JPH08138883A - X-ray control apparatus - Google Patents

Abstract

PURPOSE: To solve inconvenience to set a fluoroscopy mode every time manually. CONSTITUTION: A fluoroscopy mode is selected by a selector 24 and that is stored in preset memory 44. Then after, the mode stored in the preset memory 44 is read out by operating a photographing way-focus preset selector 22, stored in a technical way memory 42, and further sent to an output-display circuit 35 through a bus line 32, and the mode is set and displayed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an X-ray controller for an X-ray high voltage apparatus suitable for combination with an X-ray fluoroscopic apparatus.

[0002]

2. Description of the Related Art An X-ray control device for an X-ray high-voltage device is usually used in combination with various X-ray imaging devices such as an X-ray general imaging device, a fluoroscopic imaging device and a Bukki imaging device. . Therefore, the fluoroscopic condition and the fluoroscopic mode can be set in case of combining with the X-ray fluoroscopic imaging apparatus. Here, the fluoroscopy mode is a continuous fluoroscopy mode by continuous X-ray irradiation, a pulse fluoroscopy mode by pulsed X-ray irradiation, or the like, and these can be selected. It can be set arbitrarily.

Conventionally, the operator determines whether or not the site is a moving site according to the actual site of the subject's fluoroscopy / imaging, and manually sets the fluoroscopic mode accordingly. (Set continuous or pulsed fluoroscopy and set pulse rate). In other words, if the pulse rate is increased in continuous fluoroscopy or pulse fluoroscopy, it is possible to follow the fast movement, but the dose is increased, and if the pulse rate is slowed in the pulse fluoroscopy, the dose is small but the movement is fast. I can't capture it,
The operator determines the fluoroscopic mode in consideration of these factors.

[0004]

However, there is a problem that it is very troublesome for the operator to manually determine the fluoroscopic mode and manually set it, as in the conventional case. That is, it is complicated to set the fluoroscopic mode manually, although there are many cases in which an appropriate mode is known in advance in accordance with the site to be inspected or the purpose of the inspection.

In view of the above, the present invention provides an X-ray control apparatus which eliminates the complexity of manually setting the fluoroscopic mode by presetting the fluoroscopic mode in advance and improves the operability. With the goal.

[0006]

In order to achieve the above object, in the X-ray controller according to the present invention, means for setting the fluoroscopic mode, storage means for storing a preset value of the fluoroscopic mode, and the storage means. Therefore, a means for reading and setting the preset value of the perspective mode is provided.

[0007]

The storage means stores a preset value of the fluoroscopic mode, which is read out by a key operation or the like and immediately set to the fluoroscopic mode according to the preset value. Therefore, for example, by presetting a fluoroscopic mode suitable for each inspection site, once the inspection site is determined, the appropriate fluoroscopy mode can be set immediately by simply operating the key corresponding to that site, Operability is improved, and the operator's troublesome operation is eliminated. Also, because the appropriate perspective mode is set,
Extra X-ray exposure to the subject can be avoided.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 shows an X-ray controller according to an embodiment of the present invention. As shown in FIG. 1, a surgical operation selector 21, an imaging method / focus / preset selector 22, a perspective / imaging condition setting device 23. And the input device of the perspective mode selector 24 is connected to the CP via the input circuit 34.
It is connected to the bus line 32 of U31. Further, to the bus line 32, output devices such as an operation type display 25, a photographing method / focus / preset display 26, a fluoroscopic / photographing condition display 27 and a fluoroscopic mode display 28 are connected via an output / display circuit 35. Has been done. Furthermore, this bus line 32
Is connected to a program memory 33, and the program stored in the program memory 33 is read into the CPU 31 via the bus line 32, and the operation according to the program is performed. The bus line 32 is connected with a surgical operation selection memory 41, a surgical operation memory 42, and a preset memory 44. A battery 43 is connected to the surgical operation selection memory 41 and the surgical operation memory 42, and the contents thereof are retained even when the power is turned off. Further, the preset memory 44 is composed of an electrically writable read-only memory (EEPROM), and its storage is retained even when the power is turned off.

FIG. 2 shows the operation panel surface of the X-ray controller. As shown in FIG. 2, on the operation panel surface, a power switch 51, a technique selection key 52, an automatic shooting selection key 53, a photo timer shooting selection key 54, a shooting condition setting method selection key 55, a focus selection key 56, Tube voltage setting key 57, tube current setting key 58, shooting time setting key 59, density setting key 60 and preset selection key 50
The operation unit of the input device for photographing such as is provided. Further, a photographing condition display 61 is provided. The photographing condition display 61 displays the tube voltage (kV) and the tube current (m) at the time of photographing.
A or tube current time product mAs and imaging time (ms, se
In addition to the display section for displaying c) and, the tube number indicator 62,
63, a Ready display 64, an exposure display 65, an abnormality display 66, a condition over display 67, a photo timer display 68 and a concentration display 69.

