KR20130111111A - Laver feeder device - Google Patents

Abstract

The present invention relates to a device for supplying laminations (L) stacked one by one, and has a cartridge (11) for accommodating laminations (L) in a stacked state at the top and a link (12) at the bottom as a feature of the configuration. A mounting portion 10 having a pedestal 15 that is opened and closed via a rod 13 and a rod 13; A withdrawal unit 20 having a suction box 21 for drawing out laver (L) one by one under the loading unit 10 and moving up and down through a link 22 and a rod 23 at a lower portion thereof; Transfer unit having a suction plate 31 for receiving the steam (L) continuously drawn out by the suction box 21 of the lead-out portion 20, and a conveyor 32 for transporting and discharging the steam (L) ( 30); A blower (40) (45) connected to the suction box (21) and the suction plate (31) to generate suction force to draw / transfer the laver (L); And a motor 50 connected to induce a driving force of the stacking unit 10, the lead unit 20, the transfer unit 30, and the blower 40 and generating a driving force on the crankshaft 51 at one end thereof. Characterized in that made.
Accordingly, the present invention, by blocking the suction force through the rotating plate while directly connecting the drawer and the blower, improves the efficiency and speed and hygiene to supply the steam sequentially and accurately without damage, and driving only one motor noise This low and reliable operation ensures high productivity and maximizes space utilization, resulting in an overall compact device.

Description

Laver feeder device

The present invention relates to a device for supplying ladles stacked one by one, and more particularly, by effectively cutting the suction force through the rotating plate while directly connecting the drawer and the blower, excellent efficiency of sequentially supplying laver without damage The present invention relates to a laver feeder that improves speed and hygiene, maintains high productivity with low noise and reliable operation by driving with only one motor, and maximizes space utilization to realize an overall compact device.

In recent years, the seaweed processing method has been diversified, so that consumers can easily purchase the processed seaweed and are packaged and sold for single use to make it easy to eat. In order to process such packaging laver, a series of processing processes are performed automatically by applying fragrance oil on the surface of the laver, sprinkling seasoning, roasting it, cutting it to the appropriate size, and packing it.

However, the conventional method for transporting seaweed in order to proceed with a series of automatic processing in this way is that the operator has to supply and transport seaweed by hand, the problem that all the processes in the seaweed processing process is not automated there was. In other words, no laver feeding device for processing laver has been developed, and there is a problem in that the efficiency and productivity of work are impaired because the worker sequentially supplies laver one by one through manual labor.

Therefore, according to the Korean Utility Model Publication No. 1992-0002401 by the present applicant to solve this problem, it is adopted to supply the taija by the action of the air suction input and the conveying belt, efficient and hygienic, preventing damage to the taija product We proposed a Haitai feeder that could increase its value. However, it is hygienic based on automation and it is expected to prevent breakage of breakwater. However, due to the complexity of the equipment, productivity is decreased due to the occurrence of operation noise, and since the accurate attraction force is not generated during the transportation of the steaming, There is a room for improvement, such as accompanied by detachment or detachment.

And according to the Korean Patent Publication No. 10-2011-0009343 by the present applicant to solve the existing problems, to improve the efficiency and speed of the operation to supply the steam sequentially and accurately sequentially without damage to the mechanical configuration, We proposed a laver feeding device that can maintain high productivity with reliable operation while having low operating noise and hygienic processing.

However, since the suction box that sucks the steam is to control the suction power through the upper and lower slides, noise is still generated by the operation, and above all, the residual suction input occurs even when the suction power is blocked because the suction plate is connected between the suction box and the blower. There is a problem that the efficiency and speed of operation that does not supply the steam correctly is reduced. And since the space utilization by the operation is not made of an efficient structure, there is room for improvement in that the overall volume becomes large, causing waste of the work space.

