KR101416082B1 - pipe assembly for ceiling type X-ray imaging device - Google Patents

Abstract

The pipe assembly for a ceiling radiographic apparatus according to the present invention comprises: an outer pipe having an LM rail on an inner peripheral surface thereof; An inner pipe having an LM block on an outer circumferential surface thereof and disposed at an inner center of the outer pipe; And a plurality of central pipes each having an LM rail on an inner circumferential surface thereof and an LM block on an outer circumferential surface thereof and concentrically arranged in a space between the outer pipe and the inner pipe, , The middle pipe and the inner pipe are connected to each other by a combination of the LM rail and the LM block.

Description

Pipe assembly for ceiling type X-ray imaging device

The present invention relates to a pipe assembly for a ceiling radiographic apparatus, and more particularly, to a pipe assembly for a ceiling radiographic apparatus capable of moving each pipe using an LM guide.

Generally, an X-ray imaging apparatus is an apparatus for examining whether or not a bone fracture or an organ is abnormal by irradiating an X-ray to a predetermined part of a patient's body. Normally, an X-ray generator and an imaging plate are provided, And the X-ray is irradiated while the body part to be examined is positioned, and the X-ray image is obtained through the imaging plate.

1 is a block diagram showing a conventional X-ray photographing apparatus.

For example, as shown in FIG. 1, the X-ray imaging apparatus disclosed in Korean Patent Application No. 10-2005-0058184 can photograph various parts of the body with a single X-ray photographing apparatus, According to the information, the X-ray generator and the photographing plate are automatically moved to the set position, so that the X-ray can be taken more quickly.

Meanwhile, a ceiling-type x-ray photographing apparatus is provided with a pipe assembly for moving and fixing a tube, which is an x-ray generator, and can be formed by an operation such as an aluminum extrusion bar shape and a pipe- have.

Conventional pipe assemblies are mostly equipped with ball bearings in order to reduce the friction inside, and due to their structural characteristics, there is a drawback that the interval between the pipe ends must be increased. As the external appearance and weight of the pipe assembly become larger There has been a problem that the load of the motor for controlling the load increases.

In addition, in the conventional pipe assembly, since wires are connected to only the lowermost pipe, an impact is generated on the connection portion when each pipe end is deployed, and the total load is concentrated on the wire, There was a problem that a dangerous situation might occur to a patient at the time.

The present invention has been made to solve the above problems, and it is an object of the present invention to reduce the size of the pipe assembly by moving each pipe of the pipe assembly using the LM guide, It is an object of the present invention to provide a pipe assembly for a ceiling type X-ray radiographing apparatus capable of increasing the safety while mitigating impacts during deployment.

According to an aspect of the present invention, there is provided a pipe assembly for a ceiling-mounted radiographic apparatus including: an outer pipe having an LM rail on an inner circumferential surface thereof; An inner pipe having an LM block on an outer circumferential surface thereof and disposed at an inner center of the outer pipe; And a plurality of central pipes each having an LM rail on an inner circumferential surface thereof and an LM block on an outer circumferential surface thereof and concentrically arranged in a space between the outer pipe and the inner pipe, , The middle pipe and the inner pipe are connected to each other by a combination of the LM rail and the LM block.

Also, the outer pipe and the middle pipe each have at least one tap hole formed at both ends thereof.

In addition, the LM rails are formed as a pair, and the outer pipe and the middle pipe each have the LM rails separated from each other by 180 degrees.

In addition, the LM block is formed of a plurality of pairs, and the inner pipe and the middle pipe each have a specific pair of LM blocks separated from each other by 180 degrees.

The center pipe may include the LM rail and the LM block separated from each other by 90 degrees.

The inner pipe and the middle pipe are slidably moved along an LM rail provided on an inner circumferential surface of the other pipe.

Further, the present invention may be configured such that the outer pipe is connected to the bottom surface of the base plate; A plurality of wires respectively connected to the middle pipe and the inner pipe; And a wire drum disposed on the base plate and winding the wire, respectively, wherein the wire drum is formed by integrally connecting a plurality of drums having a smaller diameter from the center to both sides.

In the wire drum, a drum for winding a wire connected to the inner pipe is disposed at the center, and a plurality of drums for winding wires connected to the center pipe are sequentially disposed on both sides.

The present invention also relates to a driving motor, A wire drum shaft connecting the driving motor and the wire drum to transmit rotational power generated in the driving motor to the wire drum; And a pair of support plates vertically installed on the base plate and supporting the wire drums.

In addition, the present invention is characterized by further comprising a support roller provided on the base plate and supporting the wire.

As described above, in the pipe assembly for a ceiling radiographic apparatus according to the present invention, the pipe assembly can be miniaturized by moving each pipe using the LM guide, the weight of each pipe end can be reduced to reduce the total weight, There is an effect that the load of the motor for controlling the pipe end can be reduced.