Further, on the operation panel surface, in addition to the operation unit and display device of the input device for photographing, the operation unit of the input device for fluoroscopy, the fluoroscopic condition indicator 81, and the fluoroscopic mode indicator 82 are provided. It is equipped. As an operation unit of the fluoroscopic input device, a fluoroscopic tube voltage setting key 71, an IBS key 72, a reset key 73, a buzzer stop key 74,
A fluoroscopic mode selection key 75 and a fluoroscopic pulse rate selection key 76 are provided. The fluoroscopic condition display 81 displays the tube voltage (kV), the tube current (mA), and the time (min) during fluoroscopy. The selected fluoroscopic mode is displayed on the fluoroscopic mode display 82.

Of these many keys, keys 50, 5
1, 52, 53, 54, 55, 56, 72, 74, 75
Has an indicator lamp on the upper left (indicated by a circle in Fig. 2)
Is provided, and when the button is pressed, the indicator lamp lights up to indicate that the button is in the pressed state.

More specifically, the power switch 5
When the power is turned on by pressing 1, the electric current flows through the filament of the X-ray tube to heat the filament, and after a predetermined time elapses, the ready display 64 is turned on. The technique selection key 52 constitutes the operation portion of the technique selector 21,
In this embodiment, six keys are provided, and by pressing one of the six keys, X-ray general radiography, upright Buki radiography, horizontal Buki radiography, tomography, direct direct quick photography, and fluoroscopic indirect quick photography are available. One of the two techniques is selected. When the automatic photographing selection key 53 is pressed, the photographing condition is automatically set from the fluoroscopic condition and the photographing method is automatically selected. The photo timer shooting selection key 54 is for selecting the photo timer shooting. If these are not pressed, manual shooting will be performed.
With these keys 53 and 54, auto shooting, photo timer shooting, or manual shooting can be selected. When the photo timer shooting selection key 54 is pressed, the photo timer display 68 lights up.

The photographing condition setting method selection key 55 is a two-control method (a method for setting a photographing condition by a tube voltage and a tube current time product) or a three-control method (a tube condition is set by a tube voltage, a tube current and a photographing time). Method). When the key 55 is pressed, the 3 control method can be selected, and if not pressed, the 2 control method is selected. When the focus selection key 56 is pressed, a small focus can be selected, and when the focus selection key 56 is not pressed, it becomes a normal focus. Tube voltage setting key 5
7 is for increasing or decreasing the tube voltage (kV), and the tube current setting key 58 is for the tube current (mA or tube current time product mAs).
The shooting time setting key 59 is for increasing or decreasing the shooting time. The set tube voltage and tube current (or tube current time product) are displayed on the imaging condition display 61. The density setting key 60 sets the density to 7
It is selected and set from among stages, and is mainly used in phototimer photography. The set concentration is displayed on the concentration display 69.

The fluoroscopy tube voltage setting key 71 can be used to increase or decrease the tube voltage (kV) during fluoroscopy, and the tube voltage thus set is displayed by the fluoroscopic condition display 81. IBS key 72
When is pressed, the IBS (Automatic Fluorescent Brightness Adjustment Device) is operated. The reset key 73 is for resetting the fluoroscopic time to zero. Further, the key 74 is for resetting and stopping the buzzer which sounds 4 minutes and 30 seconds after the start of fluoroscopy and continues fluoroscopy.

Further, for the perspective mode, the key 75
When is pressed, it lights up and the pulse fluoroscopic mode is selected, and when it is pressed again, the continuous fluoroscopic mode is selected. Key 76 is for pulse perspective mode,
It selects the pulse rate. The pulse fluoroscopy mode is a mode in which X-rays are radiated in a pulse shape for fluoroscopy as shown in FIG. 3, and the continuous fluoroscopy mode is a mode in which X-rays are continuously radiated for fluoroscopy. In this embodiment, the pulse fluoroscopic mode can be selected from three modes of mode 1, mode 2 and mode 3 according to the pulse rate of pulsed X-ray irradiation. Each time the key 76 is pressed, the mode 1, mode 2, and mode 3 are sequentially selected, and the selected state is displayed on the perspective mode display 82.

