KR102553753B1 - Anchor made of an eco-friendly material, an anchor assay of an eco-friendly material including the same, and a method of manufacturing an anchor made of an eco-friendly material - Google Patents

Abstract

The present invention relates to an anchor, and more particularly, to an anchor for fastening a mat. The anchor of the present invention, the anchor assay of eco-friendly material including the same, and the method of manufacturing the anchor of eco-friendly material reduce the manufacturing cost of the anchor by compressing the anchor in a mold with an eco-friendly material including vegetable fiber. It is possible to reduce the convenience of disposal and processing cost of the walking mat, and by allowing the length of the anchor to be easily adjusted, the walking mat can be easily fixed to the ground regardless of the thickness of the walking mat and the structure of the soil on which the walking mat is supported. There are possible effects.

Description

Anchor made of an eco-friendly material, an anchor assay of an eco-friendly material including the same, and a method of manufacturing an anchor made of an eco-friendly material an anchor made of an eco-friendly material}

The present invention relates to an anchor, and more particularly, to an anchor for fastening a mat.

Recently, walking mats have been installed to improve the walking environment of pedestrians while minimizing ground protection and dust generation on the ground such as trails or hiking trails in parks. In general, a walking mat is woven from dried plants, and a walking mat installed on the ground is fixed on the ground by a separate fixing device to prevent the position of the walking mat from being changed by wind or the like in the installed state.

As a fixing device for fixing such a walking mat, there is an anchor bolt that penetrates the walking mat and is fixed to the ground. Conventional anchor bolts are made of plastic or metal to increase the bonding strength between the walking mat and the ground. However, in the case of anchor bolts made of plastic and metal materials, recycling or disposal was difficult, resulting in high disposal costs when removing the walking mat, and environmental pollution issues also occurred.

Republic of Korea Patent Publication 10-2021-0174793 "Eco-friendly walking mat for the socially underprivileged"

The present invention has been made to solve the above problems, and an object of the present invention is to reduce the manufacturing cost of the anchor by compressing the anchor in a mold with an eco-friendly material containing vegetable fiber, and also to reduce the convenience and disposal cost of the anchor. It is to provide an anchor of an eco-friendly material that can reduce , an anchor assay of an eco-friendly material including the same, and a method of manufacturing an anchor of an eco-friendly material.

In addition, by allowing the length of the anchor to be easily adjusted, an anchor made of an eco-friendly material that can easily fix the walking mat to the ground regardless of the thickness of the walking mat and the structure of the soil on which the walking mat is supported, and an eco-friendly material including the same It is to provide an anchor assay and a method of manufacturing an anchor made of an eco-friendly material.

In order to solve the above problems, the anchor made of eco-friendly material according to an embodiment of the present invention is recessed into the coupling surface at a predetermined depth to fix the member to be coupled, and extends in a predetermined extension direction. It is characterized in that it includes a pin part having one end formed sharp and concave on the coupling surface, and a hitting part formed at the other end of the pin part and transmitting force to the pin part by being hit, and the pin part and the hitting part are made of wood material.

In addition, the pin portion and the striking portion are characterized in that they include at least one of eco-friendly fiber fibers or stone powder or sawdust.

In addition, it is characterized in that the flame retardant material is coated on the surface of the pin part and the hitting part.

In addition, it further includes a wick that extends in the extension direction and penetrates through the center of the pin and the hitting unit, and the wick is made of a material having higher rigidity than the pin and the hitting unit.

In addition, the pin part is formed at a predetermined distance from the striking part, one end is integrally formed with the center of the pin part, and the other end includes at least one concave blade extending to the outside of the center of the pin part by a predetermined length. to be

In addition, the fin unit includes two or more concave blades, and the other ends of each concave blade are spaced apart from each other at equal intervals.

In addition, each concave blade protrudes from the other end, and includes two or more protrusions spaced apart from each other at a predetermined interval in the extension direction, and the pin part is fitted to surround the other surface of the concave blade, and is attached to the protrusion on the inner surface. Characterized in that it further comprises a length adjusting portion including a fastening portion fixed over.

