CN111387998A - Control method and system for controlling X-ray machine by using touch screen - Google Patents

Abstract

The invention discloses a control method for controlling an X-ray machine by using a touch screen, which comprises the following steps: storing image information of a test object in an image storage unit; the control unit receives the first input signal and controls the display driving unit to output an image; the control unit receives the second input signal and controls the driving unit to output a detection signal; the control unit receives and processes the detection information of the detection head and controls the display driving unit to display the result. The invention also discloses a control system for controlling the X-ray machine by using the touch screen. The invention stores the information of the test picture in the storage unit in advance, the display unit displays the parameters of each coordinate on the pattern, the conversion function of the picture and the communication function with the X-ray machine, the touch instruction is fed back to the circuit control part of the liquid crystal touch screen and then is communicated with the machine, the machine executes the instruction and feeds back the instruction after receiving the communication instruction, responds, and sends the instruction to the liquid crystal touch screen for display, and the operation is convenient.

Description

Control method and system for controlling X-ray machine by using touch screen

Technical Field

The invention relates to the technical field of medical equipment, in particular to a control method and a control system for controlling an X-ray machine by using a touch screen.

Background

With the continuous development of medical level, medical services are promoted by high-efficiency, timely, accurate, environment-friendly and energy-saving (low-carbon) digital management of medical institutions, radiographic image digitization is just one of the important components of the medical institutions, and the digital X-ray machine is indispensable hardware, so that the X-ray machine is very widely applied in the medical field, can be used for medical diagnosis, treatment and protection, is favored by medical industry and workers, can be used for diagnosis quickly through the X-ray machine, and improves the diagnosis efficiency. Since 2011, the industrial frequency machine is gradually eliminated by the high-frequency machine, which is a great progress in the use of the machine, and the high-frequency X-ray machine refers to a machine which can generate X-rays when the working frequency of a power supply exceeds 20000 HZ. How to control the condition of the X-ray machine in clinic is always a difficult problem for doctors, one school has no relevant professional courses, and the other school needs to obtain a good X-ray clinical film with a plurality of factors influencing the X-ray clinical film, which is not good for control.

In the process of popularizing and using an X-ray machine in recent years, the operation steps of the machine are operated according to the software of a human doctor, and a corresponding control panel is also developed, produced and applied to the applicability of the human doctor in clinic, and the control is convenient and applicable to the human doctor in clinic. However, for zoologists, they have no expert in understanding the conditions of X-rays in animal clinical practice, and need a lot of fumbling about the actual clinical diagnosis conditions for zoologists, about 2010, Mikasa corporation of japan introduced approximately foolproof animal operating conditions to the chinese market, and set parameters of different parts. 16 positions, options such as thickness selection, body type selection and the like are set, and even accessory conditions such as whether peripheral equipment is used or not are included. 16 parts of the machine have large, medium and small selections, and doctors can also match the machine with corresponding conditions according to the input of actual thickness,

the machine of Mikasa in japan is marketed from taiwan, the very beginning, to mainland china, and has the following main disadvantages of market feedback after several years of popularization:

1. for medium and large dogs, the imaging quality is not ideal, mainly caused by insufficient machine power;

2. the operating panel of the machine is too complex and many functions are not available, such as the file 1, file 2, file 3, FFD (imaging distance adjustment) and F1, F2, F3 buttons are basically in a deactivated state;

3. the parameters of the machine are too complex, so that the problem that which condition is adjusted can be really solved cannot be accurately judged in the subsequent adjustment, and the conditions given by the machine for selecting the subsequent parameters and the conditions grasped by the self experience are too large and are lost; even the parameters cannot be recovered after some user conditions are finished;

4. the machine panel is English, the picture is not vivid, mistakes are easy to make when selecting the part, and many Chinese doctors need to print the English of the part after translating the English, and the operation is carried out after checking the English and the part on the machine every time of shooting, which brings inconvenience.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a control method and a control system for controlling an X-ray machine by using a touch screen.