Korean Utility Model Publication No. 1992-0002401 "Haitai Feeder" Korean Laid-Open Patent Publication No. 10-2011-0009343 "Steam feeding device"

Accordingly, the present invention is to fundamentally solve the conventional problems as described above, by blocking the suction force through the rotating plate while directly connecting the drawer and the blower, excellent efficiency and rapidity to supply the steam sequentially and accurately without damage The aim is to provide a laver feeder that can improve overall hygiene, maintain high productivity with low noise and reliable operation by driving with only one motor, and maximize overall space utilization. .

In order to achieve the above object, the present invention provides an apparatus for supplying ladles stacked one by one, comprising: a cartridge for accommodating laver in a stacked state at an upper portion thereof, and a pedestal for opening and closing through a link and a rod at a lower portion thereof; Loading part; A withdrawal part having a suction box for drawing out laver one by one under the loading part and moving up and down through a link and a rod under the loading part; A conveying unit having a suction plate receiving the laver continuously drawn by the suction box of the drawing unit and having a conveyor for conveying and discharging laver; A blower connected to each of the suction box and the suction plate to generate suction force to extract / transfer the steam; And a motor connected to induce a driving force of the loading unit, the extracting unit, the conveying unit, and the blower and generating a driving force on the crankshaft at one end thereof.

At this time, the blower according to the present invention is characterized in that it comprises a rotary plate through a through hole for opening and closing the discharge port to control the suction force of the suction box.

It should be understood, however, that the terminology or words of the present specification and claims should not be construed in an ordinary sense or in a dictionary, and that the inventors shall not be limited to the concept of a term It should be construed in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be properly defined. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

As described in the above configuration and operation, the present invention is to improve the efficiency and speed and hygiene and excellent efficiency to supply the steam sequentially and accurately without damage, by blocking the suction force through the rotating plate while directly connecting the drawer and the blower, one It can be operated with only the motor of the motor to maintain high productivity with low noise and reliable operation, and maximize the space utilization, thereby providing the effect of implementing the overall compact device.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a device according to the present invention in its entirety; Fig.
2 is a block diagram showing the apparatus according to the invention as a whole from the back;
3 to 5 are diagrams illustrating the operation together with the main parts of the device according to the invention.

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

The present invention relates to a device for supplying laminations (L) loaded in a multi-layer one by one, the loading unit 10, the withdrawal unit 20, the transfer unit 30, blowers 40, 45, motor 50 It is related to the laver feeder with the main configuration. Here, the loading part 10, the withdrawal part 20, and the conveying part 30 are configured to supply lame (L) in two rows, but this is only for the purpose of understanding of the invention and the deformation is supplied in one or three rows or more. It is possible.

And although the present invention is not shown through the drawings, if necessary, it may further include a supply for automatically receiving the lamination (L) loaded in a multi-layer on the loading portion 10. The supply unit is provided with a conveyor through a push rod for conveying the laver (L), and has a discharge block that falls while loading the laver, since this supply is a configuration that is included in the laver supply device previously filed by the applicant It is apparent that the present invention can be selectively provided.

Loading portion 10 according to the present invention has a cartridge (11) for accommodating the lamination (L) in the upper portion in the upper portion, and the pedestal 15 that is opened and closed through the link 12 and the rod 13 in the lower portion It is provided. Loading unit 10 is made of a cartridge 11 and the pedestal 15 as shown in Figs. 1 and 2 to accommodate the laver (L) in a stacked state to be discharged one by one in conjunction with the withdrawal unit 20 to be described later. The cartridge 11 is a 'b' type of a plurality of brackets protruding upward, and is formed to accommodate the lamination (L) of the multi-layer in an undisturbed state and flow. Here, the flow means that the laver (L) is withdrawn by the withdrawal unit 20 to be described later one by one, it is sequentially moved downward by the weight to the space of the withdrawn (L).

