JP2004113326A - Movable type x-ray apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a movable type X-ray apparatus of excellent design for which the number of components is reduced, manufacture time is shortened, weight is reduced and an appearance is improved. <P>SOLUTION: In this movable type X-ray apparatus provided with an X-ray part for irradiating an object with X-rays, an arm part for supporting the X-ray part and an elevating / lowering mechanism for elevating and lowering the arm part, a cylindrical member used for constituting the movable type X-ray apparatus is constituted of an extrusion molded member. By using the extrusion molded member for the cylindrical member constituting the movable type X-ray apparatus, troublesome work such as welding work is eliminated and thus a dimension is stabilized. Further, manufacture is facilitated without the increase of the number of the components. Also, since the cylindrical member is molded by extrusion molding, the degree of freedom of the design of the appearance is increased and the design without an oppressive feeling to a patient can be attained as well. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a mobile X-ray apparatus including an X-ray unit that irradiates an X-ray to a subject, an arm unit that supports the X-ray unit, and an elevating mechanism that moves the arm unit up and down. In particular, the present invention relates to a mobile X-ray apparatus capable of reducing the number of parts for forming a case for accommodating an X-ray tube in an X-ray part, a support of an elevating mechanism, etc., and reducing the manufacturing cost and size of the entire apparatus. It is.
[0002]
[Prior art]
In general, a mobile X-ray apparatus includes an X-ray unit that irradiates an object with X-rays, an arm unit that supports the X-ray unit, and an elevating mechanism that raises and lowers the arm unit (see, for example, Patent Document 1, See Patent Documents 2 and 3.)
[0003]
A conventional mobile X-ray apparatus A will be described with reference to FIG. The mobile X-ray apparatus A includes an X-ray part B that irradiates the subject with X-rays, an arm part C that supports the X-ray part B, and a lifting mechanism D that raises and lowers the arm part C together with the X-ray part B. Equipped. Further, the column E of the lifting mechanism D is supported by the cart F.
[0004]
The X-ray part B includes an X-ray tube storage case B1 for storing the X-ray tube. The arm portion C has a configuration that supports the X-ray portion B and can be extended and contracted in the horizontal direction. In FIG. 8, the arm portion C includes two cylindrical arm members C1 and C2 having different cylinder sizes, and a slider portion C3 in which the cylindrical arm members C1 and C2 are stored.
[0005]
The arm portion C can be expanded and contracted in the horizontal direction by sliding the cylindrical arm members C1 and C2 in the horizontal direction. Further, an X-ray tube storage case B1 of the X-ray part B is supported at one end of a cylindrical arm member C1 having a small cylinder size, and one end of a slider part C3 is supported by a support E of a lifting mechanism D so as to be able to move up and down. Is done.
[0006]
The elevating mechanism D includes a column E rotatably supported by the cart F, and a pulley D1 and a weight D2 provided inside the column E. In addition, the strut E has a rail D3 extending in the axial direction. The slider portion C3 moves up and down along the rail D3.
[0007]
In the conventional mobile X-ray apparatus A, while moving the X-ray portion B up and down along the rail D3 of the support E via the arm C, the X-ray portion B is expanded and contracted by the arm C and rotated by the support E. Is moved in the horizontal direction to move the X-ray portion to a predetermined position. Then, X-ray irradiation is performed from the X-ray portion B to the subject.
[0008]
[Patent Document 1]
Japanese Utility Model Publication No. 47-17013 (FIG. 1)
[0009]
[Patent Document 2]
JP-A-10-99312 (paragraphs 0010 to 0018, FIG. 1)
[0010]
[Patent Document 3]
JP-A-2000-41976 (FIGS. 1 and 2)
[0011]
[Problems to be solved by the invention]
However, the above conventional technique has the following problems.
(1) In the X-ray part B, the X-ray tube storage case B1 is formed of a can-made product or a casting in order to store the X-ray tube in the X-ray tube storage case B1. If the X-ray tube storage case B1 is left as a can-made product or a cast product, the appearance deteriorates. Therefore, conventionally, the case of the can-made product or the cast product is covered with a resin cover.
[0012]
As described above, in the X-ray portion B, since the X-ray tube storage case B1 is formed of a can-made product or a casting and the case of the can-made product or the casting is covered with the resin cover, the number of parts increases. However, there is a problem that the manufacturing cost is increased.
[0013]
Incidentally, not only the X-ray tube but also oil is filled in the case for cooling and insulation, so that the case needs to have an oil-tight structure. However, when the case is a can-manufactured product, oil-tightness cannot be obtained if there are many joints such as welding and poor joining has occurred, and if there is a casting defect when the case is a casting. Problems such as inability to obtain oil tightness occur.
