KR101635445B1 - Collimator stand for piping - Google Patents

Abstract

The present invention relates to a collimator support for piping, capable of easily supporting pipes while having a simple structure. The present invention comprises: a grip part (102); a first rotating part (104) hinged with a center of the grip part (102) to be rotatable; a second rotating part (106) placed to be opposite to the first rotating part (104), but hinged with the center of the grip part (102) to be rotatable; a rotation providing part (108) installed in a side of the first rotating part (104), but rotating the first rotating part (104) and the second rotating part (106); first tongs (110) extended from an end of the first rotating part (104) to tighten an object by rotating with the rotation of the first rotating part (104); second tongs (112) extended from an end of the second rotating part (106) to be the opposite to the first tongs (110) to tighten the object by rotating with the rotation of the second rotating part (106); a first sliding part (114) placed on an outer surface of the first tongs (110) to slide; a first fixing part (116) fixating the first sliding part (114) to the outer surface of the first tongs (110); and a first support part (118) installed in the first sliding part (114) to be rotatable to support the object.

Description

Collimator stand for piping}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a collimator support for piping, and more particularly, to a collimating support for a piping which is simple in structure and can easily support a pipe.

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Generally, as shown in Fig. 1, a collimator support generally supports a lower portion of a center bar 3 with three tines 2 having a center magnet 1 formed at each end thereof, and a clamp 4 is attached to the center bar 3 The collimator support rod 5 is fixed to the clamp 4 with a fixing bolt and the collimator 10 is charged into the collimator entry port 6 formed at the end of the collimator support rod And a fastening method of fixing the collimator 10 by using a fastening bolt was used.
The collimator support which is used in the above-mentioned manner, when the support bolt is slackened due to the collapse of the magnet due to the weak magnetic force or the weight of the collimator during the inspection work after a certain period of use, It is necessary to maintain a correct distance between the radiation source and the object to be photographed, so that it can not be manipulated by a skilled technician, There is a problem in that it is impossible to use a collimator having a certain size or more.
In addition, since the conventional collimator is manufactured with all the products being inspected in mind, the exposure angle of the radiation emitting window is formed to be 90 degrees or more, and the shielding effect of the radiation is deteriorated.

In order to solve the above-mentioned problems, the invention was filed with the Korean Intellectual Property Office as a copier application No. 20-2005-0001229 filed on Jan. 14, 2005 (name of design: collimator support for radiographic inspection) A support panel 20 for supporting a collimator 10 for inspection is provided with a support panel 21 on which a radiation window 22 is formed such that radiation from an internal source of collimator is transmitted, A fixing plate 24 for fixing both sides of the collimator 10 and a fixing plate 24 for fixing the collimator 10 to the collimator 20 through the fixing plate 24, And an upper and lower support ribs 26 formed at the center of both lower sides of the lower portion of the support panel 21 and having support rods 27 extending in the front and rear direction at the lower end thereof. Collimator support 20 ".

However, the conventional collimator support member described above has a complicated structure, There is a problem that the purchase cost is increased and the piping is not easily supported.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a collimator support for piping that is simple in construction and can easily support piping.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a piping collimator support,
A grip portion 102;
A first pivot part 104 pivotally coupled to the center of the grip part 102 by a hinge;
A second swinging part 106 which is positioned opposite to the first swinging part 104 and is rotatably coupled to the center of the gripping part 102 by a hinge;
A rotation providing unit 108 installed on one side of the first rotation unit 104 for rotating the first rotation unit 104 and the second rotation unit 106;
A first tongue 110 extending from one end of the first tilting portion 104 to rotate according to a rotation of the first tilting portion 104 to apply an object;
A second tongue 112 extending from one end of the second tilting portion 106 to face the first tongue 110 and pivoting with the rotation of the second tilting portion 106 to pivot the object;
A first sliding part 114 slidably positioned on the outer surface of the first clamp 110;
A first fixing part 116 for fixing the first sliding part 114 to the outer surface of the first tongue 110;
A first support part 118 rotatably installed on the first sliding part 114 to support an object;
A second sliding portion 120 slidably positioned on an outer surface of the second tongue 112;
A second fixing part 122 for fixing the second sliding part 120 to the outer surface of the second clamp 112;
A second support part 124 rotatably installed on the second sliding part 120 to support an object;
A third sliding portion 126 slidably positioned on the outer surface of the second gripper 112 at a predetermined distance from the second sliding portion 120;
A third fixing part 128 for fixing the third sliding part 126 to the outer surface of the second tongue 112;
A third support part 130 rotatably installed on the third sliding part 126 to support an object;
A first binding part 132 provided on one side of the outer surface of the grip part 102;
A second binding portion 134 positioned at a predetermined distance from the first binding portion 132;
A flexible bellows portion 136 provided between the first binding portion 132 and the second binding portion 134;
The first tongue 110 and the second tongue 112 are provided inside the soft bellows portion 136 to stretch from the first tongue 110 and the second tongue 112 to the collimator, Cable 138,
The first support part 118, the second support part 124 and the third support part 130 have a certain curvature area in the form of a pad,
The cable (138)
The nonferrous or soft wire having ductility may be inserted into a line or a plurality of line bundles or may be inserted into a bundle of twisted or twisted wires in a different way to adjust the direction of the object freely to maintain a certain distance, It includes supporting the weight without deflection.