And pedestal 15 supports opening and closing operation so that only the laver (L) is discharged by the drawer 20 while supporting the lamination (L) of the plurality of brackets 'b' type is stacked on the bottom of the cartridge (11). To perform. That is, the pedestal 15 is coupled to the rotating shaft in the lower portion of the cartridge 11 is rotated about 90 degrees by the link 12 and the rod 13. Here, the link 12 and the rod 13 are connected to the crankshaft 51 to be described later to rotate at a predetermined timing by the driving force of the motor 50 to perform the opening and closing operation.

The pedestal 15 opens the lower part of the cartridge 11 at the time when one lame L is drawn out from the cartridge 11 and lowered by the drawing unit 20 as shown in FIGS. 3A and 4A, and the lame L ) Is supported at the time when the cartridge 11 is discharged from the cartridge 11 to support the stacked lamination L. In this case, the base 15 opens and closes the lower part of the cartridge 11 in order to prevent damage of the discharged seaweed L and to support the remaining stacked seaweed L even after discharging one seaweed L. This is because the withdrawal speed of the lead portion 20 is significantly faster than the falling speed of the lamination lamination (L).

In addition, the withdrawal unit 20 according to the present invention includes a suction box 21 which draws out laver L one by one at the lower part of the loading part 10, and has a link 22 and a rod 23 at the lower part thereof. We exercise up and down intervening. The lead portion 20 consists of a link 22 and a rod 23 interlocked with the suction box 21 as shown in FIGS. 1 and 2, and draws out laver L stacked on the stacking portion 10 one by one. Suction box 21 is a box-type having a space therein, the upper portion is provided with a plurality of suction ports for drawing the seaweed (L) and connected to the blower 40 to be described later.

The suction box 21 performs the lifting and lowering movement by the plurality of links 22 and the rod 23 directly below the cartridge 11. Here, the link 22 and the rod 23 are connected to the crankshaft 51 to be described later to rotate at a predetermined timing by the driving force of the motor 50 to perform a linear motion. That is, the link 22 and the rod 23 connected to the crankshaft 51 switch the rotational motion to forward and reverse rotational motion, and the link 22 and the rod 23 connected to the suction box 21 are forward ㆍ It converts the reverse rotation to linear movement. When the suction box 21 is lifted to the cartridge 11 by the link 22 and the rod 23 as shown in FIG. 3b, after adsorbing one seaweed L by the suction force of the blower 40 as shown in FIG. 4a, It will be lowered and withdrawn.

In addition, the transfer unit 30 according to the present invention is provided with an adsorption plate 31 that receives the seaweed (L) continuously drawn out by the suction box 21 of the withdrawal unit 20, and transfers the seaweed (L) A conveyor 32 for discharging is provided. The transfer part 30 is composed of the suction plate 31 and the conveyor 32, as shown in Fig. 1 and 2 and transfers the seaweed (L) drawn by the suction box 21 to a subsequent device to discharge. The suction plate 31 is provided at a position adjacent to the suction box 21, and has a plurality of suction ports on the upper portion and transfers the drawn laver L to the conveyor 32 and a blower 45 to be described later on the lower portion. do. And the conveyor 32 is connected to the crankshaft 51 to be described later by a chain or a belt is operated by the driving force of the motor 50.

That is, when the suction box 21 completely removes the laver L from the cartridge 11 as shown in FIG. 4A (falling state), the suction force of the suction box 21 by the blower 40 is temporarily blocked as shown in FIG. 4B. It becomes a state. Here, as shown in FIG. 5A, the suction force of the suction plate 31 by the blower 45 is transferred to the conveyor 32 while sucking the steam L, and as shown in FIG. 5B, the steam L is subsequently driven by the operation of the conveyor 32. It is transferred to a device to discharge completely.

In addition, the blowers 40 and 45 according to the present invention are connected to the suction box 21 and the suction plate 31, respectively, and are provided to generate suction force to draw / transfer the laver (L). The blowers 40 and 45 are connected to the suction box 21 and the suction plate 31, respectively, as shown in FIGS. 1 and 2, to draw out the laver L from the cartridge 11, and to draw the drawn laver L from the conveyor. 32) generate suction force to transfer. That is, the blowers 40 and 45 are provided with an impeller inside the case having the inlets and outlets 40a and 45a to generate a continuous suction force by the operating motor.

