CN110968207A - Rocker-type touch device, touch-enabled operation device, and touch device operation method - Google Patents

Abstract

According to the rocker type touch equipment and the touch operating equipment, the touch component is relatively fixed on the surface of the touch panel through the support or the knob by the touch equipment, so that an operator does not need to take or place the touch component when using the rocker type touch equipment and the touch operating equipment, the operation is convenient, and the risk that the touch component falls off is avoided. For the touch equipment provided with the knob, the invention also provides a touch equipment operation method, which can trigger the appointed program and increase the operability of the touch equipment.

Description

Rocker-type touch device, touch-enabled operation device, and touch device operation method

Technical Field

The present invention relates to the field of electronic products, and in particular, to a rocker-type touch device, a touch-enabled device, and a touch device operating method.

Background

With the development of the medical industry, more and more operations, monitoring or other clinical operations begin to reflect various physiological parameters or medical images directly to the operator for the reference of medical staff in the clinical operations by means of a mobile screen or other display devices. In order to facilitate the operation, the corresponding display device is usually equipped with operation structures such as keys and buttons, or directly performs a touch operation by directly using a touch panel. However, in many cases, especially during surgery, it is difficult for an operator to operate the display device with both hands, and the work that can be performed with the device with one hand is limited; in addition, most of the medical staff wear rubber gloves when performing operations and examinations, and it is inconvenient to operate the touch panel.

Therefore, it is proposed to operate the touch panel using a capacitive pen. However, the use of capacitive pens brings with it a number of disadvantages: firstly, the capacitive pen can be operated more simply; and secondly, the capacitance pen is used as a relatively independent part, so that the capacitance pen is inconvenient to take and place in clinical operation and even has the risk of falling.

Disclosure of Invention

Accordingly, it is necessary to provide a rocker type touch device, a touch-operable device, and a touch device operating method, which are directed to the problem of inconvenience in operation of the conventional medical device.

The above purpose is realized by the following technical scheme:

a rocker-type touch apparatus comprising: the support is fixed on the surface of a touch panel on a host, the touch component penetrates through the support, and the touch component can rotate relative to the intersection point of the support and the touch component; the end part of the touch component is abutted against the surface of the touch panel and can slide along the surface of the touch panel.

In one embodiment, the touch assembly includes a rocking handle and a touch pen, the touch pen is connected to the rocking handle through a first elastic member, and the elastic force of the first elastic member makes the end of the touch pen always abut against the surface of the touch panel.

In one embodiment, the rocking handle is provided with a blind mounting hole, the touch pen is arranged in the blind mounting hole, and the first elastic piece is connected with the end part of the touch pen and the bottom surface of the blind mounting hole.

In one embodiment, the rocking handle is provided with a contact portion, the bracket is provided with a containing portion, and the containing portion is used for limiting the movement or rotation of the contact portion relative to the bracket, so that the intersection point of the bracket and the touch component is kept fixed.

In one embodiment, the outer surface of the contact part is an arc surface, and the inner surface of the accommodating part is a cylindrical surface.

In one embodiment, the touch panel further comprises a second elastic member, the second elastic member connects the swing handle and the bracket, and the elastic force of the second elastic member causes the swing handle to move towards the touch panel or has a tendency to move towards the touch panel.

In one embodiment, the rocking handle further comprises a first fixing sleeve, the first fixing sleeve is arranged between the bracket and the touch component, a boss is arranged on the rocking handle, and two ends of the second elastic piece are respectively connected with the first fixing sleeve and the boss.

The invention also provides touch operation equipment, which comprises a host and the rocker type touch equipment, wherein the rocker type touch equipment is arranged on the surface of the touch panel on the host and is used for performing touch operation on the touch panel.

In one embodiment, the touch control device further comprises a trigger device, wherein the trigger device is used for selecting a preset program in the host, and the preset program is used for controlling a result generated when the rocker type touch device performs touch operation on the touch control panel.

In one embodiment, the trigger device includes a knob or a key, and the knob or the key is disposed on the touch panel or the surface of the bracket.

