JP2005245548A - Electric energy monitor system of medical diagnostic apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To effectively manage the electric energy of a plurality of medical diagnostic apparatuses. <P>SOLUTION: The electric energy monitor system of the medical diagnostic apparatus has a commercial power source 1 with a predetermined capacity, an X-ray diagnostic apparatus having a plurality of components of an X-ray diagnostic unit having a control desk 2, an X-ray generater 3, and a table 4 respectively connected to the power source 1, electric energy detectors 6 to 8 connected between the X-ray diagnostic unit and the commercial power source for detecting the electric energy of the respective components, a used electric energy determining section 9 adding the electric power from the electric energy detectors 6-8, and an electric energy display section 10 displaying and outputting the added electric energy added by the used electric energy determining section 9, and the used electric energy determining section 9 generates an alarm signal when the added electric energy reaches the predetermined capacity of the commercial electric power source 1. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a power monitoring system for a medical diagnostic apparatus that manages the power supply of a medical diagnostic apparatus such as an X-ray diagnostic apparatus or an X-ray CT apparatus, and more particularly to a technique for efficiently operating the power energy of the medical diagnostic apparatus. is there.

In recent years, in hospital management, efforts to efficiently operate energy such as electric energy are regarded as important.
For example, when a hospital supplies a plurality of X-ray diagnostic apparatuses and X-ray medical diagnostic apparatuses such as X-ray CT apparatuses, the X-ray generation apparatuses are individually connected. In such a case, if a plurality of X-ray generators operate, it is necessary to prepare a power source having a capacity matched to the peak use, which is very inefficient from the viewpoint of energy saving.

Therefore, an example of an efficiency improvement technique for energy saving is described in [Patent Document 1]. The description includes the equipment introduction support department and the energy saving support equipment that display information about the models to be introduced and the timing of introduction based on the model list for energy saving support equipment that reduces energy consumption. Energy-saving effect management unit that obtains and displays the results of energy-saving effects based on the actual measured value of energy consumption, and energy-saving control units that perform energy-saving control to increase the energy-saving effect when the results of energy-saving effects are lower than the specified value In order to support the reduction of energy consumption by having a payment processing unit that performs processing or instructions for depositing the payment amount into a predetermined account for the installment payment of the equipment cost of the introduced energy saving support equipment .
JP 2001-344412 A

However, since [Patent Document 1] requires an energy saving support device, there is a problem that the configuration is complicated and expensive.
An object of the present invention is to provide a power monitoring system for a medical diagnostic apparatus that can monitor the power of a plurality of medical diagnostic apparatuses and manage the power of the monitored X-ray generator more efficiently. .

  In order to achieve the above object, an electric energy monitoring system for a medical diagnostic apparatus according to the present invention includes a medical power supply having a predetermined capacity and a plurality of components including a console connected to the commercial power supply. A power detecting means connected between the medical diagnostic apparatus and the commercial power supply for detecting the power of each of the plurality of components, an adding means for adding the power from the power detecting means, and the adding means A power display means for displaying and outputting the added power, and when the added power added to the adding means reaches a limit value for a predetermined capacity of the commercial power. Is provided with alarm means for generating an alarm.

  Further, a commercial power source having a predetermined capacity, a plurality of medical diagnostic devices connected to the commercial power source, and a power connected to each of the medical diagnostic devices connected between the medical diagnostic device and the commercial power source are detected. The power amount monitoring system of the medical diagnostic apparatus, comprising: power detecting means for performing the above, adding means for adding the power from these power detecting means, and power displaying means for displaying and outputting the added power added by the adding means And a warning means for generating a warning when the added power added to the adding means reaches a limit value for the predetermined capacity of the commercial power.

  Further, at least one of the plurality of power detection means detects that the medical diagnostic apparatus connected to the power detection means is in a non-operating state, and the power display means detects the power detection A message for turning off the power of the detected non-operating medical diagnostic apparatus is displayed on the means.

  ADVANTAGE OF THE INVENTION According to this invention, the electric energy of several medical diagnostic apparatuses can be managed more efficiently.

