CN112764656A - Operation method of life support system all-in-one display system based on shuttle button - Google Patents

Abstract

The invention discloses an operation method of a shuttle button-based life support system all-in-one display system, which comprises the following steps: setting a global mark and recording the current interface combination mode; the shuttle button resets the shuttle button control system through the mark to establish a relationship; creating a shuttle button clockwise movement rule and a shuttle button anticlockwise movement rule, and creating a shuttle button clicking event and a long-time pressing event; when the shuttle button identifies that the current interface is the single interface through the global mark, the shuttle button is rotated clockwise/anticlockwise, and the shuttle button moves according to a clockwise/anticlockwise rule to form a small closed loop; when the shuttle button identifies the current interface as the combined interface through the global mark, the shuttle button is rotated clockwise/anticlockwise, and the shuttle button moves according to the clockwise/anticlockwise rule to form a large closed loop. The operation method of the invention keeps the closed-loop logic of a single interface, realizes the large closed-loop logic of an all-in-one interface, and is convenient to use and expand.

Description

Operation method of life support system all-in-one display system based on shuttle button

Technical Field

The invention relates to the field of medical equipment, in particular to an operation method of a shuttle button-based life support system all-in-one display system.

Background

The shuttle button is common on the medical equipment, and usually realizes the human-computer interaction of the medical equipment in a touch display screen mode, and the shuttle button still exists in the medical equipment as a redundant design and a special environment requirement design. However, the shuttle button is not required to be uniform in implementation effect, and the user interface adjustment mode of each manufacturer is different. Some require the cooperation of touch control and shuttle buttons, and some require only the operation of the shuttle buttons, and the design is basically common in single-interface display.

With the development of software technology and the background of the era that display information tends to be displayed on a large screen, the design of the all-in-one interface of the medical equipment is more and more, and it is very necessary to develop an operation method of the all-in-one interface based on the shuttle button. And the application scene of the all-in-one interface is wider, and the special environment using the shuttle button is more and more.

Disclosure of Invention

The present invention aims to overcome the technical defects described above, and provides a method for operating a shuttle button-based life support system all-in-one display system, the method comprising:

setting a global mark and recording the current interface combination mode;

the shuttle button resets the shuttle button control system through the mark to establish a relationship;

creating a shuttle button clockwise movement rule and a shuttle button anticlockwise movement rule, and creating a shuttle button clicking event and a long-time pressing event;

when the shuttle button identifies that the current interface is the single interface through the global mark, the shuttle button is rotated clockwise/anticlockwise, and the shuttle button moves according to a clockwise/anticlockwise rule to form a small closed loop;

when the shuttle button identifies the current interface as the combined interface through the global mark, the shuttle button is rotated clockwise/anticlockwise, and the shuttle button moves according to the clockwise/anticlockwise rule to form a large closed loop.

As an improvement of the above method, the method further comprises: an auto-refresh timer period T is set, which is 15 seconds.

As an improvement of the above method, when the shuttle button identifies that the current interface is the single interface through the global marker, the shuttle button is rotated clockwise, and the shuttle button moves according to the clockwise rule to form a small closed loop; the method specifically comprises the following steps:

the shuttle button is initially at the left position of the display interface, namely the starting position is at the left side;

the shuttle button identifies the current interface as an independent interface through the global marker;

when the shuttle button is rotated clockwise, the shuttle button moves according to the number of the operation items on the display interface;

in the moving process, a clear frame is displayed on the periphery of the selected operation item; in the moving process, the T second timer is started to take effect when being stopped, the selected state is reset when no operation is carried out within T seconds, all the operations are not taken effect, and the shuttle button returns to the initial position; re-timing when the shuttle button is used again; the touch control operation can be intervened at any time after the shuttle button stops moving,

after the shuttle button clicks the selected item, the shuttle button does not return to the initial position, but takes the position of the selected item as the initial position; after the touch click selection item, the shuttle button returns to the initial position;

the shuttle button moves clockwise to the last operation item of the interface, and the shuttle button continues to move clockwise to the left starting position to form a small closed loop.

