Mobile X-ray image capturing apparatus

A mobile X-ray capturing apparatus includes an X-ray tube for irradiating an object with X ray, an arm for holding the X-ray tube, and a support pillar for holding the arm so as to facilitate arrangement of units. Further, the mobile X-ray capturing apparatus includes an arm energizing unit provided with an electrode incorporated in the arm for supplying power or a signal necessary for the X-ray tube, and a support pillar energizing unit provided with an electrode incorporated in the support pillar for supplying the power or the signal to the arm.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a mobile X-ray image capturing apparatus capable of moving on a floor surface in a hospital etc.

2. Description of the Related Art

A conventional mobile X-ray image capturing apparatus having a mobile function is formed with a control device mobile cart for controlling a length of an arm and a support pillar supporting the mobile X-ray capturing apparatus, and incorporates a high voltage power source device for supplying power to the X-ray capturing apparatus in the cart.

Further, the X-ray capturing apparatus incorporates a control device for controlling the length of the arm and the support pillar supporting the mobile X-ray capturing apparatus, a control device for controlling a mobile mechanism of the mobile cart, and a battery device for supplying the power to an entire mobile X-ray image capturing apparatus. An alternating high-voltage cable is provided between the high-voltage power source device in the mobile cart and an X-ray tube.

At a lower portion of the mobile cart, wheels for moving the X-ray capturing apparatus and casters capable of changing an apparatus direction are provided. At an upper portion of the mobile cart, a support pillar is vertically disposed, and one side of the arm is held by the support pillar with a fixing tool. Furthermore, the arm is provided with the X-ray tube for generating X ray.

The mobile cart is equipped with the casters and driving wheels to move the mobile cart. An operator holds a grasp portion to move the mobile cart. Japanese Patent Application Laid-Open No. 2010-94162 discusses the mobile X-ray image capturing apparatus according to the conventional technique.

When X-ray capturing is performed in a general hospital room, the mobile X-ray image capturing apparatus is typically used. Japanese Patent Application Laid-Open No. 2010-94162 discusses the mobile X-ray image capturing apparatus including a conventional X-ray tube (not illustrated), which is provided with the alternating high-voltage cable and a control cable between the high-voltage power source device and the X-ray tube.

To reduce drop of the voltage in the high-voltage cable appearing from the high-voltage power source device to the X-ray tube, an area of a conductive member needs to be increased to lower resistance. Under such a situation, the high-voltage cable having the increased area of the conductive member may disturb arrangement of each portion of the apparatus.

SUMMARY OF THE INVENTION

The present invention is directed to facilitate arrangement of each portion in a mobile X-ray image capturing apparatus.

A mobile X-ray capturing apparatus includes an X-ray tube for irradiating a object with X ray, an arm for holding the X-ray tube, and a support pillar for holding the arm. Further, the mobile X-ray capturing apparatus includes an arm energizing unit provided with an electrode incorporated in the arm for supplying power or a signal necessary for the X-ray tube, and a support pillar energizing unit provided with an electrode incorporated in the support pillar for supplying the power or the signal to the arm.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Various exemplary embodiments, features, and aspects of the invention will be described in detail below with reference to the drawings. It should be noted that the relative arrangement of the components, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless it is specifically stated otherwise.

FIG. 1illustrates a mobile X-ray image capturing apparatus according to the present exemplary embodiment. The mobile X-ray image capturing apparatus is generally referred to as an X-ray visiting car, and mounted with a buttery for operating each constituent member inside. The battery is a main power source for operating each constituent member and should have a great capacity. As illustrated in a diagram, the mobile X-ray image capturing apparatus includes the X-ray tube for emitting the X ray, an arm for holding the X-ray tube, a support pillar for supporting the arm, and a main body apparatus.

The arm and the support pillar according to the exemplary embodiment are each formed of a plurality of steps that are connected with each other, thereby capable of being elongated, shortened, and rotated. Further, an X-ray sensor (not illustrated) detects the X ray transmitted through a object to perform an X-ray picture taking to capture the X-ray image.