The invention also provides a touch device operating method, which is characterized by comprising the touch device as claimed in any one of claims 8 to 10, and further comprising the following steps:

s100, presetting a first program to an Nth program in a host;

s200, operating a trigger device, and selecting and triggering one or more of a first program to an Nth program;

and S300, operating the rocker type touch equipment to enable the rocker type touch equipment to contact and stroke the surface of the touch panel.

In one embodiment, the trigger device includes a knob, and further includes the steps of:

s210, dividing a first area to an Nth area according to angles by taking a rotary center of a knob as a reference;

s220, dividing the range into a first angle range to an Nth angle range according to the rotation angle of the knob;

s230, rotating the knob to a designated angle or rotating the knob to a designated area, and triggering any one of the corresponding first program to the Nth program;

wherein, step S210 and step S220 are alternatively performed. In one embodiment, the step S230 includes:

s231, after the knob is rotated to a specified area or a specified angle of the knob is rotated, the staying time exceeds the specified time;

s232, after the knob is rotated to the designated area or the knob is rotated to the designated angle, the touch assembly is operated to touch the surface of the touch panel on the host;

wherein, step S231 and step S232 are alternatively performed.

The invention has the beneficial effects that:

according to the rocker type touch equipment and the touch operating equipment, the touch component is relatively fixed on the surface of the touch panel through the support or the knob by the touch equipment, so that an operator does not need to take or place the touch component when using the rocker type touch equipment and the touch operating equipment, the operation is convenient, and the risk that the touch component falls off is avoided. For the touch equipment provided with the knob, the invention also provides a touch equipment operation method, which can trigger the appointed program and increase the operability of the touch equipment.

Drawings

Fig. 1 is a schematic perspective view of a rocker-type touch device according to an embodiment of the invention;

fig. 2 is a perspective view of the rocker-type touch device shown in fig. 1 from another view direction;

fig. 3 is a front view of the rocker-type touch apparatus of fig. 1;

fig. 4 is a cross-sectional view of the rocker-type touch device of fig. 1;

fig. 5 is a cross-sectional view of the rocker-type touch device of fig. 1 after being rotated through a certain angle;

FIG. 6 is a schematic perspective view of a touch assembly in a rocker-type touch device according to an embodiment of the invention;

FIG. 7 is a cross-sectional view of the touch assembly of FIG. 6;

fig. 8 is a schematic perspective view of a middle bracket of a rocker-type touch device according to an embodiment of the invention.

Wherein:

a rocker-type touch device 100; abracket 200; theaccommodating portion 210; atouch assembly 300; shaking thehandle 310; ablind mounting hole 311; aboss 312; acontact portion 313; atouch pen 320; a firstelastic member 330; a secondelastic member 340; a first securingsleeve 350; the penpoint fixing sleeve 360.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below by way of embodiments with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The numbering of the components themselves, such as "first", "second", etc., is used herein only to distinguish between the objects depicted and not to have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings). In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Compared with the mode that touch equipment such as a capacitance pen and the like and a touch panel are designed separately in the existing medical touch operation equipment, the rocker type touch equipment provided by the invention has the advantages that the touch equipment is directly arranged on the surface of the touch panel, so that the problem that an operator directly operates the touch panel by hands and the touch equipment such as the capacitance pen and the like is inconvenient to operate is solved, the operation can be completed by one hand, and the rocker type touch equipment is simple and convenient to use.

Specifically, the rocker-type touch apparatus 100 shown in fig. 1 to 3, 7, and 8 includes: the touch panel comprises asupport 200 and atouch assembly 300, wherein thesupport 200 is fixed on the surface of a touch panel on a host, and thetouch assembly 300 is arranged on thesupport 200 in a penetrating way and can rotate relative to thesupport 200, so that thetouch assembly 300 can deflect at a certain angle around the intersection point of thetouch assembly 300 and thesupport 200; the end of thetouch device 300 abuts against the surface of the touch panel. When the touch panel is operated by using the existing touch equipment such as a capacitive pen and the like, the capacitive pen is relatively independent of the touch panel, the capacitive pen needs to be taken up for operation when in use, and the capacitive pen needs to be put back to a specific position after use; in some clinical situations, the capacitance pen is inconvenient to take up and put down, and the capacitance pen is in risk of falling during use, and particularly, the capacitance pen can have serious consequences when falling during an operation. In the rocker-type touch device 100 of the present invention, since thetouch member 300 and the touch panel are relatively fixed, thetouch member 300 can be directly rotated to perform related operations during use, and the operation is facilitated without picking up, putting down, and holding thetouch member 300.