As an improvement of the above method, when the shuttle button identifies that the current interface is the single interface through the global marker, the shuttle button is rotated counterclockwise, and the shuttle button moves according to a counterclockwise rule to form a small closed loop; the method specifically comprises the following steps:

the shuttle button is initially at the left position of the display interface, namely the starting position is at the left side;

the shuttle button identifies the current interface as an independent interface through the global marker;

when the shuttle button is rotated anticlockwise, moving is carried out according to the number of operation items of the display interface;

in the moving process, a clear frame is displayed on the periphery of the selected operation item; in the moving process, the T second timer is started to take effect when being stopped, the selected state is reset when no operation is carried out within T seconds, all the operations are not taken effect, and the shuttle button returns to the initial position; re-timing when the shuttle button is used again; the touch control operation can be intervened at any time after the shuttle button stops moving,

after the shuttle button clicks the selected item, the shuttle button does not return to the initial position, but takes the position of the selected item as the initial position; after the touch click selection item, the shuttle button returns to the initial position;

the shuttle button moves anticlockwise to the last operation item of the interface, and the shuttle button continues to move anticlockwise to the left starting position to form a small closed loop.

As an improvement of the above method, when the shuttle button identifies that the current interface is the combined interface through the global marker, the shuttle button is rotated clockwise, and the shuttle button moves according to the clockwise rule to form a large closed loop; the method specifically comprises the following steps:

the shuttle button is defaulted to the left position of the display interface, namely the starting position is on the left side;

when the shuttle button identifies that the current interface is a combined interface through the global mark, the combined interface is a first display interface and a second display interface which are arranged up and down; setting the intersection point at a central zone of the first display interface and the second display interface;

rotating the shuttle button clockwise to move on the second display interface, entering the left position of the first display interface and moving clockwise on the first display interface when the shuttle button moves to the top position of the whole display interface, entering the top position of the second display interface after moving to the last operation item on the rightmost side of the first display interface, namely the central zone of the two-in-one interface, and continuing moving clockwise after entering the second display interface to form a closed loop;

and rotating the shuttle button anticlockwise, entering the right side of the first display interface to continuously move anticlockwise after the shuttle button moves from the second display interface to the central zone, entering the central zone when the shuttle button moves to the left side of the first display interface, returning to the second display interface to continuously move, and forming a large closed loop.

As an improvement of the above method, when the shuttle button identifies that the current interface is the combined interface through the global marker, the shuttle button is rotated counterclockwise, and the shuttle button moves according to a counterclockwise rule to form a large closed loop; the method specifically comprises the following steps:

the shuttle button is defaulted to the left position of the display interface, namely the starting position is on the left side;

when the shuttle button identifies that the current interface is a combined interface through the global mark, the combined interface is a first display interface and a second display interface which are arranged up and down; setting the intersection point at a central zone of the first display interface and the second display interface;

the shuttle button is rotated anticlockwise to move on the second display interface, when the shuttle button moves to the top position of the whole display interface, the shuttle button enters the left position of the first display interface and moves anticlockwise on the first display interface, and when the shuttle button moves to the last operation item on the rightmost side of the first display interface, the shuttle button enters the top position of the second display interface, namely the central zone of the two-in-one interface, and after entering the second display interface, the shuttle button continues to move anticlockwise to form a closed loop;

and rotating the shuttle button anticlockwise, entering the right side of the first display interface to continuously move anticlockwise after the shuttle button moves from the second display interface to the central zone, entering the central zone when the shuttle button moves to the left side of the first display interface, returning to the second display interface to continuously move, and forming a large closed loop.

The invention has the advantages that:

1. the method of the invention keeps the closed-loop logic of a single interface, realizes the large closed-loop logic of an all-in-one interface, and is convenient to use and expand;

2. the operation method of the invention is not only suitable for the closed-loop movement of all-in-one interfaces, but also can realize the closed-loop movement in a single interface;

3. the operation method of the invention not only has rotation action, but also has long-time pressing action and 15-second delay reset.

Drawings

FIG. 1 is a schematic view of a small closed loop (clockwise rotation) of a single interface;

fig. 2 is a schematic of a large closed loop (clockwise rotation) of the combined interface.

Detailed Description

The technical solution of the present invention will be described in detail below with reference to the accompanying drawings.

The invention provides an operation method of a life support system all-in-one display system based on a shuttle button, which is applied to the combination of interfaces of life support systems such as an anesthesia respirator operation interface, a monitor operation interface, an ultrasonic (B ultrasonic) operation interface and the like on a display screen of one device. The operation interfaces can be freely combined and independently displayed, such as a single breathing interface, a single monitor interface, a breathing and monitoring and B-ultrasonic interface, and an anesthesia and monitoring and infusion pump interface. The shuttle button forms an all-in-one interface control on the basis of realizing the single interface control.