In addition, a plurality of anchors made of eco-friendly materials, and at least one connection portion into which pins of anchors made of different eco-friendly materials are penetrated and fitted at both ends, characterized in that the connection portion is made of a wood material.

In addition, the connecting portion includes at least one of environmentally friendly fiber fibers or stone powder or sawdust, and is characterized in that a flame retardant material is coated on the surface.

In addition, the connecting portion is characterized in that two or more are fitted into one pin portion.

A method of manufacturing an anchor made of an eco-friendly material according to an embodiment of the present invention includes the steps of (a) manufacturing a mold in which the shape of the anchor of an eco-friendly material is intaglio, (b) in the mold It is characterized in that it includes the step of filling the anchor made of eco-friendly material, (c) applying heat or pressure to the mold, and (d) separating the mold and the anchor made of eco-friendly material.

Further, step (b) is characterized in that it includes (b1) filling the inside of the mold with materials for the pin part and impacting part, and (b2) arranging the material for the core part in the center.

In addition, following step (d), (e) characterized in that it further comprises the step of applying a flame retardant to the surface of the anchor made of eco-friendly material.

The anchor of the present invention according to the configuration as described above, the anchor assay of the eco-friendly material including the same, and the manufacturing method of the anchor of the eco-friendly material are manufactured by pressing the anchor in a mold with an eco-friendly material containing vegetable fibers. There is an effect of reducing the cost and also reducing the disposal convenience and processing cost of the anchor.

In addition, since the length of the anchor can be easily adjusted, the walking mat can be easily fixed to the ground regardless of the thickness of the walking mat and the structure of the soil on which the walking mat is supported.

1 is a plan view showing an anchor made of an eco-friendly material of the present invention.
Figure 2 is a cross-sectional and top view showing the wick of the present invention.
Figure 3 is a side view and a bottom view showing a concave blade of the present invention.
Figure 4 is a schematic diagram showing a length adjustment unit of the present invention.
Figure 5 is a schematic diagram showing the coupling relationship between the length adjustment unit and the concave blade of the present invention.
6 is a plan view showing an anchor assay of an eco-friendly material of the present invention.
7 is a plan view showing a connection part of the present invention.
8 is a plan view showing an embodiment of a coupling relationship between a connection part of the present invention and an anchor made of an eco-friendly material.
9 is a flowchart illustrating a method of manufacturing an anchor made of an eco-friendly material according to the present invention.
10 is a schematic diagram showing a mold manufacturing step of the present invention.
Figure 11 is a flow chart showing the detailed steps of the material input step of the present invention.
12 is a schematic diagram showing the material input step and the pressing and separating step of the present invention.

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to the usual or dictionary meaning, and the inventor appropriately uses the concept of the term in order to explain his/her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Hereinafter, the basic configuration of the anchor 1000 made of an eco-friendly material according to the present invention will be described with reference to FIG. 1 .

In the present invention, in the anchor 1000 made of an eco-friendly material that is recessed into the coupling surface S to a predetermined depth to fix the coupled member A, it extends in a predetermined extension direction, and one end is formed to be sharp so that the coupling surface ( S) includes a pin part 100 concave, and a hitting part 200 formed at the other end of the pin part 100 and transmitting force to the pin part 100 by being hit, the pin part 100 and the hitting part 200 It is preferably made of wood material.

In addition, it is preferable that the pin part 100 and the hitting part 200 include at least one of eco-friendly fiber, stone powder, or sawdust. At this time, as an example, the eco-friendly fiber may be dietary fiber collected from coconuts and the like. In more detail, the pin part 100 and the hitting part 200 may be forged and molded in a pre-manufactured mold M, and the mold M is filled with the above-mentioned fiber fibers, stone powder, sawdust, etc. in a predetermined ratio, It may be manufactured by compressing the mold (M) after applying the bond. As the pin part 100 and the impact part 200 are manufactured in this way, it is possible to reduce the manufacturing cost of the anchor 1000 made of an eco-friendly material according to the present invention, and also to reduce the convenience and disposal cost of the anchor 1000 made of an eco-friendly material. There is a savings effect.

