CN116407774A - Medical equipment and medical equipment control method - Google Patents

Abstract

The medical equipment comprises a touch display screen and a first entity key group arranged on the first side outside the touch display screen, wherein the touch display screen can display a treatment page, and the first entity key group only comprises operation keys related to defibrillation or at least one of operation keys related to defibrillation, function keys related to treatment and other entity keys; the operation keys comprise only a discharging key, only a discharging key and an energy adjusting key, or only a discharging key, an energy adjusting key and a charging key; the number of other entity keys is one or two. The medical equipment provided by the invention has the advantages that the first entity key group comprises the operation keys related to the defibrillation function, the important function of defibrillation can be realized through the entity keys, in addition, the number layout of the first entity key group is simple, and the extremely simple layout of the medical equipment is ensured.

Description

Medical equipment and medical equipment control method

Technical Field

The application relates to a medical device and a medical device control method.

Background

The medical device with the defibrillation function is one of clinically important first-aid devices, and the medical device generally has the defibrillation function except the defibrillation function, can be provided with corresponding entity keys to enter corresponding functions, but has more entity key types and categories, so that a user cannot accurately find the corresponding entity keys, and the visual effect is poor.

Disclosure of Invention

The present application generally provides a medical device so as to enable a very simple layout of the medical device.

In view of the above, there is provided in one embodiment of the present application a medical device comprising:

a touch control display screen which can display a treatment page,

the first entity key group is arranged on the first side outside the touch display screen;

the first physical key group includes only defibrillation-related operation keys or only defibrillation-related operation keys and at least one of therapy-related function keys and other physical keys;

the operation keys comprise only a discharging key, only a discharging key and an energy adjusting key, or only a discharging key, an energy adjusting key and a charging key;

the number of other entity keys is one or two.

In an embodiment, the medical device further includes a controller, where the controller is connected to the touch display screen and the physical key set, respectively, and is configured to process data and send an instruction; when a target operation key is triggered, the controller controls the touch display screen to display a treatment page related to the target operation key, or controls the medical equipment to execute specific operation under a defibrillation function corresponding to the target operation key and controls the touch display screen to display the treatment page related to the target operation key, or controls the touch display screen to display a confirmation key for confirming whether to enter the treatment page related to the target operation key.

In an embodiment, when the target operation key is triggered, if the medical device is performing a non-defibrillation operation, the controller controls the touch display screen to display a confirmation key for confirming whether to enter a treatment page related to the target operation key.

In an embodiment, when the target operation key is related to manual defibrillation, and when the target operation key is triggered, if the medical device is performing an automatic defibrillation operation, the controller controls the touch display screen to display a confirmation key for confirming whether to enter a treatment page related to manual defibrillation.

In an embodiment, the function key is an automatic defibrillation key, and when the automatic defibrillation key is triggered, the controller controls the touch display screen to display a treatment page related to automatic defibrillation, or controls the touch display screen to display a confirmation key for confirming whether to enter the treatment page related to automatic defibrillation.

In one embodiment, the function keys do not include manual defibrillation keys.

In an embodiment, the other physical keys include one or both of a power key and a rotary encoder.

In an embodiment, the touch display further includes a second physical key set disposed on a second side outside the touch display, where the second physical key set is weakened in color vision or shape vision with respect to the first physical key; the exterior color of the second physical key set is the same as or similar to the color of the surface of the medical device provided with the second physical key set, or the outer side surface of the second physical key set is basically flush with the surface of the medical device provided with the second physical key set.

In an embodiment, the treatment page includes three sub-buttons of manual defibrillation, automatic defibrillation and pacing, each sub-button can be selected and a tab page corresponding to the selected sub-button is displayed on the treatment page, and the tab pages corresponding to the three sub-buttons are displayed in a switchable manner.

In an embodiment, when the treatment page is not displayed, the touch display screen may display a treatment entry key capable of entering the treatment page with one key.

In an embodiment, the therapy entry keys include a manual defibrillation function key, an automatic defibrillation function key, and/or a pacing function key; when the treatment entrance key is a manual defibrillation function key and the manual defibrillation function key is selected, the controller controls the touch display screen to display a treatment page related to manual defibrillation; when the treatment entrance key is an automatic defibrillation function key and the automatic defibrillation function key is selected, the controller controls the touch display screen to display a treatment page related to automatic defibrillation; when the treatment entrance key is a pacing function key and the pacing function key is selected, the controller controls the touch display screen to display a treatment page related to pacing.

In an embodiment, the treatment entry key includes a virtual task key related to defibrillation, where the virtual task key corresponds to a specific operation under a defibrillation function, and when the virtual task key is triggered, the controller controls the touch display screen to display a treatment page related to the virtual task key, or controls the touch display screen to display a treatment page related to the virtual task key, and controls the medical device to execute a specific operation under a defibrillation function corresponding to the virtual task key.

In an embodiment, the virtual task key includes a manual defibrillation energy key, and when the manual defibrillation energy key is selected, the controller controls the touch display screen to display a treatment page related to manual defibrillation function energy adjustment, and the manual defibrillation energy adjustment can be performed on the treatment page.

In an embodiment, the touch display screen includes a function key area, where the function key area is used to display function keys of the medical device, and when the function key is selected, the current page may be switched to a function page corresponding to the selected function key.

In one embodiment, the function keys include a therapy entry key associated with a defibrillation and/or pacing related therapy page, and other function keys, some or all of which can be collapsed into one key for display and floating display on the touch screen display.

In one embodiment, the function keys include a treatment entry key, and an auxiliary function key; when the auxiliary function key is selected, the controller controls the touch display screen to display an auxiliary function page corresponding to the selected auxiliary function key; the auxiliary function page comprises a plurality of auxiliary tool keys; and part or all of the auxiliary tool keys can be folded into one key to be displayed and displayed on the touch screen display screen in a floating mode.

In an embodiment, the touch display screen and the first entity key set are arranged side by side left and right or up and down.

In an embodiment, the physical keys in the first physical key group are sequentially arranged in a row or a column.

In an embodiment, the touch display screen and the first physical key set are disposed on a same side surface of the medical device, and a side surface of the medical device where the touch display screen and the first physical key set are located is a display control side; the medical equipment comprises a recorder, a paper outlet is formed in the display control side, and the recorder is blocked at the rear of the display control side and outputs paper through the paper outlet.