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As described above, the collimator support for piping according to the present invention has the effect of facilitating the installation and disassembly of the radiopaque test and the preparation time by facilitating the fixation and disassembly of the pipeline.
In addition, the present invention is not only capable of supporting a thick and heavy pipeline to be installed and fixed, but also has the effect of shielding unwanted radiation emitted from radioactive isotopes, thereby reducing radiation exposure.

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1 shows a general collimator support,
2 is a view showing a collimator support for a piping according to the present invention,
3 is an exploded view of the collimator support for piping of FIG. 2,
Fig. 4 is an exploded view of the main part of the collimator support for piping of Fig. 2,
FIG. 5 is a view showing the interior of the recess of the collimator support for piping of FIG. 2,
6 is a view showing a state of use of a collimator support for piping according to the present invention.

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Hereinafter, a preferred embodiment of a collimator support for piping according to the present invention will be described.
In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 2 is an exploded view of a collimator support for a pipeline according to the present invention, FIG. 3 is an exploded view of a collimator support for a pipeline of FIG. 2, 2 is a view showing the inside of a main portion of the collimator support for piping in Fig. 2; Fig.

1 to 5, a collimator support 100 for a piping according to the present invention includes:
A grip portion 102;
A first pivot part 104 pivotally coupled to the center of the grip part 102 by a hinge;
A second swinging part 106 which is positioned opposite to the first swinging part 104 and is rotatably coupled to the center of the gripping part 102 by a hinge;
A rotation providing unit 108 installed on one side of the first rotation unit 104 for rotating the first rotation unit 104 and the second rotation unit 106;
A first tongue 110 extending from one end of the first tilting portion 104 and pivoting with the rotation of the first tilting portion 104 to feed an object (e.g., a pipe);
A second tongue 112 extending from one end of the second tilting portion 106 to face the first tongue 110 and pivoting with the rotation of the second tilting portion 106 to pivot the object;
A first sliding part 114 slidably positioned on the outer surface of the first clamp 110;
A first fixing part 116 for fixing the first sliding part 114 to the outer surface of the first tongue 110;
A first support part 118 rotatably installed on the first sliding part 114 to support an object;
A second sliding portion 120 slidably positioned on an outer surface of the second tongue 112;
A second fixing part 122 for fixing the second sliding part 120 to the outer surface of the second clamp 112;
A second support part 124 rotatably installed on the second sliding part 120 to support an object;
A third sliding portion 126 slidably positioned on the outer surface of the second gripper 112 at a predetermined distance from the second sliding portion 120;
A third fixing part 128 for fixing the third sliding part 126 to the outer surface of the second tongue 112;
A third support part 130 rotatably installed on the third sliding part 126 to support an object;
A first binding part 132 provided on one side of the outer surface of the grip part 102;
A second binding portion 134 positioned at a predetermined distance from the first binding portion 132;
A flexible bellows portion 136 provided between the first binding portion 132 and the second binding portion 134;
The first tongue 110 and the second tongue 112 are provided inside the soft bellows portion 136 to stretch from the first tongue 110 and the second tongue 112 to the collimator, A cable 138;
A third binding part 140 provided on one side of the outer surface of the second binding part 134;
And a fourth fixing part 142 positioned in the third binding part 140 to fix the object.

Here, the first supporting part 118, the second supporting part 124, and the third supporting part 130 have a certain curvature area in the form of a pad.
In addition,
The nonferrous or soft wire having ductility may be inserted into a line or a plurality of line bundles or may be inserted into a bundle of twisted or twisted wires in a different way to adjust the direction of the object freely to maintain a certain distance, Allows weight to hold without deflection.

The assembly process and operation of the collimator support 100 for a pipeline according to the present invention will be described as follows.
Here, the assembling process of the collimator support 100 for a piping according to the present invention can be changed as much as possible depending on the assembler.

First, the grip portion 102 is positioned.
The first turning part 104 is rotatably disposed at the center of the grip part 102 and is rotated at the center of the grip part 102 in a direction opposite to the first turning part 104 Thereby positioning the second turning portion 106 as much as possible.
Then, the first turning part 104 and the second turning part 106 are rotatably fixed to the grip part 102 with a hinge.

Then, the rotation providing part 108 is connected to one side of the first rotation part 104. At this time, the first rotary part 104 and the second rotary part 106 are rotated according to the rotation of the rotary providing part 108.