The method comprises the following steps:

step 1) setting a global mark, recording the current interface combination mode, resetting a shuttle button control system through the shuttle button by the mark, establishing a relationship, establishing a shuttle button clockwise moving logic and a shuttle button anticlockwise moving logic, establishing a shuttle button clicking event and a long-time pressing event, and automatically refreshing timing logic within 15 seconds;

step 2) the shuttle button defaults to the left position of each interface, i.e., the home position is to the left. And when the rotating shaft rotates clockwise, the closed-loop movement is carried out according to the operation number of the interface. And in the moving process, a clear frame is displayed on the periphery of the selected operation item. In the moving process, the timing of 15 seconds is started to be effective when the shuttle button is stopped, the selected state is reset when the shuttle button is not operated within 15 seconds, all the operations are not effective, and the shuttle button returns to the initial position. The shuttle button is again re-timed when used again. The touch control operation can be intervened at any time after the shuttle button is moved and stopped. After the shuttle button clicks on the selected item, the shuttle button does not return to the home position, but takes the position of the selected item as the home position. After the touch click on the selection item, the shuttle button will return to the initial position.

And 3) moving the shuttle button clockwise to the last item of the interface, and continuously moving the shuttle button clockwise to the left starting position to form a closed loop. When the shuttle button rotates anticlockwise, the shuttle button moves from the left starting position to the last item of the current interface, and the shuttle button continues to move anticlockwise to form a closed loop in a reverse way. During the counterclockwise movement, the shuttle button moves from the position of the currently selected item when it moves clockwise again. As shown in fig. 1.

And 4) when the shuttle button identifies the combination mode of the all-in-one interface through the global mark, the operation logic is the same, but the intersection point is set in the central zone of the all-in-one interface, so that the mobile logic of the single interface is cut off, and the other interface logic penetrates in. Taking a breathing and monitoring two-in-one interface as an example, the whole interface is divided into an upper part and a lower part, a breathing machine is arranged at the lower part, and a monitor is arranged at the upper part. The starting point of the shuttle button is at the left position of the breathing machine interface, the shuttle button moves on the breathing interface when moving clockwise, when the shuttle button moves to the top position of the breathing machine interface, the shuttle button enters the left position of the monitor interface and moves clockwise on the monitor interface, and when the shuttle button moves to the last item at the rightmost side of the monitor interface, the shuttle button enters the top position of the breathing machine interface, namely the central zone of the two-in-one interface, and returns to the breathing machine interface to move clockwise continuously to form a large closed loop. When the shuttle button moves to the left side of the monitor, the shuttle button enters the central zone and returns to the respirator interface to move continuously, and a large closed loop is formed. As shown in fig. 2.

If the interface is a three-in-one interface, the process is repeated, the interface is cut at the central zone, or the right side, or the bottom of the interface, and the shuttle button is logically penetrated.

The invention is characterized in that:

1. shuttle button penetration method of the all-in-one interface.

2. A 15 second chronograph reset design with clockwise and counterclockwise movement of the shuttle button.

3. Shuttle button and touch interaction logic.

4. Extendable method of starting position and moving direction of shuttle button.

5. Small closed loop and large closed loop concepts.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and are not limited. Although the present invention has been described in detail with reference to the embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (6)

1. A method of operating a shuttle button based life support system all in one display system, the method comprising:

setting a global mark and recording the current interface combination mode;

the shuttle button resets the shuttle button control system through the mark to establish a relationship;

creating a shuttle button clockwise movement rule and a shuttle button anticlockwise movement rule, and creating a shuttle button clicking event and a long-time pressing event;

when the shuttle button identifies that the current interface is the single interface through the global mark, the shuttle button is rotated clockwise/anticlockwise, and the shuttle button moves according to a clockwise/anticlockwise rule to form a small closed loop;

when the shuttle button identifies the current interface as the combined interface through the global mark, the shuttle button is rotated clockwise/anticlockwise, and the shuttle button moves according to the clockwise/anticlockwise rule to form a large closed loop.

2. The method of operating a shuttle button based life support system all in one display system as claimed in claim 1, further comprising: an auto-refresh timer period T is set, which is 15 seconds.