(First embodiment)
A first embodiment of a power monitoring system for a medical diagnostic apparatus according to the present invention will be described with reference to FIG.
The commercial power source 1 is connected to power detectors 6, 7, and 8. The power detector is connected to the console 2, the X-ray generator 3, and the table 4. The power consumption determination unit 9 is connected to the power detectors 6, 7, and 8, and the power consumption display unit 10 is connected to the power consumption determination unit 9.

The commercial power source 1 is a power source supplied to an electric power company. The power detectors 6, 7, and 8 measure power and are, for example, wattmeters capable of digital output. Here, as an example of the medical diagnostic apparatus, an X-ray diagnostic apparatus is taken as an example. The X-ray diagnostic apparatus has a console 2, an X-ray generator 3, and a table 4. The console 2 is used to set X-ray conditions, image display conditions, and the like by an operator's operation. The X-ray generator 3 generates X-rays according to the X-ray conditions set on the console 2.
Table 4 is for carrying the subject. The power consumption determination unit 9 inputs the power amounts detected by the power detectors 6, 7, and 8 to the power consumption determination unit 9, adds the respective power consumptions, and compares them with the commercial power capacity. The result is input to the electric energy display unit 10 and the input electric energy is displayed.

Next, details of the power consumption determining unit 9 in FIG. 1 will be described with reference to FIG.
In the power consumption determination unit 9, the console power detected by the power detector 6, the X-ray generator power detected by the power detector 7, the table power detected by the detector 8, and The usage limit value is entered. Each signal input here is input to the comparison unit, each power amount is compared with the use limit value, and in this embodiment, when reaching 90% of the use limit value, the use limit is being reached, A warning signal is output to the electric energy display unit 10. Further, each input electric energy is output to the electric energy display unit 10.

Next, details of the electric energy display unit 10 in FIG. 1 will be described with reference to FIG.
The power amount display unit 10 is a portion that displays a warning signal input from the used power amount determination unit 9 and each used power amount. Each power consumption is sequentially displayed as a line graph with the power consumption on the vertical axis and the elapsed time on the horizontal axis. In addition, when the amount of power used reaches 90% of the usage limit value, the majority of the power usage is emphasized, which part that is currently in use is displayed, and the operator is warned. .

(Second Embodiment)
A second embodiment of the power amount monitoring system for the medical diagnostic apparatus of the present invention will be described with reference to FIG.
A power detector 6 is connected to the commercial power source 1, and a console 2, an X-ray generator 3, and a table 4 are connected to the power detector 6. The amount of power detected by the power detector 6 is input to the used power amount determination unit 9 to determine the amount of each used power amount, and the result is input to the power amount display unit 10 and displayed.

Next, details of the power consumption determining unit 9 in FIG. 4 will be described with reference to FIG.
The power consumption determining unit 9 receives the console power amount detected by the power detector 6, the X-ray generator power amount, the table power amount, and the use limit value. Each signal input here is input to the comparison unit, the electric energy is compared with the use limit value, and in this embodiment, when reaching 90% of the use limit value, it is assumed that the use limit is being reached, a warning signal Is output to the electric energy display unit 10. Further, each input electric energy is output to the electric energy display unit 10.

Next, details of the electric energy display unit 10 in FIG. 4 will be described with reference to FIG.
The power amount display unit 10 is a portion that displays a warning signal input from the used power amount determination unit 9 and each used power amount. The power consumption is sequentially displayed as a line graph with the vertical axis representing the power consumption and the horizontal axis representing the elapsed time. When the amount of power used reaches 90% of the use limit value, most of the power use is emphasized to display whether the use power limit value is being reached and to prompt the operator to warn.