In an embodiment, the paper outlet is located below the touch display screen.

In an embodiment, the touch display screen and the first physical key set are disposed on a same side surface of the medical device, and a side surface of the medical device where the touch display screen and the first physical key set are located is a display control side; the area of the touch display screen exposed on the display control side is not less than one half of the total area of the display control side or not less than two thirds of the total area of the display control side.

In an embodiment, the touch display screen and the first physical key set are disposed on a same side surface of the medical device, and a side surface of the medical device where the touch display screen and the first physical key set are located is a display control side; the side edge of the touch display screen, which is close to the first entity key group, is a first side edge, the other side edges of the touch display screen, except for the first side edge, are second side edges, and the shortest distance between the second side edge and the outermost side edge of the display control side is more than or equal to 10 mm and less than or equal to 15 mm.

In an embodiment, the area where the first physical key group is located is a first physical key area, and a shortest distance between a side edge of a side of the first physical key area, which is away from the touch display screen, and an outermost side edge of the display control side is greater than or equal to 10 mm and less than or equal to 15 mm.

In one embodiment, the maximum distance of the first physical key region edge from the keys within the first physical key region is no more than 15 millimeters.

In one embodiment, the keys in the second physical key group are keys unrelated to defibrillation operation.

The present invention also provides a medical device comprising:

the touch control display screen, the first entity key group and the controller are respectively connected with the touch control display screen and the first entity key group and used for processing data and receiving and sending instructions;

the display interface of the touch display screen can display a treatment page;

the first entity key group comprises operation keys related to defibrillation, wherein the operation keys comprise a discharge key, an energy adjustment key and a charging key, and the operation keys correspond to specific operation under the defibrillation function;

when a target operation key is triggered, the controller controls the touch display screen to display a treatment page related to the target operation key, or controls the medical equipment to execute specific operation under a defibrillation function corresponding to the target operation key and controls the touch display screen to display the treatment page related to the target operation key, or controls the touch display screen to display a confirmation page for confirming whether to enter the treatment page related to the target operation key.

In an embodiment, the touch display screen and the first physical key set are arranged side by side left and right or up and down.

The invention also provides a medical equipment control method, which is used for controlling the medical equipment, wherein the medical equipment comprises a touch display screen, a first entity key group and a controller; the first entity key group comprises operation keys related to defibrillation, wherein the operation keys comprise a discharge key, an energy adjustment key and a charging key, and the operation keys correspond to specific operation under the defibrillation function; the method comprises the following steps:

when a target operation key is triggered, the controller controls the touch display screen to display a treatment page related to the target operation key, or controls the medical equipment to execute specific operation under a defibrillation function corresponding to the target operation key and controls the touch display screen to display the treatment page related to the target operation key, or controls the touch display screen to display a confirmation page for confirming whether to enter the treatment page related to the target operation key.

In an embodiment, the method further comprises: when the target operation key is triggered, if the medical equipment is executing a non-defibrillation operation, the controller controls the touch display screen to display a confirmation key for confirming whether to enter a treatment page related to the target operation key.

In an embodiment, the method further comprises: when the target operation key is related to manual defibrillation and the target operation key is triggered, if the medical equipment is executing automatic defibrillation operation, the controller controls the touch display screen to display a confirmation key for confirming whether to enter a treatment page related to manual defibrillation.

In an embodiment, the first set of entity keys includes a therapy-related function key, the function key being an automatic defibrillation key, the method further comprising: when the automatic defibrillation key is triggered, the controller controls the touch control display screen to display a treatment page related to automatic defibrillation, or controls the touch control display screen to display a confirmation key for confirming whether to enter the treatment page related to automatic defibrillation.

In an embodiment, the method further comprises: and when the treatment page is not displayed, the touch control display screen is controlled to display a treatment entrance key which can enter the treatment page by one key.

In an embodiment, the display interface of the touch display screen comprises a function key area, wherein the function key area is used for displaying function keys of the medical equipment, and the method further comprises the step of controlling the current page to be switched to a function page corresponding to the selected function key when the function key is selected.

In an embodiment, the function keys include a therapy entry key associated with a defibrillation and/or pacing related therapy page, and further comprising: and controlling part or all of the other functional keys to be folded into one key to be displayed and floating-displayed on the touch screen display screen.

The medical equipment according to the embodiment comprises a touch display screen and a first entity key set arranged on the first side outside the touch display screen. The touch display screen can display a treatment page, and the first entity key group only comprises operation keys related to defibrillation or only comprises at least one of operation keys related to defibrillation and function keys and other entity keys related to treatment; the operation keys comprise only a discharging key, only a discharging key and an energy adjusting key, or only a discharging key, an energy adjusting key and a charging key; the number of other entity keys is one or two. The medical equipment provided by the invention has the advantages that the first entity key group comprises the operation keys related to the defibrillation function, the important function of defibrillation can be realized through the entity keys, in addition, the number layout of the first entity key group is simple, and the extremely simple layout of the medical equipment is ensured.

Drawings

Fig. 1-5 are schematic diagrams illustrating a left-right arrangement of a touch display screen and a first physical key group in several different embodiments of the present application (the types and the numbers of physical keys of the first physical key group in each embodiment are different);

fig. 6-8 are schematic diagrams illustrating an up-down arrangement of a touch display screen and a first physical key group in several different embodiments of the present application (the types and the numbers of physical keys of the first physical key group in each embodiment are different);

fig. 9-11 are schematic diagrams illustrating a left-right arrangement of a first physical key group (the types and the numbers of the physical keys of the first physical key group in each embodiment are different) and a touch display screen in several different embodiments of the present application;

fig. 12 is a schematic diagram of a reserved paper outlet on a display control side after a recorder is hidden on a touch display screen in an embodiment of the present application.