The suction port of the blower 40 is connected to the lower part of the suction box 21 by a pipe, and the suction port of the blower 45 is connected to the lower part of the suction plate 31 by a pipe. Here, in the case of the pipe connecting the blower 45 and the suction plate 31, although the suction plate 31 may always be in a fixed state, a corrugated pipe that can be easily bent may be used, but the blower 40 and In the case of piping connecting the suction box 21, the suction box 21 uses a corrugated pipe that is free to contract and relax so as to be suitable for performing the lifting and lowering movement.

At this time, the blower 40 according to the present invention is provided with a rotary plate 42 through the through hole 41 for opening and closing the discharge port 40a to control the suction force of the suction box 21. The blower 40 generates a suction force in the suction box 21 to withdraw the laver L from the cartridge 11, and when the withdrawal of the laver L from the cartridge 11 is completed by the suction box 21. The suction power must be completely shut off. As described above, withdrawal of the seaweed (L) from the cartridge 11 with the suction force to the suction box 21, and when the withdrawal of the seam (L) is completed, the suction force to the suction box 21 must be completely blocked to the blower (45) The seaweed L drawn out by the suction force to the suction plate 31 by the suction force can be transferred to the conveyor 32.

That is, the blower 40 is provided with a rotary plate 42 for opening and closing the discharge port 40a to control the suction force of the suction box 21. The rotating plate 42 is mounted in close contact with the outlet 40a of the blower 40, and is connected to the crank shaft 51 to be described later to rotate at a predetermined rotational speed by the driving force of the motor 50. This rotating plate 42 is provided with a through hole 41 that is cut at a predetermined angle and engages the outlet 40a. When the suction box 21 is lifted to take out the seaweed L from the cartridge 11 as shown in FIG. 1, the through hole 41 coincides with the discharge hole 40a to generate suction force in the suction box 21. 4A, when the withdrawal of the laver L is completed from the cartridge 11 as shown in FIG. 4A, the through hole 41 is displaced from the discharge port 40a as shown in FIG. 4B to block the suction force on the suction box 21. .

On the other hand, the rotating plate 42 may be mounted on the inlet of the blower 40, and in some cases it may be controlled by the suction box 21 by the lifting and lowering movement on the outlet (40a) using a link and a rod. In addition, a throttle valve system may be applied to the inlet and outlet. In any case, it will be apparent to those skilled in the art that various modifications may be made within the range of controlling the suction force of the suction box 21.

In addition, the motor 50 according to the present invention is connected to cause the driving force of the loading portion 10, the withdrawal portion 20, the transfer portion 30, the blower 40 and at one end to drive the driving force to the crankshaft 51 Occurs. The motor 50 is a base plate 15 of the mounting portion 10, the suction box 21 of the lead portion 20, the conveyor 32 of the transfer unit 30, the rotary plate of the blower 40 as shown in FIG. The driving force is generated in the 42, and the crankshaft 51 is connected to the chain or the belt so as to transmit the driving force in accordance with each driving.

Here, the crankshaft 51 transmits the opening and closing movement of the pedestal 15 through the link 12 and the rod 13, and the lifting and lowering movement of the suction box 21 through the link 22 and the rod 23. To pass. And the crankshaft 51 is to transmit the rotational movement of the conveyor 32 and the rotating plate 42 through a chain or belt. As such, since the driving force of the load unit 10, the lead unit 20, the transfer unit 30, and the blower 40 is generated by the driving force of one motor 50, the power consumption may be minimized as well as the noise.