In one embodiment, as shown in fig. 6 and 7, thetouch assembly 300 includes arocking handle 310 and astylus 320 connected by a firstelastic member 330, wherein thestylus 320 is closer to the touch panel than therocking handle 310. Thetouch assembly 300 and thebracket 200 can rotate and move with a small range, and the distance between the end of thetouch pen 320 and the touch panel changes when thetouch assembly 300 rotates because thebracket 200 is kept still. When the rotation angle of thetouch pen 320 is small, thetouch assembly 300 and thebracket 200 can be complemented by play; the tip of thestylus 320 may be out of contact with the touch panel when the rotation angle is too large. A firstelastic member 330 is disposed between the rockinghandle 310 and thestylus 320, and when the rotation angle is small, the firstelastic member 330 is always in a compressed state; when the rotation angle is larger, the firstelastic member 330 is extended, so that the end of thestylus 320 is always in contact with the touch panel.

Further, the rockinghandle 310 is provided with ablind mounting hole 311, thetouch pen 320 is disposed in theblind mounting hole 311, and the firstelastic member 330 connects the end of thetouch pen 320 and the bottom surface of theblind mounting hole 311. Generally, thestylus 320 is small in size due to cost issues, while the size of theswing handle 310 is large relative to thestylus 320 for ease of operation. In order to facilitate installation and ensure that thestylus 320 and the rocking handle 310 only slide along a certain direction without rotating, ablind installation hole 311 is formed in the rockinghandle 310, the inner diameter of the blind installation hole is equal to or slightly larger than the outer diameter of thestylus 320, the firstelastic member 330 is arranged between the end of thestylus 320 and the bottom surface of theblind installation hole 311, and theblind installation hole 311 can limit the movement of thestylus 320 and the firstelastic member 330 in the radial direction of thestylus 320.

For the rockinghandle 310 provided with theblind mounting hole 311, thestylus pen 320 may not be directly connected to the firstelastic member 330, but thestylus pen 320 may be restricted from being removed from theblind mounting hole 311 by providing the penpoint fixing sleeve 360 at the opening of theblind mounting hole 311. Only when the firstelastic member 330 is compressed, thestylus 320 strongly interacts with the firstelastic member 330.

In one embodiment, as shown in fig. 4, 6 and 8, the rockinghandle 310 is provided with acontact portion 313, thesupport 200 is provided with anaccommodating portion 210, theaccommodating portion 210 forms an enclosing or semi-enclosing structure, thecontact portion 313 is located in theaccommodating portion 210, and theaccommodating portion 210 and thecontact portion 313 are mainly used for limiting the rotation of thetouch assembly 300 and limiting the play of thetouch assembly 300 to a certain extent. In general, the touch panel faces upward or obliquely upward, and theaccommodating portion 210 and thecontact portion 313 are both located on a side of thesupport 200 facing away from the touch panel, so that thetouch device 300 always tends to approach the touch panel under the action of gravity; the cross-sectional dimension of thecontact portion 313 is larger than the dimension of a through hole for penetrating thetouch assembly 300 on thebracket 200, so as to limit the play of thetouch assembly 300 relative to thebracket 200; when the rocking component rotates to a certain angle, theaccommodating portion 210 contacts and stops thecontact portion 313, so that the rocking component cannot rotate continuously, and the end of thetouch pen 320 is prevented from being separated from the touch panel when the rotation angle is too large. In order to ensure the smoothness of rotation of thetouch assembly 300 and reduce the wear between the components, the outer surface of thecontact portion 313 is provided as an arc surface, and the inner surface of the receivingportion 210 is provided as a cylindrical surface.