[0014]
Further, there is also a problem that an operation of covering the case of a can-made product or a casting with a resin cover is required, and the operation is complicated. In addition, since the can-made product or the case of the casting is covered with the resin cover, there is also a problem that the X-ray portion B becomes large.
[0015]
(2) As shown in FIG. 8, the column E of the elevating mechanism D is provided with a tubular member E1 for disposing the pulley D1 and the weight D2 therein, and a rail D3 for vertically moving the slider C3. And a rail member E2 made of a can or a casting. The rail member E2 is formed separately from the cylindrical member E1, and the rail member E2 is fixed to the cylindrical member E1 by welding.
[0016]
In the elevating mechanism D, since the rail member E2 is fixed to the tubular member E1 by welding in order to form the column E, the rail member E2 may be distorted by welding. If the rail member E2 is distorted, the slider portion C3 may not be able to move up and down smoothly.
[0017]
In addition, since the tubular member E1 and the rail member E2 are separately formed and the work of welding them is performed, the number of parts increases, and the assembling work becomes complicated. Further, since the rail member E2 is fixed to the tubular member E1, the appearance is poor and the design is restricted.
[0018]
(3) Also in the arm portion C, among the two tubular arm members C1 and C2, the tubular arm members C1 and C2 on the slider portion C3 side are formed in a continuous cylindrical shape to maintain strength. Is preferred. However, it is necessary to form a rail portion inside the cylindrical arm member C2 in order to smoothly slide the cylindrical arm member C1.
[0019]
Therefore, in order to form a rail, the conventional cylindrical arm member C2 is configured by joining two long objects having a bottom surface and two side surfaces each of which is obtained by vertically dividing a cylinder in half. Then, before joining the long objects, the rail portion is formed by welding a rod-shaped member to the inner surface of the long object. The opening of the long object on which the rail is formed is opposed to form a tubular shape, and the opposed portion is welded and connected to form a continuous tubular shape.
[0020]
As described above, the conventional arm portion C has not only an extremely large number of parts but also a large number of welded portions, and thus a large amount of distortion and a large number of assembly steps. There is a problem.
[0021]
Therefore, an object of the present invention is to provide a mobile X-ray apparatus which can reduce the number of parts, shorten the manufacturing time, reduce the weight, and have good design and excellent design.
[0022]
[Means for Solving the Problems]
The present invention relates to a mobile X-ray apparatus comprising: an X-ray part for irradiating a subject with X-rays; an arm part for supporting the X-ray part; and an elevating mechanism for raising and lowering the arm part. The present invention provides a mobile X-ray apparatus in which a cylindrical member used to constitute the above is constituted by an extruded member.
[0023]
The extruded member is preferably formed of a lightweight and extrudable material such as aluminum or an aluminum alloy.
By using an extruded member as the cylindrical member constituting the movable X-ray apparatus, complicated operations such as welding can be eliminated, and furthermore, the production can be easily performed without increasing the number of parts.
[0024]
In addition, since the tubular member is formed by extrusion, the degree of freedom in the design of the external appearance is increased while each function is sufficiently exhibited. The expansion of the degree of freedom in design also makes it possible to provide a design that does not have a feeling of oppression to the patient, for example, by making the overall design round and giving an appearance that is easy on the eyes.
[0025]
Furthermore, since the X-ray unit includes an X-ray tube to which the X-ray is irradiated, an X-ray tube storage case for storing the X-ray tube is required. In the present invention, it is preferable to use a cylindrical member formed by extrusion in this case.
[0026]
As described above, by using the cylindrical member formed by extrusion molding in the case, it is possible to eliminate a joint portion by welding or the like in the circumferential direction of the case, and since the case is not a casting, no casting defect occurs. . As a result, even when the case is filled not only with the X-ray tube but also with oil for cooling and insulation, an oil-tight structure can be easily obtained, and oil leakage at the joint can be extremely reduced.
[0027]
Furthermore, when the case of the X-ray portion is formed of aluminum having good thermal conductivity by extrusion molding, the X-ray tube can be cooled well due to the heat radiation effect from the case surface. Furthermore, extrusion molding may be performed so that the case surface has corrugated irregularities, or fins may be integrally formed on the case surface. By forming irregularities such as fins on the case surface in this way, the surface area of the case can be increased, and the heat radiation effect of the case can be further improved.
[0028]
By using an extruded cylindrical member for the X-ray tube storage case, it is not necessary to cover with a resin cover as in the conventional case, and the appearance can be improved. Further, since the resin cover is not required, the weight in the X-ray portion can be reduced accordingly.