Fig. 13 is a schematic diagram of a display interface after triggering a manual defibrillation sub-button of a therapy page according to an embodiment of the present application;

FIG. 14 is a schematic diagram of a display interface of three pacing sub-buttons triggering a treatment page according to one embodiment of the present application;

FIG. 15 is a schematic diagram illustrating the position of a therapy entry key under a conventional monitoring interface in an embodiment of the present application;

FIG. 16 is a schematic diagram illustrating the positions of treatment entry buttons under a twelve lead analysis interface in an embodiment of the present application;

FIG. 17 is a schematic diagram illustrating the position of a therapy entry key under an ultrasound imaging interface in one embodiment of the present application;

fig. 18-19 are schematic diagrams of a partial function key folding display in an embodiment of the present application.

Fig. 20-21 are schematic diagrams illustrating folding and displaying of other keys according to an embodiment of the present application.

Detailed Description

The invention will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present application. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, some operations associated with the present application have not been shown or described in the specification to avoid obscuring the core portions of the present application, and may not be necessary for a person skilled in the art to describe in detail the relevant operations based on the description herein and the general knowledge of one skilled in the art.

Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The terms "coupled" and "connected," as used herein, are intended to encompass both direct and indirect coupling (coupling), unless otherwise indicated.

The present embodiment provides a medical device having a defibrillation function, which can realize a defibrillation-related function. In addition, in some embodiments, the medical device may optionally also incorporate other functions, such as other functions including, but not limited to, a monitoring function, a twelve lead analysis function, an ultrasound imaging function, or other medical related functions.

Referring to fig. 1-11, the medical device 1 includes a housing 100, a touch display 200, a first physical key set, and a controller (not shown). The housing 100 has a mounting cavity therein for mounting a controller and other related components. The controller is connected to the touch display 200 and the first physical key set, respectively, and is used for processing data and receiving and sending instructions.

The touch display screen 200 is mounted on the housing 100, and a display interface thereof is exposed from the housing 100 for viewing by a user. The touch-sensitive display screen 200 can display a therapy page and other interfaces related to defibrillation functions. The display interface of the touch display screen 200 can be switched under the control of the controller.

The first physical key set is located on the first physical key area 301, where the first physical key area 301 is located on one side of the housing 100, and more specifically, the first physical key area 301 and the touch display 200 are located on the same side of the housing 100, and the first physical key set is located outside the touch display 200, and for convenience of description, the side of the housing 100 where the touch display 200 and the first physical key set are located is the display control side 110.

Of course, the first physical key set and the touch display 200 may also be disposed on different sides. In order to make the first physical key group occupy as little area as possible on the display control side 110, important physical keys that are of interest to the user are placed on the first physical key pad 301, leaving more room for the touch display 200, and the touch display 200 is made larger to better present clinical information data required by the patient during treatment.

The first entity keypad 301 has entity keys of comparative interest to the user.

The entity key of the user's interest may be an entity key with high emergency and high risk, such as an operation key related to defibrillation, that is, an entity key with high emergency and high risk, because the patient will be at risk for life if defibrillation treatment is not performed rapidly during emergency operation. By only keeping the entity keys which are concerned by the user, the interface of the first entity key area is also relatively simple, the user can quickly find the required entity keys, and misoperation is avoided.

In this embodiment, the first entity key group includes operation keys (such as 321, 322, 323, etc.) associated with defibrillation, and the operation keys correspond to specific operation tasks under the defibrillation function.

The three physical keys of the energy adjustment key 323, the charge key 322, and the discharge key 321 are core operations involved in defibrillation, and in order to make the first physical key group occupy as little area as possible of the display control side 110, the operation keys may include at least one of the energy adjustment key 323, the charge key 322, and the discharge key 321. Note that, the energy adjustment key 323 is used to adjust energy (shock joule) in the defibrillation function, the charge key 322 is used to control a charge operation in the defibrillation function, and the discharge key 321 is used to control discharge in the defibrillation function.

For the specific composition of the operation keys, in one embodiment, the operation keys may include only the discharge key 321, in other embodiments, the operation keys may include the energy adjustment key 323, and the discharge key 321, or, the operation keys may include three of the energy adjustment key 323, the charge key, and the discharge key 321.

And triggering the operation key, and directly reaching a treatment page corresponding to the operation key. Specifically, when the target operation key (selected operation key) is triggered, the controller controls the touch display screen 200 to directly display or display a treatment page related to the target operation key after confirmation. For example, when energy adjustment key 323 is activated, it will be entered directly or confirmed into a treatment page associated with energy adjustment under defibrillation function; when the charge key 322 is triggered, the user can directly enter or confirm the charge key to enter a treatment page containing a charge operation under the defibrillation function; when the discharge key 321 is activated, it will be entered directly or after confirmation into the treatment page associated with the discharge operation under the defibrillation function.

In this way, the user can quickly enter the treatment page of the related defibrillation operation through the operation key to directly perform the related operation, breaking the concept of the traditional mode-first switching and then operation, for example, if the user wants to enter the discharging operation in the defibrillation mode, in the embodiment, the user does not need to enter the defibrillation mode first in the non-defibrillation mode (such as the monitoring mode), then executes the corresponding operation task in the defibrillation mode, and directly enters the treatment page related to the discharging operation in the defibrillation function by touching the release key 321, so that the defibrillation operation is started more quickly and simply.

When the target operation key is set to be triggered, the controller may directly control the touch display screen 200 to display a page related to the target operation key, without executing a specific operation under the defibrillation function corresponding to the target operation key, or when the target operation key is triggered, the controller may control the medical device to execute a specific operation under the defibrillation function corresponding to the target operation key, and control the touch display screen 200 to display a treatment page related to the target operation key. In the former case, for example, when the energy increase key in the energy adjustment key 323 is activated, the touch display screen 200 displays a treatment page related to energy, directly controls the treatment page to display an originally set energy value without increasing the energy value. In the latter case, for example, when the energy increase key in the energy adjustment key 323 is activated, the touch display screen 200 displays a treatment page related to energy while controlling the energy increase by a predetermined value.

When the target operation key is set to be triggered and the controller controls the touch display screen 200 to display the treatment page related to the target operation key after confirmation, the controller needs to control the touch display screen 200 to display a confirmation key for confirming whether to enter the treatment page related to the target operation key or not so as to allow an operator to perform confirmation operation.