The technical scheme adopted by the invention is as follows:

a control method for controlling an X-ray machine by using a touch screen comprises the following steps:

storing image information of a test object in an image storage unit;

the control unit receives the first input signal and controls the display driving unit to output an image;

the control unit receives the second input signal and controls the driving unit to output a detection signal;

the control unit receives and processes the detection information of the detection head and controls the display driving unit to display the result.

Further, the storing the image information of the test object in the image storage unit in advance specifically includes: processing image information of a test object, wherein the image information comprises an image of the test object, a part name of the test object in the image and a part selection module; the position selection module is connected with the control module.

Further, the image information of the test object includes: the image processing system comprises a positive image, a lateral image, a large image, a medium image and a small image, wherein each image comprises head, jaw, cervical vertebra, thoracic vertebra, lumbar vertebra, shoulder joint, humerus, ulna and radius, heel part, chest, upper abdomen, lower abdomen, pelvis, femur, fibula and knee joint identification.

Further, the control unit receives the first input signal and controls the display driving unit to output an image; the method specifically comprises the following steps: the first input signal is picture information of a test object selected according to the test object, and the control unit receives the selected picture information and controls the display control unit to drive the display unit to display the picture of the test object.

Further, the control unit receives a second input signal and controls the driving unit to output a detection signal; the method specifically comprises the following steps: the second input signal is selected test object part information, the detecting head is arranged on the test object, and the control unit receives the selected test object part information and controls the detection driving unit to output a detection signal to the detecting head.

Further, the step value of the detection driving unit is 0.4 mAs.

Further, the control unit receives and processes the detection information of the detection head, and controls the display driving unit to display the result, specifically including: the control unit receives an input signal corresponding to a part to be tested, controls the drive unit to belong to a detection signal of the selected part to be tested, the probe receives the detection signal and sends a detection result signal to the control unit, and the control unit converts the detection result signal and outputs the detection result signal to the display unit.

Furthermore, the display unit comprises a test object picture display area, an output signal adjusting area and a storage operation area.

Further, the display unit is a liquid crystal touch screen.

A control system for operating an X-ray machine using a touch screen, comprising:

the display unit is used for displaying the picture information and the detection result;

the control unit is used for receiving the picture selection information and the operation button information and controlling the display driving unit and the detection driving unit;

the display driving unit is used for driving and displaying the display unit;

a detection driving unit for outputting detection signal to the detecting head and sending the detection signal to the control unit,

the image storage unit is used for storing the image information of the test object;

the detecting head is connected with the detection driving unit and acquires the detection information of the test object;

the power supply unit is used for supplying power to the display unit, the control unit, the display driving unit and the detection driving unit;

the image storage unit is connected with the control unit, the control unit is connected with the display driving unit and the detection driving unit, the output end of the display driving unit is connected with the display unit, and the detection driving unit is connected with the detection head.

The invention has the beneficial effects that:

the invention firstly tests the picture information and stores in the memory cell in advance, the display cell displays the parameter of each coordinate on the pattern, the conversion function of the picture and the function of communicating with the X-ray machine, the touching instruction is fed back to the circuit control part of the liquid crystal touch screen, then the machine communicates with the machine, the machine executes the instruction and feeds back the instruction after receiving the communication instruction, makes a response, and sends the response to the liquid crystal touch screen for displaying, and the operation is convenient.

Drawings

Fig. 1 is a flowchart of a control system for controlling an X-ray machine by using a touch screen according to the present invention;

fig. 2 is a structural diagram of a control system for controlling an X-ray machine by using a touch screen according to the present invention.

Detailed Description

The present application will now be described in further detail with reference to the accompanying drawings. It should be understood that the specific features in the embodiments and examples of the present application are detailed description of the technical solutions of the present application, and are not limited to the technical solutions of the present application, and the technical features in the embodiments and examples of the present application may be combined with each other without conflict.

Fig. 1 is a flowchart of a control method for controlling an X-ray machine by using a touch screen according to the present invention.

