KR200491637Y1 - A dehydrator for laver - Google Patents

Abstract

The present invention relates to a seaweed dehydrator, and more specifically, it is configured to be able to inhale the moisture contained in the seaweed while performing compressed dehydration in the step of dewatering seaweed during seaweed processing to maximize the moisture inside the seaweed. It relates to a Kim dehydrator configured to shorten the drying time of the seaweed in the step of drying the seaweed by squeezing, thereby reducing the energy consumed to dry the seaweed.
The dehydrator according to the present invention is a fixed frame (10), the fixed frame (10) is located above the elevating frame (20) and elevating by the elevating means (25) and the lower and fixed frames of the elevating frame (20) (10) In the seaweed dehydrator including the stiffening member 30 attached to the top plane and squeezing the moisture contained in the seaweed,
The elevating frame 20 is formed to be blocked on all sides by a wall surface, the interior of the wall surface is provided with a space portion 100,
One end of the pipe 200 is connected to one side of the space portion 100, and the other side of the pipe 200 is connected with suction means 250 that generates suction power to suck the air inside the space portion 100. ,
On the bottom surface of the elevating frame 20 is formed a bottom surface portion 300 to which the regulation member 30 is attached,
When the suction force is generated in the space portion (100), the bottom portion (300) is formed so that moisture contained in steam pressured by the regulation member (30) or the regulation member (30) is sucked into the space portion (100). It characterized in that the plurality of through holes 350 are provided at equal intervals.

Description

A dehydrator for laver}

The present invention relates to a seaweed dehydrator, and more specifically, it is configured to be able to inhale the moisture contained in the seaweed while performing compressed dehydration in the step of dewatering seaweed during seaweed processing to maximize the moisture inside the seaweed. It relates to a dehydrator configured to shorten the drying time of the seaweed in the step of drying the seaweed by squeezing, thereby reducing the energy consumed to dry the seaweed.

Seaweed is also called haetae or haeui, and contains a large amount of various minerals including carbohydrates and proteins, and is the most commonly eaten and consumed seaweed in Korea and Japan along with seaweed / dashima.

Usually, the seaweed is distributed in the form of a dried seaweed or seasoned seaweed after being molded into a square shape, and the dried seaweed is manufactured through a forming step and a drying step. The forming step of the seaweed is the process of crushing the original collected from the sea into a predetermined size, mixing it with water, and then spreading it thinly in the shape of the seaweed in the square shape, and the drying step is the process of drying the seaweed molded in the square shape in the seaweed. to be.

The process of separating the dried seaweed from the stool after drying it by slicing and mixing it with water and then thinly spreading the original vinegar collected from the farm is required in recent years. In order to reduce and increase productivity, dried seaweed (Haetae) production equipment is used to automate the production process of dried seaweed, and dried seaweed is in mass production.

Various techniques such as Korean Patent Registration Nos. 10-0775673, 10-0880267, and 10-0978632 have been disclosed as such dried seaweed (haetae) production equipment.

The above-mentioned dried seaweed production devices commonly have a conveying device for conveying a plurality of erections, a molding device for supplying and molding the original seaweed to the erection, a dehydration device for dewatering the originals formed by the forming device, and a dehydrated primitive plant. It includes a drying device for drying.

To summarize the process of producing dried seaweed by such a dry seaweed production device, first, the molding device pours the original water mixed with the seaweed seaweed shredded into small sizes on the toenails conveyed by a set amount, so that the wet seaweed is thinly wet on the seaweed seaweed. The original layer is formed. In addition, the original layer formed on the stool is dehydrated while passing through a dewatering device, then dried in a drying device to be dried.

In the dehydration step of the above-described process, the conventional dewatering device dehydrates the original layer by compressing the original layer formed on the stool by a dehydrating member formed of an elastically deformable material such as a sponge or urethane foam. Since a large amount of moisture still remains, the drying time becomes longer, and in the drying device, thermal drying such as hot air supply is performed, so the energy consumed to dry the seaweed increases as the drying time increases. .

The seaweed dehydrator according to the present invention is configured to suck moisture through the suction means while performing compressed dehydration as in the prior art during the process of dehydrating seaweed during seaweed processing. The main task is to shorten the drying time of the seaweed and to reduce the energy consumed to dry the seaweed accordingly.

The dehydrator according to the present invention is a fixed frame (10), the fixed frame (10) is located above the elevating frame (20) and elevating by the elevating means (25) and the lower and fixed frames of the elevating frame (20) (10) In the seaweed dehydrator including the regulation member 30 which is attached to the top plane and squeezes the moisture contained in the seaweed,

The elevating frame 20 is formed to be blocked on all sides by a wall surface, the interior of the wall surface is provided with a space portion 100,

One end of the pipe 200 is connected to one side of the space portion 100, and the other side of the pipe 200 is connected with suction means 250 that generates suction power to suck the air inside the space portion 100. ,

On the bottom surface of the elevating frame 20 is formed a bottom surface portion 300 to which the regulation member 30 is attached,

When the suction force is generated in the space portion (100), the bottom portion (300) is formed so that moisture contained in steam pressured by the regulation member (30) or the regulation member (30) is sucked into the space portion (100). It is characterized in that the plurality of through holes 350 are provided at equal intervals.