Specifically, when the target operation key is triggered, if the medical device is performing a non-defibrillation operation (e.g., a pacing operation), the controller controls the touch display screen 200 to display a confirmation key for confirming whether to enter a treatment page related to the target operation key. And/or, when the target operation key is related to manual defibrillation, and when the target operation key is triggered, if the medical device is performing an automatic defibrillation operation, the controller controls the touch display screen 200 to display a confirmation key for confirming whether to enter a treatment page related to manual defibrillation.

The controller controls the touch display screen 200 to display a confirmation key for confirming whether to enter a treatment page related to a target operation key, and can prevent a user from touching by mistake, thereby making an operation safer.

In the above description, the first entity key group includes the operation keys, it should be noted that the first entity key group may include only the operation keys, or may include at least one of the function keys and the other entity keys related to the treatment while including the operation keys.

When the first entity key group includes a function key, the function key is an automatic defibrillation key 330 for starting an automatic defibrillation function, and when the automatic defibrillation key 330 is triggered, the controller controls the touch display screen 200 to display a treatment page related to automatic defibrillation or controls the touch display screen 200 to display a confirmation key for confirming whether to enter the treatment page related to automatic defibrillation.

By setting the operation key and the automatic defibrillation key 330 at the same time, the entity key can not only directly reach the core operation under the manual defibrillation function by one key, but also directly reach the automatic defibrillation function by one key, and basically covers most functions under the defibrillation function.

The first physical key set may not include a manual defibrillation key since the treatment page for manual defibrillation-related operations may be accessed directly through the operating key. It should be noted that, the manual defibrillation key refers to a physical key that enters a page related to manual defibrillation after triggering, but specific operations, such as a charging operation, a discharging operation, and the like, are not directly performed.

When the manual defibrillation key is not included, the space of the first entity key set can be saved. In particular, when the touch display screen 200 and the first physical key group are located on the display control side 110 together, the manual defibrillation key is omitted, so that a larger space can be reserved for arranging the touch display screen 200, and therefore, the area of the touch display screen 200 can be further enlarged, and the large-screen display function can be realized. A larger display area means that more, more complete information can be displayed, and also more convenient for the user to manipulate and view.

In one embodiment, the function selection is automatic only for defibrillation key 330, thus ensuring that the defibrillation function is complete and that as few physical keys as possible are provided.

When the first entity key group includes other entity keys, the number of other entity keys is one or 2. More specifically, other physical keys include one or both of power key 310 and rotary encoder 340.

It should be noted that, the power key 310 may be separately disposed in the housing 100 other than the first physical key pad 301, separate from the first physical key set, and the function of the power key 310 may be integrated into the operation key, for example, by pressing the operation key for opening and closing the medical device. Or the power-on is started by pressing the operation key for a short time, the operation key is further pressed for a short time in the power-on state, the specific operation task corresponding to the operation key is executed, and further, the power-off is performed by pressing the operation key for a long time.

Rotary encoder 340 is used in place of cursor movement and confirmation. The rotary encoder 340, as a means for replacing cursor movement and confirmation, can keep the medical device in normal use when a problem occurs in the touch function of the display screen.

In this embodiment, the number of entity keys in the first entity key group is reduced as much as possible, the operation keys are controlled to be within three, the other entity keys are controlled to be within two, and the types of keys in the first entity key group are limited to be within 3 types (i.e., the operation keys, the other entity keys and the function keys). The space left after omitting some unnecessary keys may provide a larger installation space for the touch display screen 200.

The number and arrangement of the entity keys in the first entity key group are improved.

With continued reference to fig. 1-11, the first physical keypad 301 is located on one side of the touch display 200. The touch display 200 is disposed side by side with the first physical key set. It should be noted that the keys in the first physical key group are sequentially arranged in a row or a column, so that the first physical keypad 301 occupies as little space as possible on the housing 100.

In addition, by the design of the first physical key set, the area of the touch display screen 200 exposed on the display control side 110 is not less than one half of the total area of the display control side 110, or not less than two thirds of the total area of the display control side 110, so as to further realize the large screen display of the touch display screen 200.

Further, specific positions of the touch display 200 and the physical key group are also defined.

1-11, a side edge of the touch display screen 200, which is close to the first physical key set, is a first side edge, and other side edges of the touch display screen 200, except for the first side edge, are second side edges, where a shortest distance between the second side edge and an outermost side edge of the display control side 110 is greater than or equal to 10 mm and less than or equal to 15 mm, so as to further realize large screen display of the touch display screen 200.

More specifically, as described above, the area where the first physical key group is located is the first physical key area 301, and the shortest distance between the side edge of the side of the first physical key area 301 facing away from the touch display screen 200 and the outermost edge of the display control side 110 is greater than or equal to 10 mm and less than or equal to 15 mm, so as to further realize the large screen display of the touch display screen 200.

The shortest maximum distance between the edge of the first physical key area 301 and the physical keys in the first physical key area 301 is no more than 15 mm, which further ensures that the first physical key group occupies the area of the display control side 110, and realizes the large screen display of the touch display screen 200.

Further, referring to fig. 10 and 11, in one embodiment, the method further includes a second physical key set 350, where the second physical key set 350 is an auxiliary key set. The touch display 200 and the second physical key set 350 are disposed on the same side, and the second physical key set 350 is disposed outside the touch display 200. As described above, the side edge of the touch display screen 200 facing the first physical key set is the first side edge, the other side edges of the touch display screen 200 except the first side edge are the second side edges, and the second physical key set 350 (i.e. the auxiliary physical key set) is disposed in the area corresponding to the display control side 110 and the second side edge. The second physical key set 350 is disposed outside the display area of the touch display screen 200, and adds some auxiliary control functions without affecting the display area of the touch display screen 200, thereby improving the user's convenience of operation.

In this embodiment, the second set of entity keys 350 is functionally different from the first set of entity keys, and the keys within the auxiliary set of entity keys are entity keys that are not associated with defibrillation operations, such as lead switch keys, adult and child mode switch keys, and the like.

Wherein the outer surface of the second physical key set 350 is the same or similar to the color of the surface of the medical device on which the second physical key set 350 is provided, or the outer surface of the second physical key set 350 is substantially flush with the surface of the medical device on which the second physical key set 350 is provided, i.e. the second physical key set 350 is weakened in color vision or shape vision with respect to the first physical key set. It will be appreciated that the appearance color of the second physical key set 350 is the same as or similar to the color of the surface of the medical device 1 on which the second physical key set 350 is disposed, so that the second physical key set 350 can be visually consistent with or close to the visual effect of other areas of the housing 100, and can be visually unified with the touch display screen 200, so as to avoid the second physical key set 350 from being clearly distinguished from the touch display screen 200, and a greatly simplified design style with a large screen is shown on the display control side 110.

