KR102394144B1 - Perforator for certification to form holes of different diameters - Google Patents

Abstract

Authentication perforator according to an embodiment of the present invention, the base portion having a flat upper surface; and a body portion positioned on a portion of the upper surface of the base portion to form an insertion space between a portion of the lower surface and the upper surface of the base portion, wherein in a state in which at least one paper document is inserted into the insertion space, the body portion is inserted into a plurality of paper documents Each of the holes may be formed with a different diameter.

Description

Perforator for certification to form holes of different diameters

The present invention relates to a perforator, and more particularly, to a perforator for authentication that can easily perforate the same pattern or character to provide an authentication mark on a plurality of paper documents.

In general, in fields such as law and finance, authentication is performed on paper documents such as contracts. Such certification can demonstrate that the paper document is in accordance with proper procedures. For example, to prove that each chapter in a paper document is related to each other, the seal may be marked. Such stamping is made by a method of superimposing a seal on both sides of a paper document, a method of perforating a pattern or letter of a certain pattern throughout the paper document, and the like.

A perforation type craftsman uses a perforator to form a pattern or character in a certain pattern on a paper document. Here, the perforator is a configuration operated by the force of the operator, and requires considerable force for perforation of the paper document, and is somewhat cumbersome in use.

An object of the authentication perforator according to the technical idea of the present invention is to provide an authentication perforator capable of easily perforating a plurality of holes forming the same pattern or character in a plurality of paper documents at the same time.

In addition, the technical problem to be achieved by the authentication perforator according to the technical idea of the present invention is to form a plurality of holes formed in each sheet of a paper document with different diameters to provide differentiation for authentication of a paper document. to provide a perforator.

The technical problem to be achieved by the certified perforator according to the technical idea of the present invention is not limited to the above-mentioned problems, and another problem not mentioned will be clearly understood by those skilled in the art from the following description.

Authentication perforator according to an embodiment according to the technical idea of the present invention, a base portion having a flat upper surface; and a body portion positioned on a portion of the upper surface of the base portion to form an insertion space between a portion of the lower surface and the upper surface of the base portion, wherein in a state in which at least one paper document is inserted into the insertion space, the body portion is inserted into a plurality of paper documents Each of the holes may be formed with a different diameter.

In addition, the base portion has an open upper surface, the collection body inserted into one surface of the base portion or detachable from one surface of the base portion; and a base guide positioned on the upper surface of the base unit to correspond to the insertion space and formed with a plurality of base holes each having a different inner diameter while being connected to the upper surface of the collection body.

In addition, the body portion is made of a columnar shape, the body base is located in the vertical direction on the upper surface of the base portion near the base guide; a transfer unit rotatably positioned on one surface of the body base and corresponding to the base guide from the upper side of the base guide; a driving unit positioned to correspond to the transmitting unit on the other surface of the body base and rotating the transmitting unit through the body base; a moving unit connected to the transfer unit and positioned above the base guide, movable in the vertical direction by rotation of the transfer unit; a body guide made of a plate shape, fixed to the body base, positioned between the moving part and the base guide, and having a plurality of guide holes each having a different inner diameter to correspond to the base hole; a moving guide positioned vertically on the upper surface of the body guide and passing through the moving part; And while being positioned to correspond to the guide hole on the lower surface of the moving part, each having a different outer diameter, may include a plurality of perforation members that can pass through the guide hole and the base hole.

In addition, the transmission unit, the transmission body made of a cylindrical shape, rotatably located on one surface of the upper body base; and a connection body spaced apart from the center of the transmission body and inserted into the transmission body to be connected to the driving unit, wherein when the connection body is rotated by the driving unit, the transmission body may be eccentrically rotated about the connection body as an axis.

In addition, the moving unit, the first moving member made of a plate shape, is located below the transmitting unit in the horizontal direction in contact with the transmitting unit, the lower surface is a perforated member is located; a second moving member made of a plate shape, positioned above the transmitting unit in a horizontal direction, in contact with the transmitting unit, and positioned parallel to the first moving member; and a pair of connecting members connecting the first moving member and the second moving member, and having a transmission unit positioned therebetween, wherein the movement guide passes through the first moving member and the second moving member and is parallel to the connecting member. and with the puncturing member spaced apart from the guide hole and the base hole, when the transmission body is eccentrically rotated about the connecting body as an axis, the first moving member is moved by the transmission body toward the body guide, and the puncturing member passes through the guide hole and the base hole, and when the transmission body is eccentrically rotated about the connecting body in a state in which the perforation member has passed through the guide hole and the base hole, the second moving member is moved from the body guide by the transmission body Moving to be spaced apart, the perforation member may be spaced apart from the guide hole and the base hole.

