KR20200091154A - Eco-friendly height adjusting type laver farming apparatus - Google Patents

Abstract

The present invention relates to an eco-friendly height-adjustable laver farming apparatus. A laver farming net (a bamboo mat for laver) in which laver spores are planted is installed on a rotating link, and the rotating links are rotated up and down to selectively submerge the laver farming net in seawater or expose to sunlight, so that the laver farming net can be exposed to sufficient sunlight without the manual overturning of the laver farming net. Also, installation area is free because the apparatus does not have to depend on the tide, laver with improved quality can be farmed without an acid treatment agent, and laver with high marketability and high nutritional value can be farmed.

Description

ECO-FRIENDLY HEIGHT ADJUSTING TYPE LAVER FARMING APPARATUS}

The present invention relates to an eco-friendly height-adjustable Kim Yang-sik device, more specifically, a Kim Yang-sik network (Kimbal), in which Kimpoja is planted, is installed on a pivot link, and the pivot links are rotated up and down to adjust the height to alternately replenish the Kim Yang-sik network. By immersing it in the sun or exposing it to sunlight, even if you don't do the manual work to flip the Kimyang-shik net, it is possible to expose the sunlight to the Kim-yang-shik network and free the installation area because you don't need to rely on tide, and improve the quality without acid treatment. The present invention relates to an eco-friendly height-adjustable Kimyang-style device capable of farming a highly nutritious and high-productivity seaweed.

Kim is also known as haetae (海苔), which grows like a moss on the reef of the sea. It is 14-25cm long and 5-12cm butterfly. The body is long oval-shaped or egg-shaped with a string, and has wrinkles on the edges. The upper part of body is reddish brown and the lower part is blueish green. It is composed of cells on the first floor, and the cells are irregular triangular or quadrangular or polygonal and irregularly lined. The cross section is square and the height is greater than or equal to the width. The lower cells are egg-shaped, oval-shaped, and produce large, colorless, flat roots.

On the coast of Korea, it begins to appear around October, breeds from winter to spring, and gradually decreases afterwards, making it invisible in summer. It is distributed in Korea (Jeju Island, South Coast, West Coast), Japan, and China.

The types of cultured seaweed are mainly sesame seeds (Porphyra tenera) and radiated spines (P. yezoensis), which have an elongated leaf shape, making it difficult to distinguish the two types. Stones grow on rocks that are receiving a lot of waves toward the open sea. The rounded spines (P. suborbiculata) are widely distributed on the east, west, and south coasts, but the shape is rounded, but sometimes there are many wrinkles overlapping to form a peony flower.

The long leaf stalk (P. pseudolinearis) grows mainly on the east coast, and the seaweed (P. dentata) grows mainly on the west coast. P. seriata can be seen on the south coast. There are about 50 species of Giryu in the world, of which 10 species are distributed in the south coast of Korea.

In terms of the use and use of seaweed, the most widely known food contains seaweed, a carbohydrate, and hemicellulose, sorbitol, and dulcitol. Almost no fat, but 30-40% protein. In particular, it contains many essential amino acids such as threonine, valine, leucine, isoleucine, lysine, methionine, phenylalanine, and tryptophan.

In addition, seaweed contains minerals such as sodium, potassium, calcium, phosphorus, and iron, like other seaweeds, and contains a lot of carotene, making it a good source of vitamin A.

In addition, riboflavin, niacin and vitamin C are also relatively abundant. It has a red pigment, fucoerythrobine, which gives it a distinctive color, and dimethyl sulfide gives it a unique taste and smell. In particular, it contains glycine and alanine, which are amino acids with a sweet and oily taste.

In the Orient, artificial breeding has been practiced since natural breeding alone cannot satisfy the demand for seaweed. For the artificial production of seaweed, in the autumn when each spore comes out, the material to be attached to each spore is installed in the sea, and is drawn and cultivated. Although it sticks well everywhere, such as rocks and tree branches, it usually uses a large net made of synthetic fibers and cob from bamboo.

The place where Kim Yang-Sik is suitable is a place where the waves are calm and the flow of algae is good, and the influence of river water is some, so it is good to have a specific gravity of 1.018 to 1.028. It is not good if too much fresh water flows in during the flood and the specific gravity is less than 1.017. Since water temperature and illuminance are important in order for the steam to grow well, special attention should be paid to the installation depth of the Kim Yang-sik network in consideration of changes in the water level caused by tidal waves. In Korea, farming is done on the beaches of Jeollanam-do and Gyeongsangnam-do provinces, especially Kim Yang-sik in Wando, Jeollanam-do.