Referring to fig. 12, in the embodiment of the present application, the medical device 1 may further include a recorder for timely printing the related information. The display control side 110 is provided with a paper outlet 120, and the recorder is blocked at the rear of the display control side 110 and outputs paper through the paper outlet 120. The recorder is not shown in the figure because it is hidden. In this embodiment, the recorder is hidden behind the display control side 110, especially behind the touch display screen 200, so that the characteristics of the flat structure of the touch display screen 200 are fully utilized, and therefore, the touch display screen 200 has larger display and touch space on the display control side 110, and further effects of large-screen display and operation are achieved.

Referring to fig. 12, the paper outlet 120 is located below the touch display screen 200. The design can reserve a more square area for the touch display screen 200, and avoid influencing the screen setting of the touch display screen 200.

Of course, the paper outlet 120 may be disposed at other positions than the display control side 110, such as the back, side, and top of the housing 100 (the front of the housing 100 is the display control side 110), which is not particularly limited in this application.

In addition, in addition to the improvement of the first physical key group by the above embodiments to increase the area of the touch display screen 200, the display content and the touch function of the touch display screen 200 are further improved, so as to achieve the extreme simplicity of the display interface of the touch display screen 200.

When the touch display screen 200 displays a defibrillation-related treatment page, such as a treatment page related to defibrillation displayed by pressing an operation key or an automatic defibrillation key, the treatment page may include three sub-buttons of manual defibrillation, automatic defibrillation and pacing, as shown in fig. 13 and 14.

Each sub-key can be selected and a label page corresponding to the selected sub-key is displayed on the treatment page, and the label pages corresponding to the plurality of sub-keys can be displayed in a switching mode. Fig. 13 shows the corresponding presentation interface under the manual defibrillation sub-key, and fig. 14 shows the corresponding presentation interface under the pacing sub-key.

In this embodiment, the functions of pacing, manual defibrillation, automatic defibrillation and the like are grouped by the treatment page, and the defibrillation function can be quickly and flexibly accessed by combining the functions of the one-key direct treatment page of the operation key. For example, the user can enter a treatment page including three sub-keys of manual defibrillation, automatic defibrillation and pacing by one key through any key of the operation keys, select a required sub-key through a touch control mode, and enter a label page corresponding to the sub-keys for operation.

Of course, the treatment page triggered by the operation key may not include the three sub-keys, or may include only one or two sub-keys. Still alternatively, the treatment page triggered by the operation key may display only the treatment page related to the specific operation task of the operation key, for example, as described above, the treatment page related to energy adjustment is displayed under the energy adjustment key 323, the treatment page related to charge is displayed under the charge key 322, and the treatment page related to discharge is displayed under the discharge key 321.

Further, besides the treatment page is reached through the entity key, the treatment page can also be reached through the virtual key on the display interface. Referring to fig. 15-17, the display interface of the touch display screen 200 displays a monitoring interface (as shown in fig. 15), a twelve lead analysis interface (as shown in fig. 16), an ultrasound imaging interface (as shown in fig. 17), etc. when the treatment page is not displayed. The touch display screen 200 displays a treatment entrance button 410, and when the treatment entrance button 410 is selected, the controller controls the touch display screen 200 to display a treatment page related to the treatment entrance button 410.

After entering the treatment page via the treatment entry key 410, three sub-keys of manual defibrillation, automatic defibrillation and pacing may be displayed on the treatment page as well as entering the treatment page via the operation key, for example. And each sub-key can be selected and a label page corresponding to the selected sub-key is displayed on the treatment page, and the label pages corresponding to the plurality of sub-keys can be displayed in a switching mode.

By setting the treatment entrance key 410 and corresponding the treatment entrance key 410 to a plurality of different function keys (such as pacing, manual defibrillation and automatic defibrillation), the function keys on the touch display screen 200 are all virtual keys, so that a plurality of function keys do not need to be set on the main display interface, thereby saving the space of the main display interface and displaying more focused information of the user in a larger area. Moreover, by the therapy entry key 410, the user can quickly perform defibrillation therapy operation by quickly switching from another page (e.g., guardian page) to the relevant interface under the defibrillation function.

Further, the treatment entry key 410 is a virtual task key related to defibrillation, the virtual task key corresponds to a specific operation task under the defibrillation function, and when the virtual task key is triggered, the control unit controls the touch display screen 200 to display a treatment page related to the virtual task key, or controls the touch display screen 200 to display a treatment page related to the virtual task key, and controls the medical device to execute a specific operation under the defibrillation function corresponding to the virtual task key.

With continued reference to fig. 15-17, the therapy entry key 410 may be a defibrillation energy key, the defibrillation energy key being selected, the controller controlling the touch-sensitive display screen 200 to display a therapy page related to manual defibrillation energy adjustment, and defibrillation energy adjustment may be performed on the therapy page. The defibrillation energy button may have an energy value (e.g., 200J) identified thereon, the defibrillation energy button selected, the treatment page associated with energy adjustment entered, and the current energy set to the energy value displayed on the defibrillation energy button.

Alternatively, when the defibrillation energy button is selected, the touch display screen 200 displays a treatment page related to energy adjustment, and simultaneously controls the energy to increase by a predetermined value.

Alternatively, in one embodiment, the therapy entry key 410 may be a manual defibrillation function key, an automatic defibrillation function key, or a pacing function key; when the treatment portal button 410 is a manual defibrillation function button and the manual defibrillation function button is selected, the controller controls the touch display screen 200 to display a treatment page related to manual defibrillation; when the therapy entry key 410 is an automatic defibrillation function key and the automatic defibrillation function key is selected, the controller controls the touch display screen 200 to display a therapy page related to automatic defibrillation; when the therapy entry key 410 is a pacing function key and the pacing function key is selected, the controller controls the touch display screen 200 to display a therapy page related to pacing.