Here, in the mode 1 of the pulse fluoroscopic mode, as shown in FIG. 3B, in synchronization with the frame sync signal (30 times per second) of the television as shown in FIG. 3A. X-rays are pulsed at a rate of 30 times per second. In mode 2, as shown in FIG. 3 (c), X-rays are emitted in pulses at a rate of 15 times per second in synchronization with 1/2 of the frame synchronization signal of the television. Is. Mode 3 is further half of that, that is, synchronized with 1/4 times of the frame synchronization signal of the television, and 7.5 seconds per second.
This is a mode in which X-rays are emitted in a pulse shape at each rate. The pulse width of these pulsed irradiation is about 4 milliseconds, and the charge image formed on the imaging surface of the image pickup tube by the pulsed irradiation of X-rays is read out and displayed according to the television field, or the charge image is displayed. The data is read out at high speed and stored in a memory, and the data is read out from this memory according to the TV field and displayed.

In this X-ray controller, when any one of the six surgical procedures is selected by pressing one of the surgical procedure selection keys 52, the selected surgical procedure is stored in the surgical procedure selection memory 41. Then, the keys 53, 54 are used to select the shooting method, the key 55 is used to select the shooting condition setting method, and the key 56 is used to select the focus.
(Or the key 60) is used to set shooting conditions. Further, the fluoroscopic condition is set by the keys 71 to 74 and the like, and the fluoroscopic mode is selected by operating the keys 75 and 76. Although the fluoroscopy / photographing is performed in this way, the preset selection key 5 is used when the photographing method (including the photographing condition setting method), focus, fluoroscopy / photographing condition, and fluoroscopic mode at this time are to be used later.
By pressing any of Nos. 1 to 6 of 0 to perform a write operation, the preset number N (N is 1
6), the setting values of the above-mentioned photographing method, focus, etc., fluoroscopic / photographing conditions, and fluoroscopic mode are written in the preset memory 44.

In this case, six different presets are possible for one surgical procedure, so that a total of 36 presets can be performed for the six surgical procedures. When it is desired to read out the preset various settings, conditions, etc. later and use them, one of the preset selection keys 50 is pressed after selecting a surgery method with the surgery method selection key 52. Then, information corresponding to the pressed technique selection key 52 and the preset selection key 50 is sent to the preset memory 44 via the input circuit 34 and the bus line 32, and the preset memory 44 corresponds to the technique and the preset number. The various settings and conditions to be read are read and transferred to the surgical operation memory 42. And this technique memory 4
The operation method, photographing method, focus, fluoroscopy / imaging condition, and fluoroscopy mode stored in 2 are temporarily passed through the bus line 32 to the CPU.
After being read in 31, it is sent to the output / display circuit 35 via the bus line 32, and is displayed in the surgical operation indicator 25 (the surgical operation selection key 5
(2) display lamps provided for each of the 2), the operation method is displayed, and the display by the photographing method / focus / preset display 26, that is, the lighting of each of the display lamps of the keys 53, 54, 55, 56, 50. The shooting method, focus, and preset number are displayed by the, and the fluoroscopy / shooting condition display 2
7 (the imaging condition display 61 and the fluoroscopic condition display 81 on the operation panel surface) displays the tube voltage, the tube current, the time, etc., and the fluoroscopic mode display 28 (the display lamp of the key 75 on the operation panel surface). And perspective mode display 82)
The transparent mode is displayed with.

Therefore, regarding the perspective mode, mode 1
In the case of a fast rate as shown in Fig. 3, a perspective image that follows a fast motion can be obtained, but the dose is large, but conversely, a slow rate such as mode 3 cannot follow a fast motion but the dose can be reduced. Considering this, for example, when the rapidly moving heart is used as the imaging region, mode 1 is selected,
It is preset as, for example, preset number 1 in the technique of the fluoroscopic direct rapid photography and the fluoroscopic indirect rapid photography. Also,
For example, in the case where the hand, which is a non-moving part, is set as the imaging part, mode 3 is selected and preset as the preset number 2, for example, of the technique of the fluoroscopic direct rapid photography and the fluoroscopic indirect rapid photography. Then, when fluoroscopy / imaging is performed later by a fluoroscopy direct-imaging or fluoroscopy indirect-imaging radiography with the heart as the examination site, those operations are selected by the operation selection key 52.
Select with, and then press No. 1 of the preset key 50,
Immediately, the mode 1 is set. Also,
When performing fluoroscopy / imaging with the technique of the fluoroscopic direct quick photography or the fluoroscopic indirect rapid photography as the examination site, after selecting those techniques with the technique selection key 52, the preset key 50 2
If you press the number, the mode 1 is set immediately.

If it is desired to use various preset settings, conditions, etc., after pressing the technique selection key 52, the photographing mode selection keys 53 and 54 are operated, and the photographing condition setting system selection key 55, After operating the focus selection key 56, the keys 57, 58 and 59 are operated to input the photographing conditions. Further, the fluoroscopic condition and the fluoroscopic mode are also input by the keys 71 to 76. The information input in this manner is input to the input circuit 34.
And via the bus line 32, once the technique selection memory 4
1 and stored in the technique memory 42, and then transferred to the output / display circuit 35 for display and the like.