The mobile X-ray image capturing apparatus includes a mobile cart energizing unit101for distributing necessary power from the battery to operate a driving wheel103for moving the mobile X-ray image capturing apparatus. A housing of the mobile cart energizing unit101is disposed with a front wheel102and the driving wheel103. The front wheel102and the driving wheel103support weight of the mobile X-ray image capturing apparatus and move it.

The mobile X-ray image capturing apparatus includes a support pillar energizing unit104that is disposed inside the support pillar of the mobile X-ray image capturing apparatus and energize the necessary power from the battery. The support pillar is rotatable and, even when the support pillar is rotated, the support pillar energizing unit104can be energized.

The mobile X-ray image capturing apparatus is disposed inside the arm of the mobile X-ray image capturing apparatus and includes the arm energizing unit105for energizing the necessary power from the battery. The arm can be elongated and shortened, and even when the arm is elongated or shortened, the arm energizing unit105can be energized.

The mobile X-ray image capturing apparatus includes an X-ray tube106for emitting the X ray. The X-ray tube106is held by the arm, and by elongating or shortening of the arm and rotating of the support pillar, it can be moved to an arbitrary position.

The mobile X-ray image capturing apparatus includes a display unit107for displaying an X-ray image acquired by taking the X-ray picture of an object with the mobile X-ray image capturing apparatus according to the present exemplary embodiment. The display unit107displays a control graphical user interface (GUI) for operating each constituent member of the mobile X-ray image capturing apparatus, in addition to the captured X-ray images.

The mobile X-ray image capturing apparatus includes an operation unit108for operating each constituent member of the mobile X-ray image capturing apparatus according to the present exemplary embodiment. The operation unit108includes an operation unit such as a general keyboard and mouse.

FIG. 2illustrates wiring connection of the power and the control signals of the mobile X-ray image capturing apparatus according to the present exemplary embodiment. The mobile X-ray image capturing apparatus includes a power-source line201for energizing the power and a control line202for transmitting/receiving the control signal.

The support pillar energizing unit104is connected to the power-source supply unit and the X-ray tube control unit. The power supplied from the power source supply unit such as a battery and an inverter is supplied to the X-ray tube via the support pillar energizing unit104and the arm energizing unit105. The control signal for controlling the X-ray tube is transmitted by the X-ray tube control unit to the X-ray tube via the support pillar energizing unit104and the arm energizing unit105.

FIG. 3illustrates an internal mechanism of the mobile cart energizing unit101and the support pillar energizing unit104.

The mobile cart energizing unit101supplies the power from the power-source supply unit via a cart internal cable301, and transmits the control signal from the X-ray tube control unit. The cart internal cable301is connected to a rotating electrode on the cart side.

The support pillar incorporates a support pillar internal electrode307for distributing the power or the control signal. In other words, the mobile X-ray capturing apparatus includes the X-ray tube106for irradiating the object with the X ray, the arm for holding the X-ray tube106, and the support pillar for holding the arm. Further, the mobile X-ray capturing apparatus includes the arm energizing unit105provided with an electrode incorporated in the arm for supplying power or the signal necessary for the X-ray tube, and the support pillar energizing unit104provided with an electrode incorporated in the support pillar for supplying the power or the signal to the arm.

FIG. 4illustrates a cross-sectional view of the mechanism of the rotating electrode on the cart side and a rotating electrode on the support pillar side. The rotating electrode on the cart side is provided with a rotation axis305for rotating the support pillar energizing unit with respect to the cart energizing unit. In a periphery of the rotation axis305, a rotating electrode304is provided, and is connected to the cart internal cable301.

The rotating electrode304includes the electrodes from CH1to CH N+1. The electrodes of the power-source line201and the control line202are allocated to the above electrodes. Since the rotating electrode is formed in a concentric circle, by increasing a length and width of a circumference, the area of the conductor can be increased to reduce the resistance thereof to be lower than that of the cable.

The rotating electrode on the cart side and the rotating electrode on the support pillar side having the same configuration are overlaid with each other. The rotating electrodes304can come into contact with each other by using, for example, an energizing electrode brush, and thus can be rotated. The rotating electrode304is connected to the support pillar internal electrode307via the support pillar relay cable306to energize it.