The kimyangsik can be divided into a holding type kimyangsik shown in FIG. 1 and a floating type kimyangsik shown in FIG. 2, and the holding type is a suitable method for farming in the West Sea where the tide difference is large, and the floating type is a suitable farming method for the South Sea or East Sea. .

First, the propulsion type Kim Yang-sik is a method of cultivating seaweed by installing props vertically in tidal flats where seawater flows along high and low tide, and by installing a Kimyang-sik net planted with spores on it.

The holding type of Kim Yang-sik is because the Kim Yang-sik net is in seawater during high tide, and the Kim Yang-sik net is exposed at low tide, so the wind crosses and receives sunlight. In recent years, as the reclamation work has been expanded, the proprietary Kim Yang-sik itself, which was used in the coastal areas of the West Sea, has disappeared, and floating Kim Yang-sik is being carried out off the coast.

Kim is a creature that grows in the upper part of the intertidal zone, which is submerged during high tide and exposed at low tide. As an intertidal (間潮帶-immersion 15 cm) creature, Kim grows well when exposed to water for about 4 hours twice a day. Therefore, in some parts of the West Sea and the South Sea, where there is a difference between the tides, the holding type Kim Yang-sik is activated.

As Kim Yang-sik's technology develops, the area where he grows Kim is expanding into the South Sea and the East Sea. Kim Yang-sik in the South Sea and the East Sea is floating, and the success of Kim Yang-sik in the South Sea or the East Sea is twice a day. It depends on how well you perform the floating exposure.

The reason is that if the sun exposure of the Kim Yang-shik network (Kimbal) is not performed well, of course, it is inevitable to damage the seaweeds and seaweed germs growing in the flooded invasion into the flooded Kim Yang-shik network.

Therefore, floating yangyangsik fishermen should go out to the sea every day and turn over the yangyangsik net that faces the upper part of the bugu composed of styrofoam balls so that the seaweed is exposed to the sun.

As shown above, when the Kim Yang-sik network is turned upside down and exposed to the sun, the manager lifts the other side while turning the ship to one side of the Kim Yang-sik network and turns it over.

As mentioned above, when the Kim Yang-sik network is turned over, a twist occurs between the preceding part that starts to be flipped and the front end, which is the part before the flip-over. Not only does it cause problems to destroy the network, but it also causes enormous economic losses.

In addition, it is not only impossible to expect an increase in work efficiency because it takes too long to overturn the Kim Yang-shik network, but also has a disadvantage that a large number of manpower is required to overturn the Kim Yang-shik network.

In addition, the floating type Kim Yang-sik has the advantage of excellent installation quality and increased production of seaweed per unit, as the installation cost is lower than the propulsion type Kimyang-sik, and the adhesion rate is low due to the smooth communication of the algae. Since it is difficult to turn over the Kimyang-sik network to expose it, there are frequent occurrences of seaweed and moss, so there are frequent cases of using acid treatment agents to solve these phenomena. There are serious problems destroying ecosystems such as, octopus, shellfish and oysters.

Domestic Publication No. 10-2013-0127573

In order to solve the above-mentioned problems, the present invention is to install the Kim Yang-sik network (Gimbal) on which Kimpoja is planted by placing it on a rotating link that is installed for a long time, and to rotate the rotating links up and down to adjust the height to selectively control the Kim Yang-sik network to seawater. It provides an eco-friendly height-adjustable Kimyang-style device that can grow high-productive and highly nutritious seaweed because it can be easily exposed to sunlight even without manual work by making it soaked or exposed to sunlight.

In addition, the present invention can be ventilated and exposed to sunlight without the use of low tide and high tide, so it can be installed even in areas where there is only a high tide, such as the west coast. It is possible to farm the seaweed with improved quality without an acid treatment agent, thereby providing an eco-friendly height-adjustable Kimyang style device that can prevent marine pollution caused by the acid treatment agent.