In addition, according to the present invention, the wire is doubly connected to each pipe end of the pipe assembly, thereby improving the safety while relieving the impact when the pipes are deployed.

1 is a block diagram showing a conventional X-ray photographing apparatus.
2 is a perspective view of a pipe assembly according to the present invention.
3 is an internal structural view of a pipe assembly according to the present invention.
4 is an operational view of a pipe assembly according to the present invention.
FIG. 5 is a view showing an LM block according to the present invention moving along an LM rail.
6 is a view showing a plurality of wires connected to a pipe assembly according to the present invention.
Fig. 7 is a view showing a wire drum for winding a plurality of wires shown in Fig. 6; Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings denote the same reference numerals whenever possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the subject matter of the present invention.

FIG. 2 is a perspective view of a pipe assembly according to the present invention, and FIG. 3 is an internal structural view of a pipe assembly according to the present invention.

The pipe assembly for a ceiling radiographic apparatus according to the present invention includes an outer pipe 100, an inner pipe 300, and a plurality of central pipes 200, as shown in FIGS.

The outer pipe 100 may include an LM rail 410 disposed on an inner circumferential surface of the outer pipe 100. The LM rail 410 has a pair of outer circumferential surfaces, As shown in FIG.

At least one tap hole 500 may be formed at both ends of the outer pipe 100. The outer pipe 100 may be formed on the bottom surface of a base plate And the outer pipe 100 can be used for other purposes by connecting a stand outer surface or a table leg to the tab hole formed at the other end.

The inner pipe 300 may include an LM block 410 on the outer circumferential surface thereof and may be disposed at an inner center of the outer pipe 100. The LM block 410 includes a plurality of pairs, The LM blocks of the inner pipe 300 may be spaced apart from each other by 180 degrees from the outer circumferential surface of the inner pipe 300.

Although not shown, the inner pipe 300 may be equipped with a tube (not shown) for generating x-rays.

The center pipe 200 may include an LM rail 410 on an inner circumferential surface thereof and an LM block 420 on an outer circumferential surface thereof to be disposed in a space between the outer pipe 100 and the inner pipe 300 Each of the central pipes 200 may be formed concentrically in the space between the outer pipe 100 and the inner pipe 300 by having different radii.

Each of the middle pipes 200 has at least one tap hole 500 formed at both ends thereof in the same manner as the outer pipe 100 so that the outer appearance of the stand or the legs of the table can be connected to the tap hole .

The center pipe 200 may include a pair of LM rails and a plurality of pairs of LM blocks, wherein the LM rails are spaced 180 degrees apart from each other on the inner circumferential surface of the center pipe 200 And a specific pair of LM blocks may be provided at a position spaced from the outer circumferential surface of the center pipe 180 by 180 degrees from each other.

Meanwhile, the LM rail 410 and the LM block 420 provided in the specific central pipe 200 may be spaced apart from each other by 90 degrees, and the LM rail and the LM block provided in the central pipe may be connected to the other central pipe Each of the central pipes 200 can be connected by coupling with the LM block and the LM rail.

2, the central pipe 200 includes a first central pipe 210, a second central pipe 220, and a third central pipe 230, The first central pipe 210 and the second central pipe 220 are coupled by the LM rail provided in the first central pipe 210 and the second central pipe 220, And the LM rail of the second central pipe 220 and the LM block of the third central pipe 230 are coupled to each other to connect the second central pipe 220 and the third central pipe 230 Can be connected.

The outer pipe 100 and the inner pipe 300 may be connected to each other by a combination of the middle pipe 200 and the LM rail 410 and the LM block 420. The outer pipe 100 and the first central pipe 210 can be connected by the coupling of the LM rail 410 and the LM block 420 provided in the first central pipe 210, The inner pipe 300 and the third middle pipe 230 can be connected by the coupling of the LM block 420 provided in the third central pipe 230 and the LM rail 410 provided in the third central pipe 230.

FIG. 4 is an operational view of a pipe assembly according to the present invention, and FIG. 5 is an exemplary view showing how an LM block according to the present invention moves along an LM rail.

4, the inner pipe 300 and the middle pipe 200 are moved to the outside of the outer pipe 100 and are connected to a tube (not shown) installed in the inner pipe 300 As shown in FIG. 5, the LM block 420 provided on the outer circumferential surface of the pipe may be provided on the inner circumferential surface of the other pipe. The inner pipe 300 and the middle pipe 200 can be moved in a stepwise manner by sliding along the LM rail 410.

FIG. 6 is a view showing a plurality of wires connected to a pipe assembly according to the present invention, and FIG. 7 is a view showing a wire drum for winding a plurality of wires shown in FIG.