By setting the type of the therapy entry key 410, a therapy page of a specific operation task related to defibrillation can be quickly and accurately entered, and compared with a therapy page including a plurality of sub-keys (including three sub-keys of manual defibrillation, automatic defibrillation and pacing) entered through the therapy entry key 410, the embodiment can omit the intermediate reselection process, and more quickly reach the therapy page of the operation task related to defibrillation. Therefore, the type of the specific operation task which is more frequently used or more important can be set as the type of the treatment entry key 410 according to the requirements of the application scenario, so that the treatment page of the specific operation task can be reached through the treatment entry key 410.

In the above embodiments, various ways of quickly entering a treatment page under defibrillation function or a treatment page of a specific operation related to defibrillation are shown. After entering these treatment pages, if a switch to a page other than the defibrillation function is required (e.g., a guardian page, etc.), the current treatment page may be closed by a close button 420 (see fig. 13) on the display interface. The close button 420 may be controlled by touch or by the rotary encoder 340 described above.

By setting the treatment entrance key 410 and setting a plurality of switchable label pages on the treatment page, one key can directly reach corresponding operation functions, a traditional mode selection key is removed, a plurality of treatment tools are integrated on one treatment page, the occupied space of the key on a display interface is reduced, and the display area of main information in the display page is increased.

In order to further simplify the layout of the display interface of the medical device, in the embodiment of the present application, some virtual keys may be centrally managed in a folded manner, or whether the keys are displayed or not may be adjusted according to the specific situation.

Referring to fig. 15, the touch display screen 200 includes a function key area (the lowest row of the page) for displaying function keys of the medical device, the function keys can be selected, and the current page can be switched to a function page corresponding to the selected function keys.

The function key area comprises treatment function keys, the treatment function keys are selected, treatment function pages are displayed on a display interface of the display screen, and the treatment function pages cover at least part of the function key area; the treatment function page covers at least part of the function key area. As shown in the therapeutic function pages of fig. 13 and 14, the function keys below the pages except for the "main menu" are all covered, which allows more display area or larger fonts in the therapeutic function page to display the contents in the therapeutic function page. It should be noted that the treatment function keys include a key associated with defibrillation pacing, a key associated with an infusion pump, a key associated with ECOM, and the like.

The function key area also comprises auxiliary function keys and/or task function keys, so that the method is convenient to adapt to different application scenes. Wherein the auxiliary function key is such as at least one of the following: an ultrasound key, a twelve lead electrocardiography key, a traumatic brain injury monitoring key (as shown in figure 15 as the "> > >" key would appear upon selection), a video key (as shown in figure 15 as the view key); task function keys such as a main menu key (e.g., the main menu key shown in fig. 15), a record key (e.g., the record key shown in fig. 15), a scoring key (e.g., the scoring tool key shown in fig. 15).

Further, in order to increase the screen display area and maintain the complete functions, part or all of the function keys are displayed in a folding manner.

In one embodiment, the function keys include a therapy entry key (which is one of the therapy function keys) as described above, and the other function keys, the therapy entry key being associated with defibrillation and/or pacing related pages, some or all of the other function keys being capable of being collapsed into one key for display and floating display on the display interface of the touch screen display. More specifically, the whole of other functional keys can be folded into one key for display, and the other functional keys can be divided into a plurality of groups for display. After the keys formed by the plurality of function keys are selected, the corresponding function key list can be unfolded.

In one embodiment, the function keys include a treatment entry key as described above, and an auxiliary function key; when the auxiliary function key is selected, displaying an auxiliary function page corresponding to the selected auxiliary function key; the auxiliary function page is provided with a plurality of auxiliary tool keys; all auxiliary tool keys are retracted as one key and are displayed on the display interface of the touch screen display screen in a floating mode, and/or functional keys except for the treatment entrance key are retracted as one key and are displayed on the display interface of the touch screen 200 in a floating mode.

When the plurality of auxiliary tool keys are retracted to form one key, as shown in fig. 18-19, the plurality of auxiliary tool keys (function 1 to function 5) are retracted to form auxiliary tool shortcut function keys, and the auxiliary tool shortcut function keys are selected to be capable of expanding or collapsing the auxiliary tool key list. The example shown in fig. 18 is a state of folding the auxiliary tool key list, and the example shown in fig. 19 is a state of unfolding the auxiliary function key list. The auxiliary tool shortcut function keys can be arranged in any direction around the function key area, such as upper left, middle left, upper right, middle right, lower right and the like. The auxiliary function keys include, but are not limited to, ultrasonic/12 guide/TBI (traumatic brain injury monitoring)/video/scoring and other auxiliary function keys.

When a plurality of function keys are collapsed to form one key, as shown in fig. 20 and 21, auxiliary function main function areas such as ultrasound/12 lead/TBI (traumatic brain injury monitoring)/video/scoring, and parameter areas are displayed on the page; the auxiliary tool keys are arranged in the last line below the page, covering all function keys except the treatment entry key (200J). The function keys except the treatment entry key are all collapsed into one main function navigation key, displayed below the parameter area (this position is exemplary), and when the main function navigation key is selected, a function key list (such as the function keys shown in connection with fig. 20 and 21 above) can be expanded, and when the main function navigation key is clicked again, the function key list can be collapsed. Here, the example shown in fig. 20 is a state of collapsing the function key list, and the example shown in fig. 21 is a state of expanding the function key list. The display device can be flexibly presented in any direction in the interface after being unfolded, such as upper left, middle left, upper right, middle right, lower right and the like.

The treatment entrance keys and the auxiliary tool keys under the auxiliary function page are displayed in a folding mode, so that the integrity of functions supported by the touch display screen is ensured, the related keys occupy the minimum space, and the display page is simplified.

To sum up: according to the invention, by removing the concept of the mode, the functions of automatic defibrillation, manual defibrillation, pacing and the like are decomposed into different keys/keys to be directly executed, so that one key can directly reach an operation page, and the operation flow is simplified.

Meanwhile, a plurality of keys are displayed on the display interface in a folding mode, and the layout of the touch display screen and the physical keys is adjusted, so that the number of the physical keys is greatly simplified, the physical keys are combined with the touch screen, the operation efficiency is improved to the greatest extent, and key information to be displayed is presented in the largest area occupation ratio.