In order to achieve the above object, the eco-friendly height-adjustable Kim Yang-sik device of the present invention includes a fixed support member installed at a predetermined interval from each other; A horizontal connection shaft horizontally connecting the fixed support member; A pivoting link for installing a Kimyang-style network in which the horizontal connecting shaft is rotatably coupled with a predetermined distance from one another and planted Gimpo on the top; A telescopic member that connects the pivot link to each other in the longitudinal direction and is installed between the pivot link so as to expand and contract for rotation of the pivot link; It includes a height adjustment unit of the Kim Yang-sik network for selectively exposing the Kim Yang-sik network to sunlight or submerging in sea water while rotating the rotation link at a certain angle.

The elastic member includes a pair of sliders that are installed to be accessible into both ends of the pivot link; A rotating pin that connects the slider to be rotatable and enables rotation of the rotatable link; A spring that elastically supports the slider; In order to limit the expansion and contraction position of the slider, it is formed integrally with the slider, and includes a stopper that is positioned within the slot formed at the end of the pivoting link.

In addition, the Kim Yang-sik network height adjustment unit according to the first embodiment of the present invention selectively injects air and generates buoyancy to rotate the pivoting link up and down about the horizontal connecting shaft so that both ends of the pivoting link are rotated. Air tube to be installed on; An air supply line for supplying air to the air tube; And an air pump supplying air into the air tube through the air supply line.

Furthermore, a space portion or a buoyancy body for generating additional buoyancy may be formed inside the rotation link.

On the other hand, the rotation link is characterized in that it consists of multiple stages (多段).

On the other hand, according to the second embodiment of the present invention, the Kim Yang-sik network height adjustment unit includes a housing fixed vertically to the seabed; A rotary shaft rotatably installed in the housing and having a thread formed on an outer circumferential surface; A handle formed at an upper end of the rotating shaft to rotate the rotating shaft; And an up and down move pillar which is movably coupled to the rotating shaft during forward and reverse rotation of the rotating shaft and connected to an end of the pivot link through an opening of the housing.

As described above, according to the present invention, a Kim Yang-sik network (Gimbal) planted with Kimpoja is installed on a rotating link that is connected to a long connection, and the rotating links are rotated up and down to adjust the height to selectively lock the Kim Yang-sik network into seawater or By being exposed to sunlight, it is possible to easily expose the sunlight several times without manual work, so that it is possible to cultivate high-productivity and nutritious seaweed.

In addition, the present invention allows sufficient ventilation and sunlight exposure without the use of low tide and high tide, so it can be installed even in areas where there is only a high tide, such as the west coast, and it can be exposed to enough sunlight, so it is possible to remove the trash and prevent pests. It is possible to farm the seaweed with improved quality without using an acid treatment agent, thereby preventing marine pollution caused by the acid treatment agent.

1 is a view showing a holding type Kim Yang-sik
Figure 2 is a view showing a floating Kim Yangsik
Figure 3 is a perspective view showing an eco-friendly height-adjustable Kim Yang-sik device according to a first embodiment of the present invention
Figure 4 is a side view showing an eco-friendly height-adjustable Kim Yang-sik device according to a first embodiment of the present invention
Figure 5 is a side view showing the installation of a horizontal support rod in an eco-friendly height-adjustable Kimyang type device according to the first embodiment of the present invention
Figure 6 is an exploded perspective view showing a telescopic member of the present invention
7 is a perspective view showing an eco-friendly height-adjustable Kim Yang-sik device according to a second embodiment of the present invention
8 to 11 are side views showing an eco-friendly height-adjustable Kim Yang-sik device according to a second embodiment of the present invention.
Figure 12 is an exploded perspective view showing a Kim Yang-sik network height adjustment unit according to a second embodiment of the present invention

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the eco-friendly height-adjustable Kimyangsik device of the present invention.

Figure 3 is a perspective view showing an eco-friendly height-adjustable Kim Yang-sik device according to a first embodiment of the present invention, Figure 4 is a side view showing an eco-friendly height-adjustable Kim Yang-sik device according to a first embodiment of the present invention, Figure 5 is a Side view showing the installation of the horizontal support bar in the eco-friendly height-adjustable Kim Yang-sik device according to the first embodiment of the present invention, and FIG. 6 is an exploded perspective view showing the elastic member of the present invention.