[0029]
In the case where the X-ray part can be moved up and down by the elevating mechanism via the arm part, the X-ray part is supported at one end of the arm part, and the other end of the arm part is supported by the elevating mechanism.
[0030]
In order to raise and lower the arm with the lifting mechanism, the lifting mechanism requires a rail for sliding the arm in the vertical direction, and this rail is provided on the support. Further, the column has a cylindrical shape for storing components such as a pulley for raising and lowering the arm portion, a wire, and an elastic member for balance.
[0031]
In the present invention, the column is constituted by a cylindrical extruded member. The column to be extruded is extruded so as to integrally include the rail portion.
As described above, since the pillar is extruded and the rail is integrally formed at the time of the extrusion, it is not necessary to separately form the pillar body and the rail member and connect the rail member to the pillar body by welding as in the related art. In addition, it is possible to stabilize the dimensions of the columns, reduce the number of parts, and reduce the number of work steps.
[0032]
Further, since the arm portion supports the X-ray portion at a position separated from the support by a predetermined distance, if the arm portion is configured to be slidable in the horizontal direction, it is sufficient that the X-ray portion is located farthest from the support. Support strength is required for the arm portion.
[0033]
Therefore, it is preferable that the arm portion is formed of a cylindrical member having no discontinuity in the axial direction. Further, when the arm portion is slidable, the arm portion includes a plurality of slidable cylindrical members. It is preferable that In the case where the arm portion has a configuration including a plurality of cylindrical members, it is preferable that at least one of the cylindrical members of the arm portion is formed of an extruded member.
[0034]
When the cylindrical member of the arm portion is formed by an extruded member, the slide rail can be integrally formed on the inner surface of the cylindrical portion, so that the dimensions can be stabilized, the number of parts can be reduced, and the number of work steps can be reduced.
[0035]
It should be noted that the mobile X-ray apparatus includes a telescopic arm type having the above-described arm portion and a pantograph arm type. The present invention can be applied not only to the telescopic arm type but also to a tubular member used for a pantograph arm type.
[0036]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described.
As shown in FIG. 1, a mobile X-ray apparatus 1 according to the present invention includes an X-ray unit 3 for irradiating a subject with X-rays on a carriage 2, an arm unit 4 supporting the X-ray unit 3, and an arm unit. An elevating mechanism 5 for elevating and lowering the X-ray unit 3 through the unit 4 and a main body 6 are provided.
[0037]
The carriage 2 includes a front wheel 21 and a rear wheel 22, and a column 7 constituting the lifting mechanism 5 is provided in front of the carriage 2, and the main body 6 is mounted behind the carriage 2.
The column 7 is supported rotatably about the vertical axis in front of the bogie 2. The support 7 includes a cylindrical storage portion 71 and a rail portion 72. A slider portion 44 (shown in FIG. 4) of the arm portion 4 described later is supported on the rail portion 72 of the support column 7 so as to be able to move up and down. The arm part 4 is capable of extending and contracting in the horizontal direction. The X-ray part 3 is attached to the tip of the arm part 4.
[0038]
The X-ray unit 3 includes an X-ray generation unit 31 and an aperture unit 32. The X-ray radiated by the X-ray generation unit 31 is configured such that the X-ray irradiation range is set by the aperture unit 32 and irradiates the patient with X-rays.
Although not shown, the main unit 6 includes an operation panel and a control device for setting the X-ray irradiation conditions of the X-ray unit 3 and performing the X-ray irradiation.
[0039]
In addition, components such as pulleys, wires, and springs serving as balance elastic members are accommodated in the column 7 of the elevating mechanism 5 to move the arm 4 up and down while supporting the weight of the arm 4. I have.
[0040]
In order to perform X-ray imaging using the mobile X-ray apparatus 1, the X-ray unit 3 is moved by extending and retracting the arm unit 4 and rotating the column 7 while moving the arm unit 4 up and down along the column 7. The X-ray unit 3 is moved in a horizontal direction to a predetermined position with respect to the patient. Then, after setting the X-ray irradiation conditions in the main body section 6, the X-ray section 3 performs X-ray irradiation on the patient.
[0041]
(Configuration of X-ray generation unit of X-ray unit)
In the above configuration, the X-ray generation unit 31 of the X-ray unit 3 will be specifically described. The X-ray generation unit 31 includes an X-ray tube storage case 8 in which an X-ray tube that irradiates the subject with X-rays is stored.