In addition, the body unit may further include a light emitting unit connected to the driving unit to generate light when the driving unit is operated.

In addition, the base portion, the auxiliary guide including a first guide positioned to be movable by being inserted in the horizontal direction on the side surface of the base portion, and a second guide extending upward while perpendicular to the first guide at one end of the first guide; And it is located on one surface of the base portion, it may include a fixing member that can be in contact with or spaced apart from the side of the first guide.

In addition, a guide groove having an inner diameter larger than the inner diameter of the guide hole is concavely formed on the upper surface of the body guide to correspond to the guide hole, and the perforation member is formed in a bar shape, and is positioned to correspond to the guide groove on the lower surface of the moving part 1 perforated member; a second perforating member positioned below the first perforating member to correspond to the first perforating member and inserted into the guide groove, the second perforating member having an outer diameter equal to or smaller than the inner diameter of the guide hole; a guide member protruding from the second perforating member along the upper edge of the second perforating member and inserted into the guide groove, the guide member having an outer diameter equal to or smaller than the inner diameter of the guide groove and larger than the inner diameter of the guide hole; and a plurality of guide elastic members in the form of compression springs, each positioned to be spaced apart from each other along the circumferential direction of the second puncturing member while supporting the guide member on the bottom surface of the guide groove.

In addition, the guide elastic member positions the upper surface of the guide member to form the same plane as the upper surface of the body guide, the second piercing member is positioned adjacent to the first piercing member, when the moving part is moved downward, the second piercing member The member may be moved downward by the first puncturing member, pass through the guide hole, and be inserted into the base hole, and the guide member may move downward in the guide groove to compress the guide elastic member.

In addition, the second puncturing member may be inserted into the guide groove to be detachable from the guide groove while being integrally formed with the guide member.

The authentication drilling machine according to embodiments according to the technical spirit of the present invention has the following effects.

(1) A plurality of holes forming the same pattern or character for authentication in a plurality of paper documents can be easily perforated at the same time.

(2) A plurality of holes may be formed in each sheet of the paper document with different diameters to provide differentiation for the authentication of the paper document.

However, the effects that can be achieved by the certified perforator according to an embodiment of the present invention are not limited to those mentioned above, and other effects not mentioned may be clearly understood by those skilled in the art from the description below. will be.

In order to more fully understand the drawings cited herein, a brief description of each drawing is provided.
1 is a perspective view showing a certified perforator according to an embodiment of the present invention.
Figure 2 is a perspective view showing the inside of the body portion in the certified perforator according to an embodiment of the present invention.
3 is a view showing the operation of the authentication drilling machine according to an embodiment of the present invention.
4 is a diagram illustrating the operation of a certified perforator having a deformed perforating member in the certified perforator according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail through the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood that the present invention includes all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are only identification symbols for distinguishing one component from other components.

In addition, in this specification, when a component is referred to as “connected” or “connected” with another component, the component may be directly connected or directly connected to the other component, but in particular It should be understood that, unless there is a description to the contrary, it may be connected or connected through another element in the middle.

In addition, in the present specification, two or more components may be combined into one component, or one component may be divided into two or more for each more subdivided function. In addition, each of the components to be described below may additionally perform some or all of the functions of other components in addition to the main functions they are responsible for, and some of the main functions of each component may have different functions. It goes without saying that it may be performed exclusively by the component.

Hereinafter, embodiments according to the technical spirit of the present invention will be described in detail in turn.

Figure 1 is a perspective view showing a certified perforator 100 according to an embodiment of the present invention, Figure 2 is a perspective view showing the inside of the body portion 102 in the certified perforator 100 according to an embodiment of the present invention 3 is a view showing the operation of the authentication perforator 100 according to an embodiment of the present invention.