Referring to the above drawings, the eco-friendly height-adjustable Kim Yang-shik device of the present invention includes fixed support members 110 and 110' that are installed at regular intervals from each other; A horizontal connecting shaft 120 horizontally connecting the fixed support members 110 and 110'; Rotating link 130 for installing the Kim Yang-sik network (see Fig. 6), which is coupled to the horizontal connection shaft 120 to be rotatable at a predetermined interval, and planted Gimpo on the top; A telescopic member 140 which is connected between the pivot links 130 in the longitudinal direction, and is installed between the pivot links 130 so as to expand and contract for rotation of the pivot link 130; It includes a kimyangsik network height adjustment unit 150 for selectively exposing the kimyangsik network 70 to sunlight or submerging in seawater while rotating the rotation link 130 at a predetermined angle.

More specifically, the fixed support member includes a fixed support (110: see FIG. 4) installed vertically on the seabed, and a horizontal support bar (110': see FIG. 5) installed horizontally on the sea.

First, as shown in Figures 3 and 4, the fixed support 110 is fixedly installed on the seabed at regular intervals from each other, and is fixedly installed on the seabed so as not to be randomly separated by seawater or waves.

The fixed post 110 may be connected to the spiral pile 112 through the coupler 111. The spiral pile 112 is deeply embedded in the ground and serves to stably support the fixed post 110.

The fixed post 110 is arranged in a lengthwise direction in two sets of left and right, and may be made of wood or metal, or synthetic resin.

And, as shown in Figure 5, the horizontal support bar 110' is horizontally installed two parallel to the sea, although not shown in the drawing, both ends of the horizontal support bar 110' is fixed with a separate support bar or support Can be installed. Since the horizontal support rod 110' is installed horizontally on the sea, there is an advantage that it does not interfere with the work of Kim Yang-sik. Furthermore, although not shown in the drawings, the fixing post 110 and the horizontal support rod 110 ′ may be installed together.

The horizontal connecting shaft 120 horizontally connects the stationary supports 110, and serves to stably support the stationary supports 110 as well as a central axis of rotation for rotation of the rotation link 130.

The rotation link 130 is coupled to the horizontal connection shaft 120 to be rotatable at a predetermined interval from each other, and is installed by installing a Kim Yang-shik network (see FIG. 6) on which Kimpoja is planted. Kimyangsik network 70 can be fixed by placing it on a rotating link 130 with a common string (not shown).

That is, the pivoting link 130 is configured to rotate at a certain angle with the horizontal connecting shaft 120 as the pivoting central axis, so that the height of the kimyang mesh 70 is adjusted, and alternately, the kimyang mesh on one side. A part of (70) is submerged in seawater, and the Kim Yang-sik network (70) located on the opposite side is exposed to sunlight.

As shown in FIGS. 4 and 5, a rotating space 130 or a buoyancy body 130a for buoyancy generation may be installed inside the rotation link 130. Since the larger buoyancy is generated by the space portion and the buoyancy body 130a, it is possible to more smoothly operate the Kim Yang-sik network height adjustment unit 150.

In addition, a space portion and a buoyancy body for buoyancy may be formed inside the horizontal support rod 110' (see FIG. 5). The horizontal support rod 110' and the rotation link 130 can be configured with the same material and the same structure.

The expansion and contraction member 140 is connected between the rotational links 130 in the longitudinal direction, and is installed between the rotational links 130 so as to expand and contract for rotation of the rotational link 130.

That is, when the rotating link 130 rotates at a certain angle with the horizontal connecting shaft 120 as a central axis, the length of the rotating link 130 must expand and contract, so that rotation interference does not occur, and thus, the elastic member 140 ) Is required.

When the elastic member 140 is exposed to sunlight or submerged in seawater, that is, when the pivot link 130 is inclined (see FIGS. 9 and 11 ), the elastic member 140 is maintained in an extended state.

On the other hand, when the elastic member 140 is switched from being exposed to sunlight to a submerged state or vice versa, that is, when it is switched to a horizontal state (see FIG. 10), the elastic member 140 is reduced. It will switch to the state.

Looking at the configuration of the elastic member 140 in more detail with reference to Figure 6, the elastic member 140 is a pair of sliders 141 that are installed to be accessible into both ends of the pivoting link 130; A rotating pin 142 connecting the slider 141 to be rotatable, and enabling the rotation of the rotating link 130; A spring 143 elastically supporting the slider 141; And a stopper 144 that is integrally formed or coupled to the slider 141 to limit the expansion and contraction position of the slider 141, and is limited in position in the slot S formed at the end of the pivot link 130.