The invention also relates to a medical equipment control method, which is used for controlling medical equipment and is characterized in that the medical equipment comprises a touch display screen 200, a first entity key group and a controller; the first entity key group comprises operation keys related to defibrillation, the operation keys comprise a discharging key 321, an energy adjusting key 323 and a charging key 322, and the operation keys correspond to specific operations under the defibrillation function; the method comprises the following steps:

when the target operation key is triggered, the controller controls the touch display screen 200 to display a treatment page related to the target operation key, or controls the medical device to execute a specific operation under the defibrillation function corresponding to the target operation key, and controls the touch display screen 200 to display a treatment page related to the target operation key, or controls the touch display screen 200 to display a confirmation page for confirming whether to enter the treatment page related to the target operation key.

The method further comprises the steps of: when the target operation key is activated, if the medical device is performing a non-defibrillation operation, the controller controls the touch display screen 200 to display a confirmation key for confirming whether to enter a treatment page related to the target operation key.

The method further comprises the steps of: when the target operation key is related to manual defibrillation and when the target operation key is triggered, if the medical device is performing an automatic defibrillation operation, the controller controls the touch display screen 200 to display a confirmation key for confirming whether to enter a treatment page related to manual defibrillation.

The first entity key set includes a therapy-related function key, the function key being an automatic defibrillation key, the method further comprising: when the automatic defibrillation key is triggered, the controller controls the touch display screen 200 to display a treatment page related to the automatic defibrillation, or controls the touch display screen 200 to display a confirmation key for confirming whether to enter the treatment page related to the automatic defibrillation.

The method further comprises the steps of: when the treatment page is not displayed, the touch display screen 200 controls the display screen to display a treatment entrance key capable of entering the treatment page by one key.

The display interface of the touch display screen comprises a function key area, wherein the function key area is used for displaying function keys of the medical equipment, and the method further comprises the step of controlling the current page to be switched to a function page corresponding to the selected function key when the function key is selected.

The function keys include a therapy entry key associated with a defibrillation and/or pacing related therapy page, and other function keys, the method further comprising: and part or all of the other function keys are controlled to be folded into one key to be displayed and displayed on the touch screen in a floating mode.

The control method related to the medical device includes all the methods executed by the controller in the above medical device, and will not be described herein.

The foregoing description of specific examples has been presented only to aid in the understanding of the present application and is not intended to limit the present application. Variations of the above embodiments may be made by those of ordinary skill in the art in light of the concepts of the present application.

Claims (34)

1. A medical device, comprising:

a touch control display screen which can display a treatment page,

the first entity key group is arranged on the first side outside the touch display screen;

the first physical key group includes only defibrillation-related operation keys or only defibrillation-related operation keys and at least one of therapy-related function keys and other physical keys;

the operation keys comprise only a discharging key, only a discharging key and an energy adjusting key, or only a discharging key, an energy adjusting key and a charging key;

The number of other entity keys is one or two.

2. The medical device of claim 1, further comprising a controller, connected to the touch display screen and the physical key set, respectively, for processing data and receiving instructions;

when a target operation key is triggered, the controller controls the touch display screen to display a treatment page related to the target operation key, or controls the medical equipment to execute specific operation under a defibrillation function corresponding to the target operation key and controls the touch display screen to display the treatment page related to the target operation key, or controls the touch display screen to display a confirmation key for confirming whether to enter the treatment page related to the target operation key.

3. The medical device of claim 2, wherein the controller controls the touch-sensitive display to display a confirmation key for confirming whether to enter a treatment page associated with the target operation key if the medical device is performing a non-defibrillation operation when the target operation key is activated.

4. The medical device of claim 2, wherein when the target operation key is associated with manual defibrillation and when the target operation key is triggered, the controller controls the touch-sensitive display screen to display a confirmation key for confirming whether to enter a treatment page associated with manual defibrillation if the medical device is performing an automatic defibrillation operation.

5. The medical device of claim 1, wherein the function key is an automatic defibrillation key, and wherein the controller controls the touch-sensitive display to display a treatment page related to automatic defibrillation or controls the touch-sensitive display to display a confirmation key for confirming whether to enter the treatment page related to automatic defibrillation when the automatic defibrillation key is triggered.

6. The medical device of claim 1, wherein the function keys do not include manual defibrillation keys.

7. The medical device of claim 1, wherein the other physical keys comprise one or both of a power key and a rotary encoder.

8. The medical device of claim 1, further comprising a second set of physical keys disposed on a second side outside the touch display screen, the second set of physical keys being weakened in color vision or shape vision relative to the first set of physical keys;

the exterior color of the second physical key set is the same as or similar to the color of the surface of the medical device provided with the second physical key set, or the outer side surface of the second physical key set is basically flush with the surface of the medical device provided with the second physical key set.

9. The medical device of claim 1, wherein the therapy page comprises three sub-buttons for manual defibrillation, automatic defibrillation and pacing,

each sub-key can be selected and a label page corresponding to the selected sub-key is displayed on the treatment page, and the label pages corresponding to the three sub-keys are displayed in a switchable manner.

10. The medical device of claim 1, wherein the touch display screen displays a treatment entry key capable of one-touch entry into the treatment page when the treatment page is not displayed.

11. The medical device of claim 10, wherein the therapy entry keys include a manual defibrillation function key, an automatic defibrillation function key, and/or a pacing function key;

when the treatment entrance key is a manual defibrillation function key and the manual defibrillation function key is selected, the controller controls the touch display screen to display a treatment page related to manual defibrillation;

when the treatment entrance key is an automatic defibrillation function key and the automatic defibrillation function key is selected, the controller controls the touch display screen to display a treatment page related to automatic defibrillation;

When the treatment entrance key is a pacing function key and the pacing function key is selected, the controller controls the touch display screen to display a treatment page related to pacing.

12. The medical device of claim 10, wherein the therapy entry key comprises a virtual task key associated with defibrillation, the virtual task key corresponding to a specific operation under a defibrillation function, the controller controlling the touch display to display a therapy page associated with the virtual task key when the virtual task key is triggered, or controlling the touch display to display a therapy page associated with the virtual task key and controlling the medical device to perform a specific operation under a defibrillation function corresponding to the virtual task key.