1 to 3, the authentication perforator 100 according to an embodiment of the present invention may include a base portion 101 and a body portion 102, the base portion 101 and the body portion By inserting a paper document into the insertion space 10 formed with a predetermined size between the 102, it can be used to form a plurality of holes in the inserted paper document. Here, the plurality of holes may be arranged to form a pattern or character in each chapter of the paper document, and may provide a function as a stencil for the paper document.

The base 101 may have a rectangular parallelepiped shape, and in particular, may have a flat upper surface. In addition, the base 101 may include a collection body 111 , a base guide 113 , an auxiliary guide 115 , and a fixing member 117 .

The collection body 111 may have a shape (ie, a rectangular parallelepiped shape) corresponding to the base part 101 and may have an open upper surface. Here, the collection body 111 may be inserted into the base portion 101 through one surface of the base portion 101 , or may be separated from the base portion 101 .

The base guide 113 is formed in a plate shape, and may be located on the upper surface of the base unit 101 . Here, the base guide 113 may be positioned to correspond to the collection body 111 inserted into one surface of the base part 101 . In particular, the base guide 113 may be preferably positioned to correspond to the insertion space 10 to be described later in detail.

In addition, a plurality of base holes 113 ′ may be formed in the base guide 113 . Here, the base hole 113' may be formed to have different diameters, for example, may be formed to have an inner diameter of 1.2 mm to 1.5 mm, and may be arranged to form predetermined letters or patterns. In particular, the base hole 113 ′ may be connected to the upper surface of the collection body 111 .

The auxiliary guide 115 is partially inserted into the side surface of the base unit 101 in a state where it is gradually inserted into the side surface of the base unit 101 and gradually protrudes from the side surface of the base unit 101 . Here, the auxiliary guide 115 may be preferably located near one surface of the base portion 101 .

Also, the auxiliary guide 115 may include a first guide 115a and a second guide 115b.

The first guide (115a) is made of a rectangular bar shape, is inserted in the horizontal direction to the side of the base portion 101, can be gradually inserted into the side of the base portion 101, or gradually from the side of the base portion (101) can protrude.

The second guide 115b may extend upward while being perpendicular to the first guide 115a at one end of the first guide 115a. When the paper document is placed on the upper surface of the base unit 101 , the paper document may be placed on the first guide 115a, and the side of the paper document may be in contact with the second guide 115b. That is, the paper document may be positioned on the upper surface of the base unit 101 in a state in which a plurality of paper documents are stacked and aligned by the auxiliary guide 115 .

The fixing member 117 may be positioned on one surface of the base 101 and may be in contact with the side surface of the first guide 115a or may be spaced apart from the side surface of the first guide 115a. Here, when the fixing member 117 is in contact with the side surface of the first guide 115a , the auxiliary guide 115 may be positioned in a state of being fixed to the base portion 101 .

In addition, the fixing member 117 may be screwed to one surface of the base unit 101 to contact the side surface of the first guide 115a or may be spaced apart from the side surface of the first guide 115a.

The body portion 102 may be located on a portion of the upper surface of the base portion 101 . Here, the lower surface of the body portion 102 may have a smaller size than the upper surface of the base portion 101 .

The aforementioned insertion space 10 may be formed between a portion of the lower surface of the body portion 102 and the upper surface of the base portion 101 . Here, the insertion space 10 may have an open surface and both sides, and may be positioned to correspond to the base guide 113 of the base portion 101 . The paper document may be inserted into the insertion space 10 and positioned on the upper surface of the base unit 101 . The body portion 102 may form a plurality of holes in the paper document inserted into the insertion space 10 . Here, the plurality of holes may be positioned to correspond to the aforementioned base hole 113 ′ and formed to have the same inner diameter.

In addition, the body portion 102 includes a body base 121 , a transfer unit 122 , a driving unit 123 , a moving unit 124 , a body guide 125 , a moving guide 126 , and a perforation member 127 . can do.

The body base 121 has a pillar shape, particularly a hexagonal pillar shape, and may be located on the upper surface of the base portion 101 near the base guide 113 . Here, the body base 121 is positioned in the vertical direction on the upper surface of the base portion 101, and may include a reducer and the like.

The transfer unit 122 may be rotatably positioned on one surface of the body base 121 . Here, the transfer unit 122 may be positioned above the base guide 113 to correspond to the base guide 113 . In addition, the transmission unit 122 may include a transmission body (122a) and a connection body (122b).