[0042]
As shown in FIG. 2, the X-ray tube storage case 8 includes a tube portion 81 and a cover portion 82 that covers both side openings of the tube portion 81, and the cover portion 82 is fixed to the tube portion 81 by screwing. It has become. In FIG. 2, screws are omitted.
In the present embodiment, the X-ray tube storage case 8 is formed of an aluminum alloy, and the cylindrical portion 81 of the X-ray tube storage case 8 is formed by extrusion. As shown in FIGS. 2 and 3, the body 81 is integrally formed with a body 81a and a screw hole 81b into which a screw is fitted by extrusion.
[0043]
Since the X-ray tube storage case 8 is formed of an aluminum alloy, the weight of the entire case can be reduced. Further, since the cylindrical portion 81 is formed by extrusion, it can be formed into a desired design. Therefore, after extruding into a desired shape, the outer surface of the case is painted with a desired color scheme, thereby increasing the degree of freedom in design.
[0044]
(Structure of arm)
Next, the arm unit 4 will be specifically described. The arm portion 4 includes a first arm 41, a second arm 42, and a third arm 43 made of a tubular member, as shown in FIGS. The cylindrical first arm 41 supports the X-ray portion 3 at one end in the axial direction. The second arm 42 is configured so that the first arm 41 can be slidably housed inside the cylinder.
[0045]
The third arm 43 is configured such that the second arm 42 can be slidably housed inside the cylinder, and a slider portion 44 and a handle portion 45 are fixed below the third arm 43. The third arm 43, the slider portion 44, and the handle portion 45 are covered with a resin cover 46 as shown in FIG.
[0046]
In the present embodiment, the second arm 42 is accommodated in the third arm 43, and the first arm 41 is accommodated in the second arm 42, and from the third arm 43 to the second arm 42 and the first arm 41. The length of the arm portion 4 can be adjusted in the horizontal direction by pulling out or storing.
[0047]
The outer surface of the first arm 41 is provided with a first roller 41a that rotates in contact with a first slide rail 42a provided in the second arm 42. On the outer surface of the second arm 42, there is provided a second roller 42b which rotates in contact with a second slide rail 43a provided in the third arm 43.
[0048]
In the present embodiment, as shown in FIG. 5, only the second arm 42 of the arm portion 4 is formed into a continuous tubular shape by extrusion. The second arm 42 is made of an aluminum alloy, and a second slide rail 43a is integrally formed inside the cylinder by extrusion molding.
[0049]
A plurality of roller mounting holes 42c for mounting the second roller 42b and holes for mounting other components are formed in the extruded second arm 42 after the molding.
[0050]
Since the second arm 42 is configured to slide inside the third arm 43, the outer surface of the second arm 42 cannot be covered with the resin cover, and when the second arm 42 is pulled out from the third arm 43, The part is directly exposed to the outside. However, in the present embodiment, since the second arm 42 can be formed into a cylindrical shape without a break by extrusion, the appearance can be improved. In addition, since welding work is not required, the number of work steps for assembling the arm 4 can be reduced.
[0051]
As shown in FIG. 4, the slider portion 44 fixed to the third arm 43 has a plurality of rollers 44a on a surface facing the support column 7. These rollers 44 a are fitted into fitting grooves 72 a forming the rail portions 72 of the support columns 7, and the slider portion 44 runs along the rail portions 72 of the support columns 7.
[0052]
(Structure of column of lifting mechanism)
Next, the support 7 of the lifting mechanism 5 according to the present embodiment will be specifically described. As shown in FIGS. 1 and 6, the elevating mechanism 5 includes a column 7 in which various components for moving the slider portion 44 fixed to the third arm 43 up and down are stored.
[0053]
As shown in FIGS. 6 and 7, the support column 7 includes a tubular storage section 71 having a rectangular cross section in which each component is stored, and a rail section 72 formed integrally with the tubular storage section 71 continuously. I have it. The rail portion 72 is formed by a fitting groove 72a into which the roller 44a of the slider portion 44 is fitted. By moving the slider portion 44 up and down along the rail portion 72, the arm portion 4 moves up and down via the slider portion 44.
[0054]
In the present embodiment, the column 7 in which the cylindrical storage portion 71 and the rail portion 72 are integrally formed by extrusion molding is formed. In the present embodiment, the columns 7 are also formed of an aluminum alloy.
[0055]
The pillar 7 is formed by extruding a cylindrical storage section 71 having a rectangular cross section, and two fittings extending in one direction from the side surface of the cylindrical storage section 71 and having one end bent inward. It is extruded into a cylindrical shape so as to have a mating groove 72a. A plurality of recesses 73 extending in the axial direction are formed on the side surface of the cylindrical storage portion 71 by extrusion. These recesses 73 form the pattern of the pillar 7.