Furthermore, a flame retardant material may be coated on surfaces of the pin part 100 and the hitting part 200 . As described above, since the pin part 100 and the hitting part 200 are made of an eco-friendly wood material, the anchor 1000 made of an eco-friendly material of the present invention can be easily burned and destroyed when a fire or the like occurs. Thus, these disadvantages can be offset by coating a flame retardant on the surface.

Hereinafter, the wick part 300 of the present invention will be described with reference to FIG. 2 .

The anchor 1000 made of an eco-friendly material according to the present invention may include a wick part 300. As shown in (a) of FIG. 2, the wick part 300 may extend in the extension direction of the pin part 100, and as shown in (b) of FIG. 2, the pin part 100 and the hitting part It can be fitted through the center of (200). The wick part 300 is preferably made of a material having higher rigidity than the pin part 100 and the hitting part 200 . In more detail, the wick part 300 may be made of an eco-friendly wood material having high rigidity, such as bamboo, and in this case, the bamboo fiber direction may be inserted parallel to the extension direction of the pin part 100 . When the pin part 100 and the striking part 200 are forged, the wick part 300 is preferably manufactured by being inserted into the center of the mold M and pressed together.

In one embodiment of the wick part 300, the wick part 300 may be inserted after being molded so that the area inserted into the striking part 200 has a larger radius than the area inserted into the pin part 100. Accordingly, when force is applied to the striking part 200, the wick part 300 can more stably support it. Also, in another embodiment, the wick portion 300 may be completely interpolated into the anchor 1000 made of an eco-friendly material so as to penetrate only the center of the pin portion 100 without being interpolated into the striking portion 200. Accordingly, the wick part 300 may be fixed without being separated from the pin part 100 and the hitting part 200 .

In this way, the anchor 1000 made of an eco-friendly material of the present invention includes the core portion 300, so that when force is applied in the striking direction (= extension direction), buckling to the pin portion 100 made of stone powder, sawdust, and fiber The shape of the pin unit 100 may be maintained so that this does not occur.

Hereinafter, the concave blade 110 of the present invention will be described in more detail with reference to FIG. 3 .

As shown in (a) of FIG. 3 , the fin unit 100 may include a concave blade 110 protruding outward. In more detail, the concave blade 110 may be formed spaced apart from the striking part 200 by a predetermined distance, and one end is integrally formed with the center of the pin part 100 while the other end extends outside the center of the pin part 100 by a predetermined length. It can be formed by extension. In this way, the side of the pin part 100 of the present invention including the concave blade 110 may form a driver shape.

In addition, the pin unit 100 may include two or more concave blades 110, and the other ends of each concave blade 110 are preferably spaced apart from each other at equal intervals. For example, as shown in (b) of FIG. 3, when there are two concave blades 110, each concave blade 110 may have a phase difference of 180 degrees based on the center of the pin part 100, When there are three concave blades 110, they may have a phase difference of 120 degrees from each other, and when there are four concave blades 110, they may have a phase difference of 90 degrees from each other.

By including the concave blades 110 spaced apart from each other in this way, the load applied to the striking portion 200 can be distributed along each concave blade 110, and the buckling of the pin portion 100 is minimized during hitting Therefore, it is possible to increase the strength and stability of the anchor 1000 made of an eco-friendly material of the present invention.

Hereinafter, the length adjusting unit 120 of the present invention will be described in more detail with reference to FIGS. 4 and 5 .