The seaweed dehydrator according to the present invention performs a process of dehydrating the seaweed by pressurizing the seaweed seaweed with a dewatering member as in the past during the seaweed process during seaweed processing, but inside the seaweed by inhaling water through a suction means that sucks water during the dehydration process. Since the water is sufficiently dehydrated, the time required to dry the seaweed in the step of drying the seaweed is greatly shortened, and it is possible to reduce energy consumed to dry the seaweed.

1 is a perspective view showing a conventional seaweed dehydrator.
Figure 2 is a perspective view showing a cut part of the dehydrator according to an embodiment of the present invention.
Figure 3 is a view of Figure 2 from a different angle.
Figure 4 is an enlarged view showing a partial configuration of a dehydrator according to an embodiment of the present invention.
5 is a view showing a part of the configuration of a dehydrator seaweed according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, detailed descriptions of related known functions or configurations are omitted when it is determined that the subject matter of the present invention may unnecessarily obscure the subject matter.

Looking at the dehydrator according to an embodiment of the present invention is configured as follows.

Fixed frame 10, the fixed frame 10 is located on the upper and lowered by the lifting means 25, the lifting frame 20 and the lower surface of the lifting frame 20 and the fixed frame 10, the upper surface of the fixed frame 10 In the dehydrator consisting of a stiffening member 30 to press and squeeze the moisture contained in the seaweed,

* The elevating frame 20 is formed by obstructing all sides with a wall surface, and a space part 100 is provided inside the wall surface,

One end of the pipe 200 is connected to one side of the space portion 100, and the other side of the pipe 200 is connected with suction means 250 that generates suction force to suck the air inside the space portion 100. Become,

On the bottom surface of the elevating frame 20, the bottom part 300 to which the function member 30 is attached is formed, and the bottom part 300 is the suction member 30 when suction force occurs in the space part 100 ) Or a plurality of through-holes 350 formed so that the moisture contained in the seaweed pressured by the member 30 is sucked into the space portion 100 is provided at equal intervals.

First, the seaweed dehydrator according to an embodiment of the present invention, as in conventional dry seaweed production apparatuses, transfers the direction of the main transport means to dehydrate the seaweed molded on the seaweed yard that is transported through the main transport means through the seaweed forming machine. It is preferable to be installed next to the Kim molding machine on the basis of, it will be described again with reference to the accompanying drawings.

The fixed frame 10 is preferably formed and installed so as to withstand the weight of the lifting frame 20, which will be described later, and after the lifting frame 20 rises, the original seaweed is thinly spread through a conventional seam forming device. The formed seaweed stool is formed so that it can be transported and placed.

The lifting frame 20 is located above the fixed frame 10 and is installed to elevate by the elevating means 25. When the elevating frame 20, which has risen to a predetermined height, descends, the regulation member 30, which will be described later, elevates. The self-weight of the frame 20 is formed to press the seaweed on the top of the gimbal placed on the top of the fixed frame 10. At this time, the lifting means 25 is composed of a power transmission means such as a cam capable of converting the rotational motion into a reciprocating motion, or a predetermined pressure is applied to the original Kim by the self-weight of the lifting frame 20, resulting in dehydration of pressure. It may be formed by other suitable means.

 The cushioning member 30 is installed on the bottom surface of the elevating frame 20 and the upper surface of the fixed frame 10 to dehydrate and pressurize the moisture contained in the steam, and the cushioning member 30 is elastic such as sponge or urethane foam. It can be made of a deformable material. At this time, the function member 30 is typically reused or reused after a predetermined number of times after use, so it is preferable to be detachably installed on the bottom surface of the elevating frame 20 and the upper plane of the fixed frame 10. .

Summarizing the above configuration, when the lifting frame 20 rises to a predetermined position, the moved gold foot is placed on the upper part of the fixed frame 10-preferably the upper part where the regulation member 30 is installed, and the lifting frame 20 ) As the descending to the top of the fixed frame (10), the bottom surface of the lifting frame (20) and the cushioning member (30) installed on the top surface of the fixed frame (10) pressurize the seaweed on the seaweed foot, so that the dehydration is achieved. The basic dehydration principle of the conventional Kim dehydrator as shown in 1 is equally applied in the present design.

On the other hand, in the dehydrator according to an embodiment of the present invention, the lifting frame 20 is formed to be elongated in the width direction of the dehydrator and is obstructed on all sides to form a wall surface, as shown in FIG. 2, a space portion inside the wall surface (100) is provided, one end of the pipe 200 is connected to one side of the space portion 100, and the other side of the pipe 200 generates a suction force for sucking the air inside the space portion 100 The suction means 250 is configured to be installed. At this time, the suction means 250 may be formed of a fan or the like formed to generate suction power by allowing the air inside the pipe 200 to be discharged to the outside, or may be formed of another structure capable of generating a predetermined suction power. In addition, since the lifting frame 20 moves up and down, a connecting member is provided in the space part 100 so that one end of the pipe 200 is not connected to the wall surface of the lifting frame 20, and the lifting frame 20 A sealing member for blocking external air from flowing in through the connecting portion of the space part 100 and the pipe 200 when moving up and down may be further provided.