In other words, the expansion and contraction member 140 is configured to rotate on the basis of the rotating pin 142, the slider 141 is configured to be able to enter and exit into both ends of the rotational link 130, the spring 143 It is configured to be elastically supported by. The elastic position of the slider 141 is limited by the stopper 144.

On the other hand, the configuration of the Kim Yang-sik network height adjustment unit (150: see FIG. 3) (250: see FIG. 7) is as follows.

First, referring to FIGS. 3 and 4, in the Kim Yang-shik network height adjusting unit 150 according to the first embodiment of the present invention, the A line and the B line are respectively configured separately and are configured to operate in reverse. In other words, when buoyancy is generated by supplying air in line A, on the contrary, air is drawn in line B to eliminate buoyancy.

As shown in FIGS. 3 and 4, the Kim Yang-shik network height adjustment unit 150 selectively injects air and generates buoyancy to rotate the link 130 around the horizontal connecting shaft 120. ) The air tube 151 is installed at both ends of the rotation link 130 to rotate up and down; An air supply line 152 for supplying air to the air tube 151; And an air pump 153 supplying air into the air tube 151 through the air supply line 152.

The air tube 151 is integrally formed, and the leveling by the buoyancy is uniform, so that the buoyancy can be uniformly formed without side-to-side bias.

The use of the eco-friendly height-adjustable Kim Yang-sik device according to the first embodiment of the present invention configured as described above will be described in detail.

First, to install the Kimyang-sik net (70) planted on the pivot link 130 and the horizontal connecting shaft 120, Kimpoja.

Typically, the seaweed grows well when exposed to sunlight by floating on the sea level for about 4 hours twice a day, for this purpose, the air is driven in the air tube 151 through the air supply line 152 by driving the air pump 153 on one side. By generating the buoyancy by supplying and simultaneously removing the buoyancy by discharging air in the air tube 151 on the other side, both ends of the rotation link 130 are rotated up and down around the horizontal connecting shaft 120. At this time, the height of the Kim Yang-shik network 70 is adjusted, such that the Kim Yang-shik network 70 on one side is immersed in seawater, and the Kim Yang-shik network 70 located on the opposite side is sufficiently exposed to sunlight.

On the other hand, Figure 7 is a perspective view showing an eco-friendly height-adjustable Kim Yang-sik device according to a second embodiment of the present invention, and FIGS. 8 to 11 are side views showing an eco-friendly height-adjustable Kim Yang-sik device according to a second embodiment, and FIG. 12 is an exploded perspective view showing a Kim Yang-sik network height adjustment unit according to a second embodiment of the present invention.

In the drawing, the eco-friendly height-adjustable Kimyang-sik device according to the second embodiment of the present invention is the same as the eco-friendly height-adjustable Kimyangsik device according to the first embodiment of the present invention in a configuration other than the Kimyangsik network height adjustment unit. , For the same configuration, the same reference number will be given, and only different configurations will be described.

Referring to the above drawings, the Kim Yang-sik network height adjustment unit 250 according to the second embodiment of the present invention, the Kim Yang-sik network height adjustment unit 250 is a housing 251 vertically fixed to the seabed; A rotating shaft 252 rotatably installed vertically in the housing 251 and having a thread 252a formed on an outer circumferential surface; A handle 253 formed at an upper end portion of the rotating shaft 252 to rotate the rotating shaft 252; And a vertically moving pillar 254 coupled to the rotating shaft 252 to move up and down during the forward and reverse rotation of the rotating shaft 252, and connected to the end of the rotational link 130 through the opening 251a of the housing 251. It includes.

In the Kim Yang-sik network height adjustment unit 250 according to the second embodiment of the present invention, when the handle 253 is rotated in the forward-reverse direction, the rotation shaft 252 rotates in the forward-reverse direction, and at this time, the thread of the rotation shaft 252 ( The vertical movement pillar 254 coupled to 252a) moves in the vertical direction.

Up and down movement By the up and down movement of the pillar 254, the rotation link 130 is configured to rotate at a certain angle with the horizontal connection shaft 120 as the rotation central axis, and alternately Kim Yang-sik network 70 on one side Part of the submerged in sea water, the Kim Yang-sik network (70) located on the opposite side is to be sufficiently exposed to sunlight.

As described above, according to the present invention, a Kim Yang-sik network (Gimbal) planted with Kimpoja is installed on a pivoting link, and the long-linked pivoting links are rotated up and down to selectively submerge the Kim Yang-sik network in sea water or to be exposed to sunlight. By doing so, it is possible to easily expose the sun several times without manual work, so that it is possible to cultivate high-productivity and high-nutrition seaweed.