A control method for controlling an X-ray machine by using a touch screen comprises the following steps:

step 101, storing image information of a test object in an image storage unit;

102, a control unit receives a first input signal and controls a display driving unit to output an image;

103, the control unit receives a second input signal and controls the driving unit to output a detection signal;

and 104, the control unit receives and processes the detection information of the detection head and controls the display driving unit to display the result.

In step 101, the storing the image information of the test object in the image storage unit in advance specifically includes: processing image information of a test object, wherein the image information comprises an image of the test object, a part name of the test object in the image and a part selection module; the position selection module is connected with the control module.

Wherein the image information of the test object includes: the image processing system comprises a positive image, a lateral image, a large image, a medium image and a small image, wherein each image comprises head, jaw, cervical vertebra, thoracic vertebra, lumbar vertebra, shoulder joint, humerus, ulna and radius, heel part, chest, upper abdomen, lower abdomen, pelvis, femur, fibula and knee joint identification.

In step 102, the control unit receives a first input signal and controls the display driving unit to output an image; the method specifically comprises the following steps: the first input signal is picture information of a test object selected according to the test object, and the control unit receives the selected picture information and controls the display control unit to drive the display unit to display the picture of the test object.

In step 103, the control unit receives a second input signal and controls the driving unit to output a detection signal; the method specifically comprises the following steps: the second input signal is selected test object part information, the detecting head is arranged on the test object, and the control unit receives the selected test object part information and controls the detection driving unit to output a detection signal to the detecting head.

In step 104, the control unit receives and processes the detection information of the detection head, and controls the display driving unit to display the result, including: the control unit receives an input signal corresponding to a part to be tested, controls the drive unit to belong to a detection signal of the selected part to be tested, the probe receives the detection signal and sends a detection result signal to the control unit, and the control unit converts the detection result signal and outputs the detection result signal to the display unit.

In the embodiment of the invention, the display unit comprises a test object picture display area, an output signal adjusting area and a storage operation area. The display unit is a liquid crystal touch screen. The test object pictures comprise a normal image, a lateral image, a large-scale image, a medium-scale image and a small-scale image, after the images are selected, the corresponding pictures are displayed on the liquid crystal touch screen, and the parts of the test object, including the head, the jaw, the cervical vertebra, the thoracic vertebra, the lumbar vertebra, the shoulder joint, the humerus, the ulna and radius, the heel part, the chest, the upper abdomen, the lower abdomen, the pelvis, the femur, the fibula and the knee joint, are identified on the pictures; the mark is set as a touch button, and when the probe is arranged on a test object, the touch mark is correspondingly selected; the display unit is also provided with detection voltage and current, the output is adjustable, and the operation is convenient.

In the embodiment of the invention, the display unit adopts a liquid crystal touch screen. The image information of the test object comprises test parts, body types (large, medium and small), body positions (front and side), languages (Chinese and English), types of the photographed species (cats, dogs and the like) and touch selection functions of preparation, exposure and storage operations, different parts are selected, the character areas of the parts are reversed, the selection of the parts is shown, and corresponding parameters or pictures appear on the interface.

The test picture information is stored in the storage unit in advance, parameters of each coordinate on the display pattern, the conversion function of the picture and the communication function with the X-ray machine are displayed on the display unit, a touch instruction is fed back to a circuit control part of the liquid crystal touch screen and then communicated with the machine, the machine executes the instruction and feeds back the instruction after receiving the communication instruction, and the instruction is responded and sent to the liquid crystal touch screen to be displayed. The step value of the detection driving unit is 0.4 mAs. The step of 0.4mAs is a step value obtained by analyzing and experimenting the organism tissues of animals, and brings better effect on the adjustability of the imaging definition.