13. The medical device of claim 12, wherein the virtual task key comprises a manual defibrillation energy key, and wherein the controller controls the touch-sensitive display screen to display a treatment page associated with manual defibrillation energy adjustment when the manual defibrillation energy key is selected, and wherein manual defibrillation energy adjustment is available on the treatment page.

14. The medical device of claim 1, wherein the touch display screen includes a function key area for displaying function keys of the medical device, and when the function keys are selected, a current page is switchable to a function page corresponding to the selected function keys.

15. The medical device of claim 14, wherein the function keys include a therapy entry key, and other function keys, the therapy entry key associated with defibrillation and/or pacing related therapy pages, part or all of the other function keys being retractable as one key for display and floating display on the touch screen display.

16. The medical device of claim 14, wherein the function keys include a treatment entry key, and an auxiliary function key; when the auxiliary function key is selected, the controller controls the touch display screen to display an auxiliary function page corresponding to the selected auxiliary function key; the auxiliary function page comprises a plurality of auxiliary tool keys; and part or all of the auxiliary tool keys can be folded into one key to be displayed and displayed on the touch screen display screen in a floating mode.

17. The medical device of any one of claim 1 to 16,

the touch display screen and the first entity key group are arranged side by side left and right or up and down.

18. The medical device of any one of claims 1-16, wherein the keys within the first set of physical keys are arranged in a row or a column in sequence.

19. The medical device of any one of claims 1-16, wherein the touch display and the first physical key set are disposed on a same side surface of the medical device, and a side surface of the medical device on which the touch display and the first physical key set are disposed is a display control side;

the medical equipment comprises a recorder, a paper outlet is formed in the display control side, and the recorder is blocked at the rear of the display control side and outputs paper through the paper outlet.

20. The medical device of claim 19, wherein the paper outlet is located below the touch display screen.

21. The medical device of any one of claims 1-16, wherein the touch display and the first physical key set are disposed on a same side surface of the medical device, and a side surface of the medical device on which the touch display and the first physical key set are disposed is a display control side;

The area of the touch display screen exposed on the display control side is not less than one half of the total area of the display control side or not less than two thirds of the total area of the display control side.

22. The medical device of any one of claims 1-16, wherein the touch display and the first physical key set are disposed on a same side surface of the medical device, and a side surface of the medical device on which the touch display and the first physical key set are disposed is a display control side;

the side edge of the touch display screen, which is close to the first entity key group, is a first side edge, the other side edges of the touch display screen, except for the first side edge, are second side edges, and the shortest distance between the second side edge and the outermost side edge of the display control side is more than or equal to 10 mm and less than or equal to 15 mm.

23. The medical device of any one of claims 1-16, wherein the area where the first physical key set is located is a first physical key area, and a shortest distance between a side edge of a side of the first physical key area facing away from the touch display screen and an outermost edge of the display control side is greater than or equal to 10 mm and less than or equal to 15 mm.

24. The medical device of claim 23, wherein a maximum distance of the first physical keypad edge from a key within the first physical keypad is no more than 15 millimeters.

25. The medical device of any one of claims 8-16, wherein the keys within the second set of physical keys are keys unrelated to defibrillation operations.

26. A medical device, comprising:

the touch control display screen, the first entity key group and the controller are respectively connected with the touch control display screen and the first entity key group and used for processing data and receiving and sending instructions;

the display interface of the touch display screen can display a treatment page;

the first entity key group comprises operation keys related to defibrillation, wherein the operation keys comprise a discharge key, an energy adjustment key and a charging key, and the operation keys correspond to specific operation under the defibrillation function;

when a target operation key is triggered, the controller controls the touch display screen to display a treatment page related to the target operation key, or controls the medical equipment to execute specific operation under a defibrillation function corresponding to the target operation key and controls the touch display screen to display the treatment page related to the target operation key, or controls the touch display screen to display a confirmation page for confirming whether to enter the treatment page related to the target operation key.

27. The medical device of claim 26, wherein the touch display is disposed side-by-side with the first physical key set.

28. A medical device control method for controlling a medical device, wherein the medical device comprises a touch display screen, a first entity key group and a controller; the first entity key group comprises operation keys related to defibrillation, wherein the operation keys comprise a discharge key, an energy adjustment key and a charging key, and the operation keys correspond to specific operation under the defibrillation function;

the method comprises the following steps:

when a target operation key is triggered, the controller controls the touch display screen to display a treatment page related to the target operation key, or controls the medical equipment to execute specific operation under a defibrillation function corresponding to the target operation key and controls the touch display screen to display the treatment page related to the target operation key, or controls the touch display screen to display a confirmation page for confirming whether to enter the treatment page related to the target operation key.

29. The method of claim 28, wherein the method further comprises:

When the target operation key is triggered, if the medical equipment is executing a non-defibrillation operation, the controller controls the touch display screen to display a confirmation key for confirming whether to enter a treatment page related to the target operation key.

30. The method of claim 28, wherein the method further comprises:

when the target operation key is related to manual defibrillation and the target operation key is triggered, if the medical equipment is executing automatic defibrillation operation, the controller controls the touch display screen to display a confirmation key for confirming whether to enter a treatment page related to manual defibrillation.

31. The method of claim 28, wherein the first set of entity keys includes a therapy-related function key, the function key being an automatic defibrillation key, the method further comprising:

when the automatic defibrillation key is triggered, the controller controls the touch control display screen to display a treatment page related to automatic defibrillation, or controls the touch control display screen to display a confirmation key for confirming whether to enter the treatment page related to automatic defibrillation.

32. The method of claim 28, wherein the method further comprises:

And when the treatment page is not displayed, the touch control display screen is controlled to display a treatment entrance key which can enter the treatment page by one key.

33. The method of claim 28, wherein,

the display interface of the touch display screen comprises a function key area which is used for displaying the function keys of the medical equipment,

the method further comprises the steps of:

and when the function key is selected, controlling the current page to be switched to the function page corresponding to the selected function key.

34. The method of claim 33, wherein the function keys include a therapy entry key associated with defibrillation and/or pacing related therapy pages, and other function keys,

the method further comprises the steps of:

and controlling part or all of the other functional keys to be folded into one key to be displayed and floating-displayed on the touch screen display screen.

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