In operation, the operator first puts the laminations L stacked in multiple layers as shown in FIG. 3A to be accommodated in the cartridge 11 in a stacked state. As described above, when the supply unit is used, the laver (L) loaded in multiple layers is automatically supplied to the cartridge 11 to be supplied in a stacked state. At this time, lamination (L) stacked in multiple layers by the pedestal 15 which closed the lower part of the cartridge 11 can be laminated | stacked on the cartridge 11. As shown in FIG. Then, the operator operates the switch to supply power to the blowers 40 and 45 together with the motor 50.

Subsequently, the crankshaft 51 is driven by the motor 50, and the loading part 10, the drawing part 20, the conveying part 30, and the rotating plate 42 connected to the crankshaft 51 operate to operate the cartridge ( The laminations (L) stacked on 11) are transported one by one to a subsequent device and discharged. That is, as shown in FIG. 3B, the suction box 21 is lifted by the link 22 and the rod 23 connected to the crankshaft 51, and the through hole 41 of the rotating plate 42 connected to the crankshaft 51. Is coincided with the outlet 40a of the blower 40, the steam (L) is in close contact with the blower 40 to the upper portion of the suction box 21 by the suction force.

Subsequently, as shown in FIG. 4A, the lamination L and the suction box 21 together with the suction box 21 are lowered in close contact with the suction box 21 to be withdrawn from the cartridge 11. At this time, in the process of the suction box 21 is lowered by the link 12 and the rod 13, the pedestal 15 is lowered with the suction box 21 by opening the lower portion of the cartridge 11 (L) To prevent breakage. As the lowering of the suction box 21 is completed, the base 15 is closed by the link 12 and the rod 13 to close the lower part of the cartridge 11, thereby laminating the lamination L on the cartridge 11. Keep in acceptance.

Subsequently, as shown in FIG. 4B, the through hole 41 of the rotating plate 42 is displaced from the discharge hole 40a of the blower 40 to block the suction force of the suction box 21. When the suction force of the suction box 21 is blocked, as shown in FIG. 5A, the suction force L of the suction box 21 is transferred to the conveyor 32 by the suction force of the suction plate 31 by the blower 45. The laver L delivered to the conveyor 32 is then transported and discharged one by one to a subsequent device.

As described above, the present invention blocks the suction force through the rotating plate while directly connecting the drawer and the blower, thereby improving the efficiency, speed and hygiene of supplying steam sequentially and accurately without damage, and driving with only one motor to make noise. This low and reliable operation ensures high productivity, while maximizing space utilization, resulting in an overall compact device.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is therefore intended that such variations and modifications fall within the scope of the appended claims.

10: Loading section 11: cartridge
12, 22: Link 13, 23: Load
15: pedestal 20: lead-out
21: suction box 30: transfer unit
31: adsorption plate 32: conveyor
40, 45: blower 40a, 45a: outlet
41: through hole 42: rotating plate
50: motor 51: crankshaft
L: Kim

Claims (2)

1. An apparatus for feeding a plurality of stacked lakes (L) one by one, comprising:
A loading part (10) having a cartridge (11) for accommodating laver (L) in an upper part and having a pedestal (15) opened and closed through a link (12) and a rod (13) at a lower part thereof;
A withdrawal unit 20 having a suction box 21 for drawing out laver (L) one by one under the loading unit 10 and moving up and down through a link 22 and a rod 23 at a lower portion thereof;
Transfer unit having a suction plate 31 for receiving the steam (L) continuously drawn out by the suction box 21 of the lead-out portion 20, and a conveyor 32 for transporting and discharging the steam (L) ( 30);
A blower (40) (45) connected to the suction box (21) and the suction plate (31) to generate suction force to draw / transfer the laver (L); And
And a motor 50 connected to induce a driving force of the stacking unit 10, the lead unit 20, the transfer unit 30, and the blower 40 to generate a driving force on the crankshaft 51 at one end thereof. Steaming device characterized in that. The method of claim 1,
The blower (40) is a steam supply device characterized in that it comprises a rotary plate (42) through the through hole 41 for opening and closing the discharge port (40a) to control the suction force of the suction box (21).

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