SU1685272A3 - X-ray diagnosis apparatus - Google Patents

Abstract

The invention relates to X-ray technology, and specifically to X-ray diagnostic apparatus with means of monitoring the radiation load on the patient. The purpose of the invention is to control the radiation load on the patient without complicating the measuring circuit of the X-ray diagnostic apparatus. For this, a unit 6 for determining the effective equivalent dose, formed by a memory of 7 specific effective dose equivalent values corresponding to different organ transplanted organs, and a multiplier 8, in which the specific organ identification unit 4 from the organ automation unit 4 is inserted into the device the value of the effective equivalent dose is multiplied by the value of mAs coming from the means 5 of setting and / or measuring the value of mAs. 1 ill., 1 tab. (L

Description

The invention relates to x-ray technology, and in particular to x-ray devices with means for monitoring the radiation load on the patient.

The purpose of the invention is the control of radiation load on the patient without complicating the measuring circuit of the x-ray diagnostic apparatus.

The drawing shows a diagram proposed; X-ray diagnostic apparatus.

The apparatus contains an X-ray emitter 1, an adjustable high voltage source 2 and a glow current source 3 connected to it, an automatic control unit 4 that implements a setpoint system of kVmA-mAs, the main outputs of which are connected to the regulatory inputs of high voltage sources 2, 3 and glow current and mA-relay 5. A unit 6 for determining the effective equivalent dose (EED), formed by a memory (read-only memory) of 7 specific values, is introduced into the device. EED and a multiplier 8 connected to it by one input, to the second input of which the measuring output of the mA relay 5 is connected. To the second input of the multiplier, the output of the automation unit 4 can be connected which is connected to the input of the mA relay 5 (mA ) Unit 4 of the automation unit is equipped with an additional output for the identification of the organ, which is connected to the memory input 7 specific values of the EED. The output of the multiplier 8 through the key 9 can be connected to the indicator 10. In addition, a digital electro-optical converter 13 can be inserted into the cassette 11c with X-ray film 12. The signal output of the mA-relay 5 is connected to the disconnect inputs of high voltage sources 2, 3 and glow current and key control input 9. Position 14 in the drawing shows a translucent object (patient).

In the case of using an X-ray diagnostic apparatus with an exposure relay, the MAC relay 5 is excluded from the circuit of the device, instead of which only a mAc meter should be entered (in fact, only the measuring part of the mAc relay can be used) connected to the input of the multiplier 8. Accordingly, by disconnecting the sources 2, 3 and the switching of the key 9 controls the exposure relay, and in block 4 of the automation body there is no output for setting the mAc value.

X-ray diagnostic apparatus operates as follows.

When you press the button of the unit 4 of the automatics corresponding to the studied organ of the patient 14, the high voltage, anode current and the amount of electricity are automatically set at sources 2, 3 and mA relay 5, the device is displayed in a known manner to the specified mode and the exposure is turned on. The signal from the output of the identification of the organ unit 4 of the body-automation is fed to the memory input of the specific values of the EED (address input). As a result, a signal corresponding to the specific value of the EED for the transmitted organ and arriving at the input of the multiplier 8 appears at the output of the memory 7. The signal from the measuring output of the mA-relay 5 is received at the other input of the multiplier 8. When the mA-relay 5 is activated, i.e. at the end of the exposure, sources 2 and 3 are turned off, at the output of the multiplier 8 a signal is generated corresponding to the EED for this picture, and a key 9 is opened, which passes the signal from the output of the multiplier to indicator 10 and / or digital electro-optical converter 13. In the latter case, the value EED is projected directly onto the X-ray film 12 and visualized after its manifestation,

The mAc signal at the input of the multiplier 8 can also come directly from the corresponding output of the automatic control unit 4 (shown by a dotted line in the drawing). In this case, there is no connection between the mA relay 5 and the multiplier 8.

Data on the specific values of EED entered into memory 7 are given in the table where PP is a direct projection, BP is a lateral projection, and the gastrointestinal tract is a gastrointestinal tract.

Thus, the described technical solution allows for objective monitoring of the radiation load on the patient during the X-ray examination, without resorting to direct radiation measurements in the primary beam, the means of implementation of which complicate the scheme of the X-ray diagnostic apparatus.

Claims (1)

Claim An X-ray diagnostic apparatus containing an automatic control unit and means for setting and / or measuring the mAc value, characterized in that, in order to ensure control of the radiation load on the patient without complicating the measuring circuit of the device, means for determining the effective equivalent dose are introduced, containing memory of specific values of the effective equivalent doses and a multiplier connected to it by one input, to the other input of which, under the keys, the output of the task means and / or change *. rhenium values of mAc, moreover, the automatic control unit is equipped with an additional organ identification output that is connected to the memory input of specific values of the effective equivalent dose. An object Position Skull 1-13 Lower jaw 14-16 Cervical vertebrae 17 18 Thoracic vertebrae I- VI PP 19 I-III PSU 20 VII-XII PP 21 III-XII BP 22 Lumbar vertebrae I-IV PP 23 I-IV PSU 24 V pp 25 V PSU 26 f sacrum, PP 27 L tailbone BP 28 Ribs I-VII PP 29th VIII-XII PP 31 Breast PP 33 BP • 34 Shovel PP 35 BP 36 Collarbone PP 37 Leverage, PP, BP 38 Upper limbs off the shoulder 39-47 Taz PP 48 Taz BP 49 Hip joint fifty Thigh neck BP 52 Hip PP 53 Lower limbs from the hip 55-65 Lungs PP 67 BP 66 Esophagus 68 U, kV Effective equivalent dose, mk ³ V / mA 70 1,6 fifty 0.7 65 2,5 60 0.6 70 24.0 75 6.0 80 27.0 75 6.0 75 15.8 80 11.0 80 15.00 85 13.0 75 19.0 85 10.0 65 2,5 75 3.0 65 2,5 75 3.0 60 0.8 65 0.5 65 0.9 60 0.8 - 75 24.0 95 37.0 75 10.0 75 8.0 60 6.0 - 70 7.0 85 13.0 85 12.0 Table continuation An object Position U, kV Effective equivalent dose, mk ³ V / mA Kidneys, gall PP bubble 69 70 29.0 ' BP 70 80 21.0 Bladder (axially) 72 75 27.0 Stomach PP 71 75 18.0 Filled PP 73 75 18.0 12 duodenal ulcer 74 75 18.5 Gastrointestinal tract, overview 75 80 20,0 Pregnancy PP 79 80 22.0 Pregnancy BE 80 90 18.0 Compiled by K. Kononov. Editor M. Kelemesh Tehred M. Morgenthal Corrector M. Pozho Order 3518 Circulation Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Combine Patent, Uzhgorod, 101 Gagarin St.