As shown in FIG. 4 , the pin unit 100 may further include a length adjusting unit 120 for adjusting a maximum insertion depth of the pin unit 100 . In more detail, the length adjustment unit 120 is fitted to surround the other end surface of the concave blade 110, and may include a fastening part fixed over the protrusion 111 on the inner surface. The inner surface of the length adjusting part 120 may be formed to correspond to the outer surface of the fin part 100 including the same structure as the concave blade 110 of the length adjusting part 120 and the outer surface of the length adjusting part 120. Alternatively, a structure capable of distributing the load, such as the concave blade 110, may be formed. At this time, the concave blade 110 may include a protrusion 111 for fixing the position of the length adjusting unit 120 caught on the fastening part. The protrusions 111 protrude from the other end of the concave blade 110 and may be spaced apart from each other by a predetermined distance in the extension direction.

That is, as shown in FIG. 5, the fastening part is formed to be fixed over the protrusion 111 protruding from the other end surface of the concave blade 110, so that the coupling position of the length adjusting part 120 and the pin part 100 can be determined. there is. In more detail, when adjusting the position of the length adjusting part 120, insert the length adjusting part 120 into the pin part 100 so that the fastening part and the concave blade 110 do not overlap each other, and the position of the length adjusting part 120 When determining and fixing, the length adjustment part 120 may be rotated about the axis in the extension direction of the pin part 100 so that the fastening part is caught on the protrusion 111 of the concave blade 110.

As an additional embodiment, even when the pin unit 100 does not include the concave blade 110, the length adjusting unit 120 may be inserted into the outer surface of the pin unit 100 to adjust the maximum insertion depth of the pin unit 100. In more detail, the outer surface of the pin unit 100 may include protrusions 111 formed spaced apart from each other by a predetermined interval in the extension direction at a position corresponding to the fastening part of the length adjusting unit 120, and the fastening unit may include a protrusion 111 ) The position of the length adjusting unit 120 may be fixed over the span.

Furthermore, the length adjustment unit 120 may be made of an elastic material, and accordingly, it is possible to easily adjust the fastening and separation between the fastening unit and the protrusion 111 of the concave blade 110 according to the user's purpose. In addition, the protrusion 111 formed on the pin part 100 is made of the same material as the pin part 100 when the density and strength of the material constituting the pin part 100 is sufficiently high and can be integrally manufactured with the pin part 100. In addition, when the density and strength of the material constituting the pin part 100 is less than a predetermined reference value, it can be inserted into the other surface of the concave blade 110 made of synthetic fiber or processed stone material to secure manufacturing accuracy and fastening support. there is.

Hereinafter, the anchor assay 2000 of the eco-friendly material of the present invention will be described with reference to FIG. 6 .

As shown in FIG. 6, a plurality of anchors 1000 made of eco-friendly materials, at both ends, at least one connection part 2100 into which the pin parts 100 of the anchors 1000 made of different eco-friendly materials are penetrated and fitted, The connection part 2100 is preferably made of a wood material. By including the connecting portion 2100, it is possible to successively fix different to-be-coupled members (A) to the coupling surface (S). In more detail, each anchor 1000 made of eco-friendly material penetrates and fixes the coupling surface S and the coupled member A one by one, and the connection part 2100 connects two or more anchors 1000 made of eco-friendly material. , Each of the coupled members (A) is connected to the coupling surface (S) independently of each other (via each anchor 1000 made of eco-friendly material), and the anchors 1000 made of different eco-friendly materials are additionally connected to each other ( Through the connecting portion 2100), the position of the coupled member (A) can be fixed more firmly.

In addition, the connecting portion 2100 preferably includes at least one of eco-friendly fiber fibers, stone powder, and sawdust, and is coated with a flame retardant material on the surface. At this time, for example, the eco-friendly fiber fibers are dietary fibers collected from coconuts, etc. can be In more detail, the connection part 2100 may be forged and molded in a pre-manufactured mold (M), and after filling the mold (M) with the above-described fiber fibers, stone powder, sawdust, etc. in a predetermined ratio and applying a bond, the mold It can be prepared by compressing (M). After that, a flame retardant material may be applied to the surface of the connecting portion 2100 . As the connection part 2100 is manufactured in this way, it is possible to reduce the manufacturing cost of the anchor assay 2000 made of an eco-friendly material according to the present invention, and also to reduce the convenience and disposal cost of the anchor assay 2000 made of an eco-friendly material. There are possible effects.