[0056]
In addition, as shown in FIG. 6, an inspection window 74 for adjusting and inspecting each component inside the column 7 is provided on the upper portion of the column 7. The inspection window 74 is formed by cutting after extrusion molding.
[0057]
Further, an opening 75 for guiding the first wire 51 connected to the slider portion 44 into the cylindrical portion 81 is formed at an upper portion of the support column 7. The opening 75 is also formed by cutting after extrusion molding. A support plate 76 attached to the carriage 2 is fixed to the bottom of the column 7 by welding.
[0058]
As described above, since the column 7 in the present embodiment is formed by extrusion molding, the rail portion 72 for running the slider portion 44 of the arm portion 4 can be integrally formed with the cylindrical storage portion 71, as in the conventional case. Welding work can be eliminated. As a result, the number of working steps can be reduced, the members are not distorted by welding, and the appearance can be improved.
[0059]
【The invention's effect】
As described above, according to the mobile X-ray apparatus of the present invention, the following excellent effects can be obtained.
[0060]
(1) Since the cylindrical member used for forming the movable X-ray apparatus is formed of an extruded member, it is not necessary to perform a welding operation, so that the dimensions can be stabilized, the number of parts can be reduced, and the manufacturing time can be reduced. Can be shortened. Further, it is possible to provide a mobile X-ray apparatus with good appearance and excellent design.
[0061]
(2) When an extruded member is used for the X-ray tube storage case in the X-ray part, it is not necessary to separately cover the resin cover with a resin cover, and the size can be reduced. Further, the dimensions can be stabilized, the number of parts can be reduced, and the number of work steps can be reduced, so that the manufacturing cost can be reduced.
[0062]
(3) In the case where the elevating mechanism is provided with a rail portion and a column for supporting the arm portion movably in the vertical direction, and the column is formed by an extruded member extruded so as to integrally include the rail portion. Therefore, it is not necessary to separately form and weld a rail member for forming the rail portion.
As a result, the number of parts can be reduced, and the assembling work is also facilitated. In addition, the appearance of the entire column can be improved, and the degree of freedom of the column design can be increased. In addition, distortion of the rail portion does not occur, and the vertical movement of the X-ray portion can be performed smoothly.
[0063]
(4) When the arm portion has a plurality of slidable tubular members and at least one of the tubular members of the arm portion is formed by an extruded member, the arm portion can be formed without performing welding work a plurality of times. At the same time as forming the slide rail on the tubular member, a seamless tubular member can be formed.
As described above, also in the arm portion, the dimensions can be stabilized, the number of parts can be reduced, the number of work steps can be reduced, and the manufacturing cost can be reduced.
[Brief description of the drawings]
FIG. 1 is a side view of a mobile X-ray apparatus according to the present invention.
FIG. 2 is a partially exploded perspective view of an X-ray tube storage case in an X-ray part of the mobile X-ray apparatus of the present invention.
FIG. 3 is a cross-sectional view of a tube portion of the X-ray tube storage case shown in FIG.
FIG. 4 is a perspective view of an arm portion of the mobile X-ray apparatus according to the present invention.
5 is a perspective view of a second arm in the arm section shown in FIG.
FIG. 6 is a perspective view of a column in the lifting mechanism of the mobile X-ray apparatus according to the present invention.
FIG. 7 is a sectional view of the column shown in FIG. 6;
FIG. 8 is a perspective view of a conventional mobile X-ray apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Mobile X-ray apparatus 3 X-ray part 31 X-ray generation part 4 Arm part 41 First arm 42 Second arm 43 Third arm 44 Slider part 5 Elevating mechanism 7 Support column 71 Cylindrical storage part 72 Rail part 8 X-ray tube Storage case 81 tube

Claims (4)

A mobile X-ray apparatus comprising: an X-ray part for irradiating a subject with X-rays; an arm supporting the X-ray; and an elevating mechanism for raising and lowering the arm. A movable X-ray apparatus characterized in that a cylindrical member used for forming the member is formed by an extruded member. 2. The mobile X-ray apparatus according to claim 1, wherein an extruded member is used for an X-ray tube storage case in the X-ray part. 2. The lifting mechanism according to claim 1, further comprising a column having a rail for movably supporting the arm in the vertical direction, wherein the column is formed by an extruded member extruded to integrally form the rail. 3. The mobile X-ray apparatus according to claim 1. 2. The mobile X-ray apparatus according to claim 1, wherein the arm portion includes a plurality of slidable tubular members, and at least one of the tubular members of the arm portion is formed by an extruded member.

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