Transmission body (122a) is made of a cylindrical shape, it may be positioned so as to be rotatably orthogonal to one surface upper portion of the body base (121).

The connection body 122b may be positioned to be spaced apart from the center of the transmission body 122a and inserted into the transmission body 122a. The transmission body 122a may be rotated together with the connection body 122b. Here, when the connecting body 122b is rotated about the center of the connecting body 122b as an axis, the transmission body 122a may be rotated eccentrically about the connecting body 122b as an axis.

The driving unit 123 may be positioned to correspond to the transmission unit 122 on the other surface of the body base 121 . Here, the driving unit 123 may be connected to the transmission unit 122 through the body base 121 to rotate the transmission unit 122 . In particular, the driving unit 123 may be connected to the connection body 122b of the transmission unit 122 to rotate the connection body 122b. Due to this, the transmission body (122a) can be rotated eccentrically about the connecting body (122b) as an axis.

In addition, the driving unit 123 of the present embodiment is made in the form of a motor, and may be operated in a state in which power is supplied.

The moving unit 124 may be connected to the transfer unit 122 and positioned above the base guide 113 . When the transfer unit 122 is rotated by the driving unit 123 , the moving unit 124 may move in the vertical direction. That is, the moving part 124 may be moved to face the base guide 113 or to be spaced apart from the base guide 113 . Also, the moving unit 124 may include a first moving member 124a, a second moving member 124b, and a connecting member 124c.

The first moving member 124a may be formed in a plate shape, and may be positioned in a horizontal direction to be positioned below the delivery part 122 in a state in which it is in contact with the delivery part 122, in particular, the delivery body 122a.

The second moving member 124b may be formed in a plate shape and positioned in the horizontal direction to be positioned above the delivery part 122 in a state of being in contact with the delivery part 122, in particular, the delivery body 122a. Here, the second moving member 124b may be positioned to be parallel to the first moving member 124a.

The connecting member 124c may be positioned between the first moving member 124a and the second moving member 124b to connect the first moving member 124a and the second moving member 124b. In particular, the connecting member 124c is formed as a pair, and may be connected to an upper surface of the first moving member 124a and a lower surface of the second moving member 124b. Also, the transfer unit 122 may be positioned between the connecting members 124c as well as between the first moving member 124a and the second moving member 124b. When the transmission body 122a is eccentrically rotated about the connecting body 122b as an axis, the first moving member 124a, the second moving member 124b, and the connecting member 124c may move up and down.

The body guide 125 is formed in a plate shape, is positioned between the moving part 124 and the base guide 113 , and may be fixed to a lower portion of one surface of the body base 121 . In addition, an insertion space 10 may be formed between the body guide 125 and the upper surface of the base 101 . A plurality of guide holes 125 ′ may be formed in the body guide 125 to correspond to the plurality of base holes 113 ′.

The movement guide 126 is formed in a bar shape, and is positioned in the vertical direction on the upper surface of the body guide 125 to pass through the movement unit 124 . Here, the movement guide 126 is made of a pair, the transfer unit 122 is positioned therebetween, and passes through the first moving member 124a and the second moving member 124b. When the transmission body (122a) rotates eccentrically about the connection body (122b) as an axis, the moving part (124) may be moved in the vertical direction along the movement guide (126).

The perforation member 127 may be formed in plurality, and may be positioned to correspond to the guide hole 125 ′ in the moving part 124 , in particular, the lower surface of the first moving member 124a. Here, the perforation member 127 may be inserted into the guide hole 125 ′ and the base hole 113 ′ while each having a rod shape.

When the connecting body 122b in the transmission unit 122 is positioned below the center of the transmission body 122a, the moving unit 124, particularly the first moving member 124a, is positioned spaced apart from the body guide 125 can be Here, the perforation member 127 may be inserted into a portion of the guide hole 125 ′ while being positioned to correspond to the guide hole 125 ′ (see FIG. 3A ). Meanwhile, the perforation member 127 may be positioned to correspond to the guide hole 125 ′ and spaced apart from the guide hole 125 ′.