In addition, the present invention allows sufficient ventilation and sunlight exposure without the use of low tide and high tide, so it can be installed even in areas where there is only a high tide, such as the west coast, and it can be exposed to enough sunlight, so it is possible to remove the trash and prevent pests. It is possible to farm the seaweed with improved quality without using an acid treatment agent, thereby preventing marine pollution caused by the acid treatment agent.

This embodiment is an example for explaining the technology of the present invention can be variously changed within the scope of the claims. For example, the rotational link can be changed in number and position, and can be configured in two or more stages as well as in multiple stages (multi-layer), and the configuration of the Kim Yang-sik network height adjustment unit can also be variously modified.

In addition, the shape of the air tube 151 of the Kim Yang-sik network height adjustment unit may be variously changed. For example, a bellows shape, a spherical shape, or a cylindrical shape may be used.

70: Kim Yang-shik
110: fixed prop
110': horizontal support rod
111: coupler
112: Spiral File
120: horizontal connecting shaft
130: rotation link
140: elastic member
141: slider
142: rolling pin
143: spring
144: stopper
150: Kim Yang-sik network height adjustment unit
151: air tube
152: air supply line
153: air pump
250: Kim Yang-sik net height adjustment unit
251: housing
252: rotating shaft
252a: thread
253: handle
254: Pillar moving up and down
S: slot

Claims (7)

Fixed support members (110, 110') are installed at regular intervals from each other;
A horizontal connection shaft 120 connecting the fixed support members 110 and 110'horizontally;
A pivoting link 130 for installing the Kim Yang-shik network 70 in which the horizontal connection shaft 120 is rotatably coupled to each other at regular intervals and planted Gimpo on the top;
A telescopic member 140 which is connected between the pivot links 130 in the longitudinal direction and is installed between the pivot links 130 so as to expand and contract for rotation of the pivot link 130; And
Eco-friendly height adjustment, including; Kim Yang-sik network height adjustment unit (150) (250) for selectively exposing the Kim-yang network (70) to sunlight or submerging in sea water while rotating the rotating link (130) at a certain angle Type Kim Yang-sik device. The method according to claim 1,
The fixed support member 110, 110' is eco-friendly height characterized in that it comprises at least one of a fixed support 110 that is installed vertically on the seabed, and a horizontal support rod (110') horizontally installed on the sea. Adjustable Kim Yang-sik device. The method according to claim 1,
The elastic member 140 is
A pair of sliders 141 which are installed so as to be able to enter and exit from both ends of the pivot link 130;
A rotating pin 142 connecting the slider 141 to be rotatable, and enabling rotation of the pivot link 130;
A spring 143 elastically supporting the slider 143; And
In order to limit the expansion and contraction position of the slider 141 is formed integrally with the slider 141, the stopper 144 is limited in position in the slot (S) formed at the end of the pivoting link 130; containing Eco-friendly height-adjustable Kimyang-style device. The method according to claim 1,
The Kim Yang-sik network height adjustment unit 150 is
An air tube 151 installed at both ends of the rotation link 130 to selectively rotate the rotation link 130 up and down by injecting air and generating buoyancy;
An air supply line 152 for supplying air to the air tube 151; And
Eco-friendly height-adjustable device comprising a; air pump (153) for supplying air into the air tube (151) through the air supply line (152). The method according to claim 1,
An eco-friendly height-adjustable Kimyang-sik device, characterized in that a space portion (130a) for generating buoyancy is formed inside the rotation link (130). The method according to claim 1,
The pivoting link 130 is an eco-friendly height-adjustable type Kimyang-sik device, characterized in that it is composed of multiple stages. The method according to claim 1,
The Kim Yang-sik network height adjustment unit 250 is
A housing 251 fixedly installed on the seabed;
A rotating shaft 252 rotatably installed vertically in the housing 251 and having a thread 252a formed on an outer circumferential surface;
A handle 253 formed at an upper end of the rotating shaft 252 to rotate the rotating shaft 252; And
During forward and reverse rotation of the rotating shaft 252, it is coupled to the rotating shaft 252 to move up and down, and moves up and down connected to an end portion of the rotation link 130 through an opening 251a of the housing 251. Pillar (254); eco-friendly height-adjustable device containing Kim.

Images