Referring to fig. 2, the present invention further provides a control system for controlling an X-ray machine by using a touch screen, including:

an image storage unit 201 for storing test object image information;

a control unit 202 which receives the picture selection information and the operation button information, and controls the display driving unit and the detection driving unit;

a display driving unit 203 for driving and displaying the display unit;

a detection driving unit 204 for outputting a detection signal to the detecting head and transmitting the detection signal to the control unit,

a display unit 205 for displaying the picture information and the detection result;

a probe 206 connected to the detection driving unit and acquiring detection information of the test object;

a power supply unit 207 for supplying power to the display unit, the control unit, the display drive unit, and the detection drive unit;

the image storage unit is connected with the control unit, the control unit is connected with the display driving unit and the detection driving unit, the output end of the display driving unit is connected with the display unit, and the detection driving unit is connected with the detection head.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create a system for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including an instruction system which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only intended to illustrate the technical solution of the present invention and not to limit the same, and a person of ordinary skill in the art can make modifications or equivalents to the specific embodiments of the present invention with reference to the above embodiments, and such modifications or equivalents without departing from the spirit and scope of the present invention are within the scope of the claims of the present invention as set forth in the claims.

Claims (10)

1. A control method for controlling an X-ray machine by using a touch screen is characterized by comprising the following steps:

storing image information of a test object in an image storage unit;

the control unit receives the first input signal and controls the display driving unit to output an image;

the control unit receives the second input signal and controls the driving unit to output a detection signal;

the control unit receives and processes the detection information of the detection head and controls the display driving unit to display the result.

2. The method according to claim 1, wherein the storing the image information of the test object in the image storage unit in advance specifically comprises: processing image information of a test object, wherein the image information comprises an image of the test object, a part name of the test object in the image and a part selection module; the position selection module is connected with the control module.

3. The method of claim 2, wherein the image information of the test object comprises: the image processing system comprises a positive image, a lateral image, a large image, a medium image and a small image, wherein each image comprises head, jaw, cervical vertebra, thoracic vertebra, lumbar vertebra, shoulder joint, humerus, ulna and radius, heel part, chest, upper abdomen, lower abdomen, pelvis, femur, fibula and knee joint identification.

4. The method of claim 1, wherein the control unit receives a first input signal and controls the display driving unit to output an image; the method specifically comprises the following steps: the first input signal is picture information of a test object selected according to the test object, and the control unit receives the selected picture information and controls the display control unit to drive the display unit to display the picture of the test object.

5. The method of claim 1, wherein the control unit receives a second input signal and controls the driving unit to output a detection signal; the method specifically comprises the following steps: the second input signal is selected test object part information, the detecting head is arranged on the test object, and the control unit receives the selected test object part information and controls the detection driving unit to output a detection signal to the detecting head.

6. The method of claim 5, wherein the step size of the detection driving unit is 0.4 mAs.

7. The method as claimed in claim 1, wherein the controlling unit receives and processes the detection information from the detecting head, and controls the display driving unit to display the result, specifically comprising: the control unit receives an input signal corresponding to a part to be tested, controls the drive unit to belong to a detection signal of the selected part to be tested, the probe receives the detection signal and sends a detection result signal to the control unit, and the control unit converts the detection result signal and outputs the detection result signal to the display unit.

8. The method according to claim 1, wherein the display unit comprises a test object picture display area, an output signal adjustment area, and a storage operation area.

9. The method of claim 8, wherein the display unit is a liquid crystal touch screen.

10. The method according to any one of claims 1 to 9, wherein a control system for operating the X-ray machine by using the touch screen comprises:

the display unit is used for displaying the picture information and the detection result;

the control unit is used for receiving the picture selection information and the operation button information and controlling the display driving unit and the detection driving unit;

the display driving unit is used for driving and displaying the display unit;

a detection driving unit for outputting detection signal to the detecting head and sending the detection signal to the control unit,

the image storage unit is used for storing the image information of the test object;

the detecting head is connected with the detection driving unit and acquires the detection information of the test object;

the power supply unit is used for supplying power to the display unit, the control unit, the display driving unit and the detection driving unit;

the image storage unit is connected with the control unit, the control unit is connected with the display driving unit and the detection driving unit, the output end of the display driving unit is connected with the display unit, and the detection driving unit is connected with the detection head.

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