Hereinafter, with reference to FIGS. 7 and 8 , the connection unit 2100 and its embodiments of the present invention will be described in more detail.

In the first embodiment of the connection part 2100 shown in (a) of FIG. 7, the connection part 2100 has the width of both ends where the hole into which the anchor 1000 of eco-friendly material is inserted is formed and the width of the center connecting both ends. The average width may be the same within a predetermined error range. Accordingly, when forging the connecting portion 2100, the shape of the mold M can be simplified, and the manufacturing cost can be easily manufactured even if the density of the required constituent materials (eco-friendly fiber, stone powder, sawdust, etc.) is low. can save

In the second embodiment of the connection part 2100 shown in (b) of FIG. 7, the connection part 2100 has a width of both ends in which a hole into which the anchor 1000 made of an eco-friendly material is inserted is formed. May be larger than average width. Accordingly, even if the size of the anchor 1000 made of eco-friendly material or the thickness of the pin part 100 is larger than the size of the connecting part 2100, the anchor 1000 made of an eco-friendly material can be easily inserted into the hole of the connecting part 2100. can At this time, by forming the average width of the center connecting both ends of the connecting portion 2100 narrower than the width of both ends, it is possible to reduce material cost.

In addition, in the third embodiment of the connection part 2100 shown in FIG. 8 , two or more connection parts 2100 are preferably inserted into one pin part 100 . Accordingly, two or more pin units 100 may be connected into one.

Furthermore, an additional hole into which the anchor 1000 made of an eco-friendly material can be inserted may be formed in the center as well as both ends of the connecting portion 2100 . Alternatively, the connection part 2100 may be formed by bending a central bar connecting both ends at a predetermined angle, or may be formed in an 'X' shape or a '*' shape, and anchors made of eco-friendly materials at each end or center. A hole into which 1000 is inserted may be formed. Accordingly, even if the shape and arrangement of the coupled member (A) is diversified, it is possible to easily connect and support them.

Hereinafter, a method of manufacturing an anchor made of an eco-friendly material according to the present invention will be described with reference to FIGS. 9 to 12 .

As shown in FIG. 9, the present invention is a method for manufacturing an anchor 1000 made of an eco-friendly material, comprising the steps of (a) manufacturing a mold M in which the shape of the anchor 1000 made of an eco-friendly material is intaglio, ( b) filling the mold M with the material of the anchor 1000 made of eco-friendly material, (c) applying heat or pressure to the mold M, (d) mold M and the anchor 1000 made of eco-friendly material It is preferable to include the step of separating the. At this time, in step (a), as shown in FIG. 10, it may be manufactured in two pieces, and each piece is filled with the material of the anchor 1000 made of eco-friendly material, and then folded and compressed to obtain the anchor 1000 made of eco-friendly material. can form

In addition, step (b), as shown in FIG. 11, (b1) filling the inside of the mold (M) with the material of the pin part 100 and the hitting part 200 and (b2) the core part ( 300) preferably includes disposing the material. At this time, in step (b1), it is preferable that the material of the pin part 100 and the hitting part 200 include at least one of eco-friendly fiber, stone dust, or sawdust. At this time, as an example, the eco-friendly fiber may be dietary fiber collected from coconuts and the like.

After that, it is preferable to perform step (b2), as shown in (a) of FIG. 12, the material of the pin part 100 and the hitting part 200, such as bamboo, in the center of either mold (M) It is preferable to form the core portion 300 by arranging a material having higher rigidity. Thereafter, as shown in (b) of FIG. 12, the (c) step of covering the mold (M) on both sides and applying heat and pressure and the (d) step of separating the anchor 1000 of the eco-friendly material from the mold (M) can be done

Furthermore, the method of manufacturing an anchor made of an eco-friendly material of the present invention preferably further includes the step of (e) applying a flame retardant to the surface of the anchor 1000 made of an eco-friendly material, following step (d). Accordingly, as the anchor 1000 made of eco-friendly materials such as eco-friendly fibers and sawdust is easily burned and destroyed when a fire or the like occurs, it is possible to prevent the coupling between the coupled member A and the coupling surface S from loosening. there is.

