; link

132; Connecting shaft 133; home

140; Conveyor belt 200; Desiccant Cutting and Supply Section

210; Upper fixing plate 211; Through

220; Blade plate 221; Blade

230; Guide plate 300; Gate 1

310; Second gate 500; Gold loading block

520; Base portion 530; Vertical rod

540; Seating zone 541; Blade groove

550; Elevating plate 551; road

552; Spring 553; Guide bar

554; Guide bar inlet groove 600; Gold cutting and storage

610; Cylinder 611; road

612; Elevating plate 613; Fixed Plate

620; Second cylinder 621; 2nd load

630; Road guide plates 631; road

632; Cutting knife fixing block 633; pin

634; Cutting knife 635; Guide plate

636; Pusher 640; Cover plate

641; Transfer cylinder 650; Horizontal feed cylinder

660; Vertical plate 670; Cross plate

680; Guide 700; Guide Pushing Section

710; Gate cylinder 720; Guide bar

730; A pushing cylinder 740; Pusher bar

750; Output Tray Guide

Claims (5)

The container 10 is loaded up and down in the container loading guide 110 and is driven by the motor 121 to be connected to the belt 122 and rotated, and meshes with the gear interlocked with the driven shaft 123. It is provided with a gear 124, the coupling shaft 132 is interlocked with the gear 124, the connecting shaft 132 'by the gear interlocked with the driven shaft 123, the connecting shaft 132 And horizontally provided with a rotary bar 120 connected to one end of the driven shaft 123 to be rotated and slidingly moved back and forth according to the rotation of the driven shaft 123 to push the container 10 forward. The pusher 130 is provided, and the link 131 connected to the rotary bar 120 is rotated by the connecting shaft 132 interlocked with the gear 124, and the connecting shafts 132 and 132 '. Grooves 133 and 133 'are formed on the outer circumferential surface, and the edge 11 of the container 10 is pinched toward the grooves 133 and 133' by rotating the connecting shafts 132 and 132 '. Container supply unit 100 to be dropped and dropped, The desiccant 30 is connected and administered to the inside of the container 10 supplied from the vessel supply unit 100, and is to cut and process the desiccant 30 individually, and has a through-hole 211 spaced at equal intervals. Desiccant cutting and supply unit 200 having a blade plate 220 is formed in the upper fixing plate 210 and the blade through-hole 221 on the same side as the through-hole 211, and When the container 10 to be supplied individually by the desiccant cutting and supplying unit 200 is set to nine, the first side for opening or opening or closing the front end side of the container 10 set to be transported by the conveyor belt 140. Controlling the gate 300 and the nine set containers to be transported by the opening of the first gate 300 to stop and at the same time the cutting seam 20 to be transported after being stored in the container. 2 gate 310, A feed conveyor 410 is provided to load and transport a plurality of ladles, and an alignment bar 420 is provided at the distal end of the supply conveyor 410 to arrange a plurality of ladles, and a center upper side of the feed conveyor 410 is provided. The pusher 432 is fixed to but provided with a pusher 432 to be moved forward by the cylinder 431 to push the rear side of the steam supplied along the supply conveyor 410 and the pusher 430, Kim Jaejae block 500 for loading a plurality of sheets of laver supplied by the laver pushing unit 430, Each container in a state of being stopped by the second gate 310 by cutting the plurality of sheets of seaweed 20 transported by the laver block 500 and picking up the plurality of seams of seaweed 20 processed. (10) seam cutting and accommodating portion 600 to accommodate the plurality of seams 20 cut into the inside, Each container 10 in which the laver 20 cut by the laver cutting and accommodating part 600 is accommodated is conveyed along the conveyor belt 140 by the opening of the second gate 310 and is disposed on the front side. The laver cutting device, characterized in that consisting of a guide pushing unit 700 to be aligned, but the container (10) to be aligned to the nine is supplied and guided line by line respectively. The method of claim 1, The laver loading block 500 includes a seating rod 540 as an upper surface of the base portion 520 and constitutes a vertical rod 530 fixed vertically on the outer surface of the base portion 520. To facilitate the alignment of the laver (20) seated on the), the blade groove 541 is provided with a grid that divides the mounting table 540 vertically and horizontally, the lifting plate 550 in front of the base portion 520 Is provided by the spring 552 of the rod 551 is provided with an elevating plate 550, which is raised and lowered in accordance with the laver and the lower portion of the accommodating portion 600, is connected to the elevating plate 550 and supplied Guide bar 553 is provided for guiding the seaweed 20 to be guided to the seating table 540 to be inserted when the guide bar 553 interlocked with the lowering of the elevating plate 550. Laver cutting device comprising a bar inlet groove 554. The method of claim 1, The laver cutting and accommodating part 600 includes a lifting plate 612 that is lifted up and down along the rod 611 by the operation of the cylinder 610, and a second cylinder fixed to a lower end of the lifting plate 612. A fixed plate 613 is connected to the lower end and the second rod 621 connected to the lower end of the elevating plate 612, and a rod guide plate 630 connected to the end of the second rod 621. Nine rods 631 are provided at the lower end of the rod guide plate 630 to penetrate the cutting knife fixing block 632, and pushers 636 for pushing the laver 20 to the end of the rod 631. ) Is integrally formed, and the upper side is penetrated into the cutting knife fixing block 632, and the pin 633 is provided to penetrate the seam 20 and is picked up. Cutting knife fixed block 632 to be cut, and the outer edge of the cutting knife fixed block 632 to cover Each of the cutting boards 635 is provided between the cutting knife fixing blocks 632 in the inward direction of the guide plate 635, and the entire laver cutting and accommodating part 600 is transferred on a horizontal line. The horizontal transfer cylinder 650 to be supported by the transverse plate 670 across the two vertical fixing plate 660, the guide 680 is transported by the horizontal transfer cylinder 650 is the vertical fixing plate ( 660) laver cutting device comprising the parallel to the inside. The method of claim 3, wherein And a cover plate 640 covering the upper edge of the cutting knife fixing block 632, and the cutting knife fixing block 632 is transferred to the left and right and diagonal directions toward the cover plate 640 side. Gold cutting device. The method of claim 1, The guide pushing unit 700 is supplied with nine containers 10 in accordance with the opening control of the second gate 310, so that the guide pushing unit 700 is sequentially opened by three gate cylinders 710 and each row of The container 10 is supplied in a row, and has a pushing cylinder 730 and a pusher bar 740 carried by the pushing cylinder 730 to the side of the container 10 fed in a row, the pusher Bar 740 is provided with a discharge tray guide port (750) on the tip side, laver cutting device comprising a push to guide the container (10) supplied in a row to the discharge tray guide port (750).

Images