After the first tongue 110 is extended to one end of the first tilting portion 104, the second tongue 112 is extended to one end of the second tilting portion 106.

After the first sliding part 114 is positioned, the first supporting part 118 is rotatably installed on the outer surface of the first sliding part 114.

The first sliding part 114 provided with the first supporting part 118 is slid to the outer surface of the first tongue 110 and then the first sliding part 114 is fixed to the first fixing part 116 1 is fixed to the outer surface of the tongue 110.

After the second sliding portion 120 is positioned, the second supporting portion 124 is rotatably installed on the outer surface of the second sliding portion 120.

After the second sliding portion 120 provided with the second supporting portion 124 is slid on the outer surface of the second gripper 112, the second sliding portion 120 is rotated by the second fixing portion 122 2 is fixed to the outer surface of the tongue 112.

After the third sliding portion 126 is positioned, the third supporting portion 130 is rotatably installed on the outer surface of the third sliding portion 126.

The third sliding part 126 provided with the third supporting part 130 is slid on the outer surface of the second tongue 112 and then the third sliding part 130 is fixed to the third fixing part 128 2 is fixed to the outer surface of the tongue 112.

After the first binding portion 132 is provided on one side of the outer surface of the grip portion 102 and the second binding portion 134 is positioned at a predetermined distance from the first binding portion 132,

After the flexible bellows portion 136 having the cable 138 therein is positioned, the flexible bellows portion 136 is installed between the first binding portion 132 and the second binding portion 134 .
After the third binding portion 140 is installed on one side of the outer surface of the second binding portion 134, the fourth fixing portion 142 is positioned on the outer surface of the third binding portion 140.
The reason for using the soft bellows portion 136 is to clean the appearance.

When the collimator support 100 for a piping according to the present invention is assembled as described above,
6, the collimator support 100 for piping is positioned and the piping 200 is positioned on one side of the collimator support 100 for piping.

The first support portion 118, the second support portion 124, and the third support portion 130 are positioned on the outer surface of the pipe 200.

The first fixing part 116 is fixed to the outer surface of the first tongue 110 and the first sliding part 114 is fixed to the outer surface of the second tongue 112 by the second fixing part 122, 2 sliding portion 120 is fixed and the third sliding portion 126 is fixed to the outer surface of the second gripper 112 by the third fixing portion 128.

The flexible bellows portion 136 is used to bind the pipe 200 so as not to be sagged.
Therefore, the pipe 200 is not sagged.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Collimator support for piping
102: grip portion
104: 1st East
106: 2nd East
108:
110: 1st tongs
112: 2nd tongs
114, 120, 126: sliding portion
116, 122, 128:
118, 124, 130:
132, 134:
136: Soft bellows part
138: Cable

Claims (5)

A grip portion 102;
A first pivot part 104 pivotally coupled to the center of the grip part 102 by a hinge;
A second swinging part 106 which is positioned opposite to the first swinging part 104 and is rotatably coupled to the center of the gripping part 102 by a hinge;
A rotation providing unit 108 installed on one side of the first rotation unit 104 for rotating the first rotation unit 104 and the second rotation unit 106;
A first tongue 110 extending from one end of the first tilting portion 104 to rotate according to a rotation of the first tilting portion 104 to apply an object;
A second tongue 112 extending from one end of the second tilting portion 106 to face the first tongue 110 and pivoting with the rotation of the second tilting portion 106 to pivot the object;
A first sliding part 114 slidably positioned on the outer surface of the first clamp 110;
A first fixing part 116 for fixing the first sliding part 114 to the outer surface of the first tongue 110;
A first support part 118 rotatably installed on the first sliding part 114 to support an object;
A second sliding portion 120 slidably positioned on an outer surface of the second tongue 112;
A second fixing part 122 for fixing the second sliding part 120 to the outer surface of the second clamp 112;
A second support part 124 rotatably installed on the second sliding part 120 to support an object;
A third sliding portion 126 slidably positioned on the outer surface of the second gripper 112 at a predetermined distance from the second sliding portion 120;
A third fixing part 128 for fixing the third sliding part 126 to the outer surface of the second tongue 112;
A third support part 130 rotatably installed on the third sliding part 126 to support an object;
A first binding part 132 provided on one side of the outer surface of the grip part 102;
A second binding portion 134 positioned at a predetermined distance from the first binding portion 132;
A flexible bellows portion 136 provided between the first binding portion 132 and the second binding portion 134;
The first tongue 110 and the second tongue 112 are provided inside the soft bellows portion 136 to stretch from the first tongue 110 and the second tongue 112 to the collimator, Cable 138,
The first support part 118, the second support part 124 and the third support part 130 have a certain curvature area in the form of a pad,
The cable (138)
The nonferrous or soft wire having ductility may be inserted into a line or a plurality of line bundles or may be inserted into a bundle of twisted or twisted wires in a different way to adjust the direction of the object freely to maintain a certain distance, And the weight is supported without deflection.
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