Technical ideas should not be interpreted as being limited to the above-described embodiments of the present invention. Not only the scope of application is diverse, but also various modifications and implementations are possible at the level of those skilled in the art without departing from the gist of the present invention claimed in the claims. Therefore, such improvements and changes fall within the protection scope of the present invention as long as they are obvious to those skilled in the art.

1000: Anchor made of eco-friendly material
100: pin part
110: concave blade
111: protrusion
120: length control unit
200: hitting part
300: core
2000 : Anchor assay of eco-friendly materials
2100: connection part
A: member to be joined
S: mating surface
M: mold

Claims (13)

In the anchor made of an eco-friendly material that is recessed into the coupling surface at a predetermined depth to fix the coupled member,
a pin part extending in a predetermined extension direction and having one end sharpened and recessed into the coupling surface;
A striking portion formed at the other end of the pin portion and being hit to transmit force to the pin portion;
The pin part and the hitting part are made of wood material,
The pin part,
It is formed spaced apart from the hitting part by a predetermined distance,
At least one concave blade having one end integrally formed with the center of the pin and the other end extending to a predetermined length outside the center of the pin,
Each of the above indentation days,
Doedoe protruding from the other end of the concave blade, including two or more projections formed spaced apart from each other at a predetermined interval in the extension direction,
The pin part,
An anchor made of eco-friendly material, characterized in that it further comprises a length adjustment portion fitted to surround the other surface of the concave blade and including a fastening portion fixed over the protrusion on the inner surface.
According to claim 1,
The pin part and the hitting part,
An anchor of an eco-friendly material, characterized in that it comprises at least one of eco-friendly fiber fibers or stone powder or sawdust.
According to claim 2,
The pin part and the striking part
An anchor made of eco-friendly material, characterized in that the surface is coated with a flame retardant material.
According to claim 1,
A core portion extending in the extension direction and inserted through the center of the pin portion and the hitting portion; further comprising,
The anchor of the eco-friendly material, characterized in that the core portion is made of a material having higher rigidity than the pin portion and the hitting portion.
delete According to claim 1,
The pin part,
Including two or more of the concave blades,
The other end of each of the concave blades is an anchor of eco-friendly material, characterized in that spaced apart from each other at equal intervals.
delete In the anchor assay of an eco-friendly material comprising the anchor of claim 1,
A plurality of anchors of the eco-friendly material;
At least one connection part through which the pin part of the anchor of the eco-friendly material is inserted at both ends;
The anchor assay of an eco-friendly material, characterized in that the connection portion is made of wood material.
According to claim 8,
The connection part,
At least one of eco-friendly fiber fibers or stone powder or sawdust,
An anchor assay made of eco-friendly materials, characterized in that the surface is coated with a flame retardant material.
According to claim 8,
The connection part,
An anchor assay of an eco-friendly material, characterized in that two or more are fitted into one of the pin parts.
In the method of manufacturing the anchor of the eco-friendly material of claim 1,
(a) manufacturing a mold in which the shape of the concave edge and the protrusion of the anchor of the eco-friendly material is intaglio;
(b) filling the mold with the material of the eco-friendly anchor;
(c) applying heat or pressure to the mold;
(d) separating the mold and the anchor of the eco-friendly material; manufacturing method of the anchor of the eco-friendly material comprising the.

According to claim 11,
In step (b),
(b1) filling the inside of the mold with materials for the pin part and the hitting part; and
(b2) A method of manufacturing an anchor made of an eco-friendly material, comprising the step of arranging a core material in the center.
According to claim 11,
Following the step (d),
(e) a method of manufacturing an anchor made of eco-friendly material, characterized in that it further comprises the step of applying a flame retardant to the surface of the anchor made of eco-friendly material.

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