In the above state, the transmission unit 122 is rotated by the driving unit 123 , and the connection body 122b may be located above the center of the transmission body 122a. Here, the moving part 124 is moved downward to move toward the body guide 125, and the perforation member 127 is also moved downward to pass through the guide hole 125' and to the base hole 113'. can be inserted (see Fig. 3(b)). That is, the puncturing member 127 may be positioned across the insertion space 10 .

Meanwhile, in a state in which the first moving member 124a is positioned spaced apart from the body guide 125 , the paper document is placed between the body guide 125 of the body 102 and the base guide 113 of the base 101 . , that is, it can be inserted into the insertion space 10 . In a state in which the paper document is inserted into the insertion space 10, the moving part 124 is moved downward to move toward the body guide 125, and the perforating member 127 passes through the guide hole 125' and It may be inserted into the base hole 113' to form a hole in the paper document. In addition, the pieces of paper documents corresponding to the holes may be separated from the paper documents and collected in the collection body 111 through the base hole 113 ′.

In addition, the perforation member 127 is rotated by the driving unit 123 in the state inserted into the guide hole 125 ′ and the base hole 113 ′, the transmission unit 122 is rotated by the driving unit 123 , and the connecting body 122b is connected to the transmission body ( It may be located at the lower side of the center of the 122a), and the moving part 124 may be moved upward and moved away from the body guide 125 . Here, the perforation member 127 may be moved upward to be separated from the base hole 113 ′ and inserted into a part of the guide hole 125 ′, and the paper document with the hole formed therein is separated from the insertion space 10 . can be

On the other hand, the body base 121, the transmission unit 122, the driving unit 123, the moving unit 124, the body guide 125, the moving guide 126 and the perforation member 127 of the body unit 102 of the present embodiment. ) may be accommodated in the body cover 120 and closed. The body cover 120 may protect the components of the body portion 102 from the external environment.

In addition, the body portion 102 may further include a light emitting portion (128). The light emitting unit 128 may be connected to the driving unit 123 , and may generate light when the driving unit 123 is operated. Also, the light emitting unit 128 may be exposed through the body cover 120 . Here, when the transmission unit 122 is rotated or the moving unit 124 is moved in the vertical direction by the driving unit 123 , the light emitting unit 128 generates light to check whether the body unit 102 operates. can be used to

The authentication perforator 100 according to the present embodiment may be perforated by inserting a paper document into the insertion space 10 between the base portion 101 and the body portion 102 . Here, the insertion space 10 may be formed between the base guide 113 of the base 101 and the body guide 125 of the body 102 . In the body portion 102 , the perforation member 127 may be positioned on the moving portion 124 and inserted into the body guide 125 and the base guide 113 . In particular, the driving unit 123 may rotate the transmitting unit 122 to move the moving unit 124 downward. Here, the perforation member 127 may pass through the body guide 125 and be inserted into the base guide 113 . When the paper document is inserted into the insertion space 10 , the perforating member 127 may form a hole in the paper document. Meanwhile, the driving unit 123 may rotate the transmitting unit 122 to move the moving unit 124 upward, and may separate the perforating member 127 from the base guide 113 . Here, the paper document may be separated from the insertion space 10 while being inserted into the insertion space 10 .

In the body portion 102, the perforation member 127 can be moved in the vertical direction by the driving unit 123 to form a hole in the paper document, and to form a pattern or character according to the arrangement of the perforation member 127 itself. holes can be formed. Therefore, the authentication perforator 100 of the present embodiment can easily perforate a plurality of holes forming the same pattern or character in a plurality of paper documents at the same time.

In addition, the perforation member 127 may be formed in plurality and may have different outer diameters while corresponding to the base hole 113 ′ and the guide hole 125 ′. Here, the plurality of holes are formed in each sheet of the paper document, and may be formed in various diameters. For this reason, the authentication perforator 100 of the present embodiment forms a plurality of holes in the paper document to indicate minute differences that only the operator can recognize, so that differentiated authentication can be given to the paper document.

4 is a diagram illustrating the operation of the certified perforator 100 having a deformed perforating member 127 in the certified perforator 100 according to an embodiment of the present invention.

As shown in FIG. 4 , deformation of the perforating member 127 may be made. In addition, the perforation member 127 may include a first perforation member 127a, a second perforation member 127b, a guide member 127c, and a guide elastic member 127d. Here, a guide groove 125" may be concavely formed to correspond to the guide hole 125' on the upper surface of the body guide 125 to correspond to the configuration of the perforation member 127. Guide groove 125" may have an inner diameter greater than the inner diameter of the guide hole 125 ′.