(Third embodiment)
A third embodiment of the power amount monitoring system for the medical diagnostic apparatus of the present invention will be described with reference to FIG.
The amount of power used in X-ray room 1, X-ray room 2, X-ray room 3, and X-ray room 4 is sent to power monitor central control room 15, and the amount of power used is displayed on each display. The By monitoring the power consumption of each X-ray room at the same time, it is possible to grasp the X-ray room with a large amount of power consumption and the X-ray room with a small amount of power consumption.
Further, at least one power detector of the plurality of power detection means detects that the X-ray diagnostic apparatus of the X-ray room connected to the power detector is in a non-operating state, and the power display monitor is A message that recommends turning off the power of the non-operating medical diagnostic device detected by the power detector is displayed.

(Fourth embodiment)
A fourth embodiment of the power amount monitoring system for the medical diagnostic apparatus of the present invention will be described with reference to FIG.
The inspection plan in the X-ray room 1, X-ray room 2, X-ray room 3, and X-ray room 4 is sent to the inspection plan central management room 20 in advance. The result is displayed in the inspection plan table 21. The inspection plan 21 displays the elapsed time on the vertical axis and the expected power consumption in each X-ray room on the horizontal axis as a bar graph, so that the time zone where it is concentrated can be grasped.
Accordingly, when the inspection time can be changed in the time zone in which the expected power usage is concentrated, the power consumption can be leveled by changing the inspection time.

  In each embodiment, an X-ray diagnostic apparatus is used as an example of the medical diagnostic apparatus, but a medical diagnostic apparatus such as an X-ray CT apparatus, an MRI apparatus, or an ultrasonic apparatus may be used.

Explanatory drawing of the 1st Embodiment of this invention. FIG. 2 is a diagram showing details of a power consumption determination unit in FIG. FIG. 2 is a diagram showing details of a power consumption display unit in FIG. The figure which shows the 2nd Embodiment of this invention. FIG. 5 is a diagram showing details of a power consumption determination unit in FIG. FIG. 5 is a diagram showing details of a power consumption display unit in FIG. The figure which shows the 3rd Embodiment of this invention. The figure which shows the 4th Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Commercial power supply, 2 ... Console, 3 ... X-ray generator, 4 ... Table, 5 ... Power monitoring apparatus, 6 ... Power detector, 7 ... Power detector, 8 ... Power detector, 9 ... Electric power consumption Judgment part, 10 ... Electric energy display part, 11 ... X-ray room 1, 12 ... X-ray room 2, 13 ... X-ray room 3, 14 ... X-ray room 4, 15 ... Power monitor central control room, 16 ... X-ray Room 1 used electric energy display section, 17 ... X-ray room 2 used electric energy display section, 18 ... X-ray room 3 used electric energy display section, 19 ... X-ray room 4 used electric energy display section, 20 ... Examination plan centralized management Room, 21 ... Inspection plan used electric energy display section

Claims (3)

  A medical diagnostic apparatus having a plurality of components including a commercial power source of a predetermined capacity and an operation console connected to the commercial power source, and connected to the medical diagnostic device and the commercial power source for each of the plurality of structural units Of a medical diagnostic apparatus comprising: power detection means for detecting the power of the power supply; addition means for adding power from these power detection means; and power display means for displaying and outputting the added power added by the addition means. In the power amount monitoring system, the power amount of the medical diagnostic apparatus comprising alarm means for generating an alarm when the added power added to the adding means reaches a limit value for the predetermined capacity of the commercial power Monitor system.   A commercial power source having a predetermined capacity, a plurality of medical diagnostic devices connected to the commercial power source, and a power connected between the medical diagnostic device and the commercial power source for detecting the power of each of the plurality of medical diagnostic devices In a power amount monitoring system for a medical diagnostic apparatus, comprising: a detection means; an addition means for adding power from these power detection means; and a power display means for displaying and outputting the added power added by the addition means. An electric energy monitoring system for a medical diagnostic apparatus, comprising alarm means for generating an alarm when the added power added to the adding means reaches a limit value for a predetermined capacity of the commercial power.   At least one of the plurality of power detection means detects that the medical diagnostic apparatus connected to the power detection means is in a non-operating state, and the power display means is connected to the power detection means. 3. The power monitoring system for a medical diagnostic apparatus according to claim 2, wherein a message for turning off the power of the detected medical diagnostic apparatus in a non-operating state is displayed.

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