The support pillar internal electrode307is provided on an inner surface of the housing of the support pillar energizing unit104, and painted with material having good conductivity such as metal coating. CH1to CH N+1 of the support pillar internal electrodes307are each connected to the rotating electrode304at the cart side. By increasing the width and thickness of the conductor, the area thereof can be increased to reduce the resistance thereof to be lower than that of an external cable.

With this arrangement, while energizing the power-source line201and the control line202, the arm energizing unit105can be rotated with respect to the mobile cart energizing unit101.

FIG. 5illustrates an internal configuration of the support pillar energizing unit104. Inside the support pillar energizing unit104, a support pillar energizing element501having a first step to an N+1ststep is provided. The support pillar energizing element501and the support pillar internal electrode307are in contact with each other via the electrode such as the electrode brush and are energized.

The first step to the N+1ststep of the support pillar internal electrodes307are energized with each other, and thus can be moved in an arrow direction. With this arrangement, in the support pillar energizing unit104, while the power-source line201and the control line202are energized, the support pillar energizing element501can be operated vertically.

FIG. 6illustrates the connection portion between the support pillar energizing unit104and the arm energizing unit105, showing the electrodes for supplying the power and transmitting the control signal among the units. In the support pillar energizing unit104, the support pillar internal electrode307is provided with an arm energizing element601of the first step of the arm energizing unit105.

The arm energizing element601is in contact with each of CH1to CH N+1 of an arm internal electrode602via the electrode such as the electrode brush.FIG. 7is a side face view ofFIG. 6. While an arm internal electrode702and the support pillar internal electrode307are in contact with each other to be energized, the arm energizing unit105can be vertically moved. With this arrangement, while the power-source line201and the control line202are energized, the arm energizing unit105can be vertically operated with respect to the support pillar energizing unit104.

FIG. 8illustrates a configuration of the arm energizing unit105, which includes the arm energizing element701having the first step to the N+1ststep. Each arm energizing elements701include the arm internal electrode702. The arm energizing elements701are energized with the arm internal electrodes702that are in contact with each other, and energized via the electrode such as the electrode brush.

The arm internal electrode702is energized from the first step to the N+1ststep, and the arm energizing unit105can be moved in the arrow direction. With this arrangement, in the arm energizing unit105, while the power-source line201and the control line202are energized, the arm energizing element701can be elongated or shortened.

FIG. 9illustrates a connection portion between the arm energizing unit105and the X-ray tube106, which includes the arm internal electrodes702from CH1to CH N+1. The power-source line201and the control line202are allocated to the arm internal electrodes702, and the power is distributed to an X-ray tube internal cable903disposed inside the X-ray tube106via an arm side rotating electrode901and an X-ray tube side rotating electrode902.

The arm side rotating electrode901and the X-ray tube side rotating electrode902are configured in a similar mechanism to that of the rotating electrode on the cart side and the support pillar side rotating electrode. The rotating electrodes can be rotated in contact with each other via the electrode such as the electrode brush and energized. With this arrangement, while the power-source line201and the control line202are energized, the X-ray tube106can be rotated with respect to the arm energizing unit105.

According to the present exemplary embodiment, even without the external cable, by the X-ray tube106, the arm energizing unit105, the support pillar energizing unit104, and the mobile cart energizing unit101, the power-source line201and the control line202can be energized to facilitate arrangement of each unit. Further, by increasing the area of the conductor in the housing of each unit, a voltage drop can be suppressed.

As illustrated inFIGS. 1 to 9, according to the present exemplary embodiment, in order to energize the rotating electrode on the cart side, the support pillar side rotating electrode, the support pillar internal electrode307, the arm internal electrode602, the arm side rotating electrode901, and the X-ray tube side rotating electrode902, the electrode brush is described as an example. However, wireless communication and wireless power supply may also be employed.

Other Embodiments

This application claims priority from Japanese Patent Application No. 2012-232113 filed Oct. 19, 2012, which is hereby incorporated by reference herein in its entirety.