3. The method of claim 2, wherein when the shuttle button recognizes the current interface as the single interface by the global mark, the shuttle button is rotated clockwise, and the shuttle button moves clockwise to form a small closed loop; the method specifically comprises the following steps:

the shuttle button is initially at the left position of the display interface, namely the starting position is at the left side;

the shuttle button identifies the current interface as an independent interface through the global marker;

when the shuttle button is rotated clockwise, the shuttle button moves according to the number of the operation items on the display interface;

in the moving process, a clear frame is displayed on the periphery of the selected operation item; in the moving process, the T second timer is started to take effect when being stopped, the selected state is reset when no operation is carried out within T seconds, all the operations are not taken effect, and the shuttle button returns to the initial position; re-timing when the shuttle button is used again; the touch control operation can be intervened at any time after the shuttle button stops moving,

after the shuttle button clicks the selected item, the shuttle button does not return to the initial position, but takes the position of the selected item as the initial position; after the touch click selection item, the shuttle button returns to the initial position;

the shuttle button moves clockwise to the last operation item of the interface, and the shuttle button continues to move clockwise to the left starting position to form a small closed loop.

4. The method for operating a shuttle button based life support system all in one display system according to claim 2, wherein when the shuttle button recognizes the current interface as a single interface through the global mark, the shuttle button is rotated counterclockwise, and the shuttle button moves according to a counterclockwise rule to form a small closed loop; the method specifically comprises the following steps:

the shuttle button is initially at the left position of the display interface, namely the starting position is at the left side;

the shuttle button identifies the current interface as an independent interface through the global marker;

when the shuttle button is rotated anticlockwise, moving is carried out according to the number of operation items of the display interface;

in the moving process, a clear frame is displayed on the periphery of the selected operation item; in the moving process, the T second timer is started to take effect when being stopped, the selected state is reset when no operation is carried out within T seconds, all the operations are not taken effect, and the shuttle button returns to the initial position; re-timing when the shuttle button is used again; the touch control operation can be intervened at any time after the shuttle button stops moving,

after the shuttle button clicks the selected item, the shuttle button does not return to the initial position, but takes the position of the selected item as the initial position; after the touch click selection item, the shuttle button returns to the initial position;

the shuttle button moves anticlockwise to the last operation item of the interface, and the shuttle button continues to move anticlockwise to the left starting position to form a small closed loop.

5. The method of claim 3, wherein when the shuttle button identifies the current interface as the combined interface by the global mark, the shuttle button is rotated clockwise, and the shuttle button moves clockwise to form a large closed loop; the method specifically comprises the following steps:

the shuttle button is defaulted to the left position of the display interface, namely the starting position is on the left side;

when the shuttle button identifies that the current interface is a combined interface through the global mark, the combined interface is a first display interface and a second display interface which are arranged up and down; setting the intersection point at a central zone of the first display interface and the second display interface;

rotating the shuttle button clockwise to move on the second display interface, entering the left position of the first display interface and moving clockwise on the first display interface when the shuttle button moves to the top position of the whole display interface, entering the top position of the second display interface after moving to the last operation item on the rightmost side of the first display interface, namely the central zone of the two-in-one interface, and continuing moving clockwise after entering the second display interface to form a closed loop;

and rotating the shuttle button anticlockwise, entering the right side of the first display interface to continuously move anticlockwise after the shuttle button moves from the second display interface to the central zone, entering the central zone when the shuttle button moves to the left side of the first display interface, returning to the second display interface to continuously move, and forming a large closed loop.

6. The method for operating a shuttle button based life support system all in one display system according to claim 3, wherein when the shuttle button recognizes the current interface as the combined interface through the global mark, the shuttle button is rotated counterclockwise, and the shuttle button moves according to the counterclockwise rule to form a large closed loop; the method specifically comprises the following steps:

the shuttle button is defaulted to the left position of the display interface, namely the starting position is on the left side;

when the shuttle button identifies that the current interface is a combined interface through the global mark, the combined interface is a first display interface and a second display interface which are arranged up and down; setting the intersection point at a central zone of the first display interface and the second display interface;

the shuttle button is rotated anticlockwise to move on the second display interface, when the shuttle button moves to the top position of the whole display interface, the shuttle button enters the left position of the first display interface and moves anticlockwise on the first display interface, and when the shuttle button moves to the last operation item on the rightmost side of the first display interface, the shuttle button enters the top position of the second display interface, namely the central zone of the two-in-one interface, and after entering the second display interface, the shuttle button continues to move anticlockwise to form a closed loop;

and rotating the shuttle button anticlockwise, entering the right side of the first display interface to continuously move anticlockwise after the shuttle button moves from the second display interface to the central zone, entering the central zone when the shuttle button moves to the left side of the first display interface, returning to the second display interface to continuously move, and forming a large closed loop.

Images