The surgical operation memory 42 stores the conditions read out from the preset memory 44 and the conditions set manually as described above, and these conditions etc. are stored in the surgical operation selection key 5.
It is made to hold every two. In other words, the technique memory 42 has various settings for each of the six techniques.
Conditions will be retained. Therefore, technique selection key 5
If one of the two is pressed, various settings, conditions, etc. corresponding thereto are read out from the operation type memory 42 and output / display circuit 3
Sent to 5. The stored contents of the surgical operation memory 42 are retained by the battery 43 even when the power is turned off. Further, since the stored contents of the surgical operation selection memory 41 are retained by the battery 43 even when the power is turned off, when the power is turned off and then turned on again, the surgical operation selected immediately before turning off is selected again, and Various settings and conditions used in the technique are read from the technique memory 42 and output / displayed. Then, in this case, if another technique is selected, various settings, conditions, etc. stored in the technique memory 42 for the technique are read from the technique memory 42 and output / displayed.

In the above description, after selecting a technique with the technique selection key 52, the preset key 50 corresponding to the technique is selected.
It is configured to press, which is, so to speak, a method priority type. However, the present invention is not limited to this, and it is also possible to employ a method that should be called a preset priority type. In this case, in addition to the above-described imaging method, focus, fluoroscopy / imaging condition, and fluoroscopic mode, the operative method is also stored in the preset memory 44 corresponding to each of the preset numbers 1 to 6. Then, by pressing any one of the preset keys 1 to 6, the operation method, the photographing method, the focus, the fluoroscopic / photographing condition, and the fluoroscopic mode which are stored according to the respective numbers can be immediately set. . Therefore, in the above example, the preset keys 50 are preset with No. 1 and No. 2 preset conditions for performing fluoroscopy / imaging by the technique of fluoroscopy direct rapid radiography (transparent indirect snap photography), respectively. By setting it, pressing the preset key 50 # 1 will immediately set the heart to be fluoroscopically imaged in fluoroscopic mode 1, and pressing # 2 will immediately set the hand to fluoroscopically image in fluoroscopic mode 3. .

In addition, various modifications can be made without departing from the spirit of the present invention. For example, instead of the preset setting according to the inspection site, the preset setting according to the inspection purpose can be performed.

[0024]

As described above with reference to the embodiments, according to the X-ray control apparatus of the present invention, the fluoroscopic mode can be preset and previously read out, so that the operator must manually manually set the fluoroscopic mode. Is reduced and operability is improved. Further, since it is possible to preset the fluoroscopy mode that is most suitable for the examination site and the examination purpose, it is possible to solve the problem of selecting an inappropriate fluoroscopy mode and giving an excessive exposure to the subject.

[Brief description of drawings]

FIG. 1 is a block diagram of an X-ray controller according to an embodiment of the present invention.

FIG. 2 is a schematic external view showing an operation panel surface of the embodiment.

FIG. 3 is a time chart showing a perspective mode of the same embodiment.

[Explanation of symbols]

21 Technique Selector 22 Imaging Method / Focus / Preset Selector 23 Fluoroscopy / Shooting Condition Setting Device 24 Fluoroscopy Mode Selector 25 Surgery Method Display 26 Imaging Method / Focus / Preset Indicator 27 Fluoroscopy / Shooting Condition Indicator 28 Fluoroscopy Mode Display 31 CPU 32 Bus line 33 Program memory 34 Input circuit 35 Output / display circuit 41 Technique selection memory 42 Technique memory 43 Battery 44 Preset memory 50 Preset selection key 51 Power switch 52 Technique selection key 53 Auto shooting selection key 54 Photo timer Shooting selection key 55 Shooting condition setting method selection key 56 Focus selection key 57 Tube voltage setting key 58 Tube current setting key 59 Shooting time setting key 60 Density setting key 61 Shooting condition indicator 62, 63 Tube number indicator 64 Ready Indicator 65 Exposure indicator 66 Abnormality indicator 67 Condition over indicator 68 Photo timer indicator 69 Density indicator 71 Fluorescent tube voltage setting key 72 IBS key 73 Reset key 74 Buzzer stop key 75 Continuous fluoroscopic / pulse fluoroscopic selection key 76 Fluoroscopic mode selection key 81 Fluoroscopic condition Display 82 Perspective mode display

Claims (1)

[Claims] 1. An X, comprising: means for setting a fluoroscopic mode; storage means for storing a preset value of the fluoroscopic mode; and means for reading and setting the preset value of the fluoroscopic mode from the storage means. Line control device.