The first puncturing member 127a may be positioned to correspond to the guide groove 125" in the lower surface of the moving part 124, in particular, the first moving member 124a. Here, the first piercing member 127a is Each of which is formed in a bar shape, may be separated from the guide groove 125 ″ by the moving unit 124 or inserted into the guide groove 125 ″.

The second puncturing member 127b is positioned below the first puncturing member 127a to correspond to the first puncturing member 127a, and may be inserted into the guide groove 125″. Here, the second puncturing member ( 127b) is formed in a bar shape, is separated from the first perforation member 127a, and may have an outer diameter equal to or smaller than the inner diameter of the guide hole 125'.

When the moving part 124 is moved downward, the second puncturing member 127b moves downward by the first piercing member 127a, passes through the guide hole 125', and is inserted into the base hole 113'. and can be used to perforate paper documents. Here, a hole according to the outer diameter of the second perforating member 127b may be formed in the paper document.

The guide member 127c is formed to protrude from the second perforation member 127b along the upper edge of the second perforation member 127b, and may be inserted into the guide groove 125". Here, the guide member 127c The outer diameter is less than or equal to the inner diameter of the guide groove 125", and is larger than the inner diameter of the guide hole 125'. For this reason, the second perforation member 127b may pass through the guide hole 125' by the guide member 127c and may not be separated from the guide hole 125'.

The guide elastic member 127d is made of a plurality of doedoe, each of which is positioned on the bottom surface of the guide groove 125" to support the guide member 127c. Here, the guide elastic member 127d is a compression spring. Made in the form of, along the circumferential direction of the second perforation member (127b) may be positioned to be spaced apart from each other.

The guide elastic member 127d may be positioned so that the upper surface of the guide member 127c is flush with the upper surface of the body guide 125 . Here, the second puncturing member 127b may be positioned adjacent to the first puncturing member 127a (refer to FIG. 4(a) ). When the moving part 124 is moved downward, the second puncturing member 127b comes into contact with the first piercing member 127a and moves downward by the first piercing member 127a to form the guide hole 125'. It can pass through and be inserted into the base hole 113'. Here, the guide member 127c may move downward in the guide groove 125" to compress the guide elastic member 127d (refer to FIG. 4(b)).

On the other hand, when the moving part 124 is moved upward in the downwardly moved state, the first puncturing member 127a moves upward, and the guide elastic member 127d expands while moving the guide member 127c upward. moving and maintaining the second puncturing member 127b in contact with the first piercing member 127a.

In the perforation member 127 as described above, the second perforation member 127b may be combined with the guide member 127c or may be formed integrally, and is guided by the guide elastic member 127c for supporting the guide member 127c. It can be maintained in a state inserted into the groove 125". Here, the second puncturing member 127b is inserted into the guide groove 125" so as to be easily detachable from the guide groove 125", and the guide hole ( 125'), and can be replaced to form holes of various diameters in a paper document. Accordingly, the certified perforator 100 of this embodiment is a perforating member 127, particularly the second The perforation member 127b may be used to form holes of various diameters, in particular, inner diameters.

In the above, the technical idea of the present invention has been described in detail with reference to preferred embodiments, but the technical idea of the present invention is not limited to the above embodiments, and those of ordinary skill in the art within the scope of the technical spirit of the present invention Various modifications and changes are possible by the person.

100: certified perforator 10: insertion space
101: base portion 111: collection body
113: base guide 115: auxiliary guide
117: fixing member 102: body portion
121: body base 122: transmission unit
123: driving unit 124: moving unit
125: body guide 126: movement guide
127: perforation member 128: light emitting part