6 and 7, a pipe assembly for a ceiling radiographic apparatus according to the present invention includes a base plate 910, a plurality of wires 600, a wire drum 700, a driving motor 800, A wire drum shaft 750, a pair of support plates 920, and a support roller 900.

The outer pipe 100 may be connected to the bottom surface of the base plate 910. Specifically, a fixing member passing through the base plate 910 is inserted into the tap hole formed in the outer pipe 100, The plate 910 and the outer pipe 100 may be connected.

The wire 600 may be connected to the center pipe 200 and the inner pipe 300. The wire 600 may be formed of a pair of double wires so that the center pipe 200 and the inner pipe 300 are connected to each other. And the pipe 300, respectively.

3, the central pipe 200 includes a first central pipe 210, a second central pipe 220, and a third central pipe 230, A wire connected to the third central pipe 230 is connected to the second central pipe 220 and the first central pipe 230 so as to move each middle pipe in a stepwise manner, A wire connected to the second central pipe 230 may be formed longer than a wire connected to the first central pipe 210. In addition,

Meanwhile, the wire connected to the inner pipe 300 is longer than each wire connected to the middle pipe 200, so that the inner pipe can be moved to the lowermost position of the base plate 910.

The wire drum 700 may be positioned on the base plate 910 to wind the wires 600. The wire drum 700 may include a plurality of drums having a smaller diameter from the center to both sides, So that the respective pipe movement distances can be adjusted.

Specifically, the wire drum 700 includes a drum disposed at the center thereof for winding a wire connected to the inner pipe 300, and a plurality of drums for winding wires connected to the central pipe 200, .

That is, the wire drum 700 includes, for example, a first drum 710 having a maximum diameter at its center, a second drum 720 having a smaller diameter at both sides of the first drum 710, The third drum 730 and the fourth drum 740 are sequentially disposed so that the first drum 710 can wind the wire connected to the inner pipe 300 and the second drum 720, The third drum 730 and the fourth drum 740 may wind the wire connected to the third central pipe 230, the second central pipe 220 and the first central pipe 210, respectively.

The wire drum shaft 750 connects the driving motor 800 and the wire drum 700 to transmit the rotational power generated by the driving motor 800 to the wire drum 700, 920 may be installed vertically on the base plate 910 to support the wire drum 700 and the support roller 900 may be installed on the base plate 910 to support the wire 600 Can support.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Various modifications may be made by those skilled in the art.

100: outer pipe 200: central pipe
210: first central pipe 220: second central pipe
230: third center pipe 300: inner pipe
410: LM rail 420: LM block
500: Tap hole 600: Wire
700: wire drum 710: first drum
720: second drum 730: third drum
740: fourth drum 750: wire drum shaft
800: drive motor 900: support roller
910: Base plate 920: Support plate

Claims (10)

An outer pipe having an LM rail on an inner peripheral surface thereof;
An inner pipe having an LM block on an outer circumferential surface thereof and disposed at an inner center of the outer pipe;
A plurality of central pipes each having an LM rail on an inner circumferential surface thereof, an LM block on an outer circumferential surface thereof, concentrically arranged in a space between the outer pipe and the inner pipe,
A base plate having the outer pipe connected to a bottom surface thereof;
A plurality of wires respectively connected to the middle pipe and the inner pipe;
A wire drum positioned on the base plate and winding the wires, respectively;
A wire drum shaft connecting the driving motor and the wire drum to transmit the rotational power generated by the driving motor to the wire drum;
A pair of support plates vertically installed on the base plate to support the wire drums; And
And a support roller installed on the base plate and supporting the wire,
The outer pipe, the middle pipe, and the inner pipe are connected to each other by the coupling of the LM rail and the LM block, and the LM block having the inner pipe and the middle pipe on the outer circumferential surface slide along the LM rail having the inner peripheral surface of the other pipe. Moved and moved,
Wherein the wire is formed of a pair of double wires and connected to the center pipe and the inner pipe, respectively,
The drum is formed by integrally connecting a plurality of drums having a smaller diameter from the center to both sides thereof. A drum for winding a wire connected to the inner pipe is disposed at the center, and a wire connected to the central pipe is wound And a plurality of drums are sequentially disposed on both sides of the pipe assembly.
The method according to claim 1,
Wherein the outer pipe and the middle pipe each have at least one tap hole at both ends thereof.
The method according to claim 1,
The LM rails are formed as a pair,
Wherein the outer pipe and the middle pipe each have the LM rails spaced from each other by 180 degrees.
The method according to claim 1,
Wherein the LM block comprises a plurality of pairs,
Wherein the inner pipe and the middle pipe each have a specific pair of LM blocks separated from each other by 180 degrees.
The method according to claim 1,
And the central pipe is provided with the LM rail and the LM block spaced apart from each other by 90 degrees.
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