In addition, the bottom surface of the elevating frame 20 is provided with a bottom surface portion 300 to which the cushioning member 30 is attached, and when the suction force occurs in the space portion 100 by the suction means 250, the cushioning member 30 A plurality of through holes 350 formed to be sucked into the space portion 100 is provided with a plurality of through-holes 350 spaced apart from the water absorbed in the water or the air containing the moisture inside the pressure-pressed member 30 do.

In summary, when the suction means 250 installed on the other side of the pipe 200 is operated to generate the suction force, the interior of the space part 100 connected to one end of the pipe 200 is summarized. As the air of the pipe is sucked toward the pipe 200, suction force is generated in the space portion 100.

At this time, since the plurality of through-holes 350 communicating with the space part 100 are provided on the bottom part 300 to which the function member 30 is attached, the pressure dehydration described above by the suction force generated in the space part 100 is provided. In the process of making the air absorbed by the moisture contained in the primitive member 30 or the moisture absorbed in the primitive member 30 is sucked into the space 100 side.

In other words, the dehydrator according to an embodiment of the present invention includes a configuration for additionally inhaling moisture in the pressurized dehydration process as described above, compared to the conventional dehydration method consisting only of pressurized dehydration. It can be removed from the dehydrator as much as possible, and accordingly, the drying time of the kim is shortened in the process of drying the seaweed, which is additionally performed later in the seaweed production process, and it is possible to reduce the energy consumed to heat and dry the seaweed.

In addition, in the dehydrator according to an embodiment of the present invention, the fixed frame 10 is also positioned long in the width direction of the dehydrator and is formed to be blocked on all sides by a wall surface, as shown in FIG. 3, a second inside the wall surface A space portion 100 'is provided, and one end of the second pipe 200' is connected to one side of the second space portion 100 ', and the other side of the second pipe 200' is connected to the second space portion. It may be configured to be connected to the suction means 250 for generating a suction force for sucking the air inside (200 '). At this time, the second pipe 200 'may be formed by being connected to or separated from the pipe 200 connected to the space portion 100 of the elevating frame, and accordingly, the suction means connected to the second space portion 100' ( 250) may be configured integrally or separately from the suction means 250 for generating suction force in the space portion 100 of the lifting frame.

In addition, the upper surface of the fixed frame 10 is provided with an upper surface portion 400 to which the cushioning member 30 is attached, and when the suction force occurs in the second space portion 100 'by the suction means 250, the cushioning member A plurality of upper surface through-holes 450 formed so that the water contained in the water or the air containing the moisture inside the pressure-pressured pressure of the member 30 can be sucked toward the second space part 100 ', the upper surface part (400) may be provided at equal intervals.

That is, similar to the lifting frame 20 side, the fixed frame 10 side also contains air absorbed by the moisture absorbing member 30 or the pressure of the Kim Woncho during pressure dehydration. It is composed of a structure that can generate suction power to suck in, and by inhaling moisture from both sides, we squeeze out the moisture contained in the seaweed in the Kim dehydrator as much as possible to minimize the drying time of the seaweed that is required in the drying process. Accordingly, it is possible to maximize energy savings consumed to heat and dry the seaweed.

In the above, the present invention has been described by a limited embodiment, but since a person having ordinary knowledge in the technical field to which the present invention belongs, various substitutions, modifications and changes are possible without departing from the technical spirit of the present invention. It is not limited to one embodiment and the accompanying drawings.

10: fixed frame 20: lifting frame
25: lifting means 30: member
100: space part 100 ': second space part
200: Piping 200 ': Second piping
250: suction means
300: bottom 350: through hole
400: upper surface portion 450: upper surface through hole

Claims (1)

The fixed frame 10 and the fixed frame 10 are located above the lift frame 20 and lifted by the lifting means 25 and the lower surface of the lift frame 20 and the fixed frame 10 attached to the top plane In the dehydrator including the sizing member 30 to press and squeeze the moisture contained in the seaweed,
The regulation member 30 is detachably installed on the bottom surface of the lifting frame 20 and the upper plane of the fixed frame 10,
The elevating frame 20 is formed to be blocked on all sides by a wall surface, the interior of the wall surface is provided with a space portion 100,
One end of the pipe 200 is connected to one side of the space portion 100, and the other side of the pipe 200 is connected with suction means 250 that generates suction power to suck the air inside the space portion 100. ,
On the bottom surface of the elevating frame 20 is formed a bottom surface portion 300 to which the regulation member 30 is attached,
When the suction force is generated in the space portion (100), the bottom portion (300) is formed so that moisture contained in steam pressured by the regulation member (30) or the regulation member (30) is sucked into the space portion (100). Kim dehydrator, characterized in that the plurality of through holes 350 are provided at equal intervals.

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