Claims (10)

a base portion having a flat upper surface; and
It is located on a part of the upper surface of the base part, including a body part that forms an insertion space between a part of the lower surface and the upper surface of the base part,
In a state in which a paper document composed of at least one sheet is inserted into the insertion space, the body forms a plurality of holes in the paper document with different diameters,
base part,
a collection body having an open upper surface and being inserted into one surface of the base part or detachable from one surface of the base part; and
It is located on the upper surface of the base unit to correspond to the insertion space, and includes a base guide having a plurality of base holes each having a different inner diameter while being connected to the upper surface of the collection body,
body part,
Doedoe made in the shape of a column, the body base positioned in the vertical direction to the upper surface of the base portion near the base guide;
a transfer unit rotatably positioned on one surface of the body base and corresponding to the base guide from the upper side of the base guide;
a driving unit positioned to correspond to the transmitting unit on the other surface of the body base and rotating the transmitting unit through the body base;
a moving unit connected to the transfer unit and positioned above the base guide, movable in the vertical direction by rotation of the transfer unit;
a body guide made of a plate shape, fixed to the body base, positioned between the moving part and the base guide, and having a plurality of guide holes each having a different inner diameter to correspond to the base hole;
a moving guide positioned vertically on the upper surface of the body guide and passing through the moving part; and
A plurality of perforating members each having a different outer diameter and passing through the guide hole and the base hole while positioned to correspond to the guide hole on the lower surface of the moving part,
delivery unit,
a transmission body made of a cylindrical shape and rotatably positioned on one surface of the body base; and
It is spaced apart from the center of the transmission body and is inserted into the transmission body and includes a connection body connected to the driving unit,
When the connecting body is rotated by the driving unit, the transmission body is rotated eccentrically about the connecting body as an axis,
moving part,
Doedoe made of a plate shape, the first moving member is positioned below the transmission unit in the horizontal direction in contact with the transmission unit, the lower surface is a perforated member is located;
a second moving member made of a plate shape, positioned above the transmitting unit in a horizontal direction, in contact with the transmitting unit, and positioned parallel to the first moving member; and
A pair of connecting members connecting the first moving member and the second moving member, and having a transmission unit positioned therebetween,
The movement guide is positioned parallel to the connecting member while passing through the first moving member and the second moving member,
When the transmission body is eccentrically rotated about the connecting body in a state in which the puncturing member is spaced apart from the guide hole and the base hole, the first moving member is moved toward the body guide by the transmission body, and the puncturing member is the guide hole And through the base hole,
When the transmission body is eccentrically rotated about the connection body in a state in which the puncturing member has passed through the guide hole and the base hole, the second moving member moves to be spaced apart from the body guide by the transmission body, and the puncturing member is the guide hole And Certified perforator, characterized in that spaced apart from the base hole.
delete delete delete delete According to claim 1, wherein the body portion,
It is connected to the driving unit, authentication perforator, characterized in that it further comprises a light emitting unit for generating light when the driving unit is operated.
According to claim 1, wherein the base portion,
an auxiliary guide including a first guide positioned to be movable by being inserted into a side surface of the base unit in a horizontal direction, and a second guide extending upward while being perpendicular to the first guide at one end of the first guide; and
It is located on one surface of the base portion, the authentication perforator, characterized in that it comprises a fixing member that can be in contact with or spaced apart from the side of the first guide.
According to claim 1,
A guide groove having an inner diameter larger than the inner diameter of the guide hole is concavely formed on the upper surface of the body guide to correspond to the guide hole,
The perforation member is
Doedoe made of a bar shape, a first perforating member positioned to correspond to the guide groove on the lower surface of the moving part;
a second perforating member positioned below the first perforating member to correspond to the first perforating member and inserted into the guide groove, the second perforating member having an outer diameter equal to or smaller than the inner diameter of the guide hole;
a guide member protruding from the second perforating member along the upper edge of the second perforating member and inserted into the guide groove, the guide member having an outer diameter less than or equal to the inner diameter of the guide groove and larger than the inner diameter of the guide hole; and
A certified perforator, characterized in that it includes a plurality of guide elastic members in the form of compression springs, each positioned to be spaced apart from each other along the circumferential direction of the second puncturing member while supporting the guide member on the bottom surface of the guide groove.
9. The method of claim 8,
The guide elastic member is positioned so that the upper surface of the guide member is flush with the upper surface of the body guide, the second puncturing member is positioned adjacent to the first piercing member,
When the moving part is moved downward, the second puncturing member moves downward by the first piercing member, passes through the guide hole, and is inserted into the base hole, and the guide member moves downward in the guide groove to compress the guide elastic member. Certified perforator, characterized in that.
9. The method of claim 8,
The second drilling member is formed integrally with the guide member and is inserted into the guide groove to be detachable from the guide groove.

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