In one embodiment, as shown in fig. 2 and 6, the rocking assembly further includes a secondelastic member 340, and the secondelastic member 340 connects the rockinghandle 310 and thestand 200. The secondelastic member 340 mainly has two functions: one is to limit the rotation and play of thetouch assembly 300 relative to the stand 200: the secondelastic member 340 is in a relaxed state in an initial state, when thetouch assembly 300 rotates or moves under an external force, the secondelastic member 340 is stretched or compressed or twisted, which always has a tendency to return to the relaxed state, and thetouch assembly 300 returns to the original position after the external force is removed; the greater the external force, the greater the resistance of the secondelastic member 340 to the movement, so as to limit the rotation and play of thetouch assembly 300 with respect to thestand 200. Secondly, the secondelastic member 340 is used to further adjust the contact force between thetouch pen 320 and the touch panel, so as to adjust the operation hand feeling during use.

Further, as shown in fig. 6 and 7, in order to facilitate the installation and replacement of the secondelastic element 340, thetouch assembly 300 further includes afirst fixing sleeve 350, thefirst fixing sleeve 350 is disposed between thebracket 200 and thetouch assembly 300, the rockinghandle 310 is provided with aboss 312, and two ends of the secondelastic element 340 are respectively connected to thefirst fixing sleeve 350 and theboss 312. Thefirst fixing cover 350 is connected to the rocking handle 310 through the secondelastic member 340, and can be shifted and rotated with respect to the rockinghandle 310; after the rocker-type touch device 100 is assembled, the secondelastic member 340 is located between theboss 312 and thefirst fixing sleeve 350, and thefirst fixing sleeve 350 is located between the secondelastic member 340 and thebracket 200, i.e., thefirst fixing sleeve 350 is floatingly connected to the rocking handle 310 through the secondelastic member 340. When thetouch device 300 rotates, the distance from the end of thetouch device 300 to the rotation center of thetouch device 300 is adjusted by the secondelastic member 340, so that the end of thetouch device 300 is always abutted against the surface of the touch panel. As shown in fig. 4 and 5, thetouch assembly 300 of fig. 5 can be considered to be obtained by rotating thetouch assembly 300 of fig. 4 by a certain angle, and when rotating, the secondelastic member 340 adjusts the relative position of thetouch assembly 300 with respect to the bracket by its own elasticity. Specifically, when thetouch assembly 300 rotates from the central position to the periphery, the secondelastic member 340 is compressed, the elastic force is increased, so that the rockinghandle 310 moves towards the touch panel or has a tendency to move towards the touch panel, the distance between the bottom of theinstallation blind hole 311 and the touch panel and the deformation amount of the firstelastic member 330 are reduced, the friction force between the end of thetouch pen 320 and the touch panel is kept within a reasonable range, the force required for rotating thetouch assembly 300 is adjusted, and the use hand feeling of the rocker-type touch device 100 is improved.

The invention also provides a touch operation device which comprises the rocker type touch device in the embodiment of the host, wherein the touch panel is arranged on the host, and the rocker type touch device is used for touching the touch panel and operating the touch panel.

In one embodiment, the touch-enabled device further includes a trigger device, the trigger device is configured to select a predetermined program in the host, and the predetermined program is configured to control a result generated when the rocker-type touch device performs a touch operation on the touch panel.

In one embodiment, the triggering device further includes a knob and/or a key, and the knob or the key may be disposed on the surface of the touch panel or the bracket, or sleeved on the touch component, or designed at another convenient location on the host. Because the touch pen can only perform operations such as clicking and sliding, in order to increase the functions of the rocker type touch equipment, one or more knobs/keys are additionally arranged on or near the rocker type touch equipment, and the host machine is subjected to various operations by operating the knobs or keys.

In the above embodiments, the touch panel and the touch pen may be a capacitive screen or a capacitive pen. The bracket or the knob may be fixed to the surface of the touch panel by gluing.

The invention also provides a touch device operation method aiming at the touch operation device, which comprises the following steps:

s100, presetting a first program to an Nth program in a host;

s200, operating a trigger device, and selecting and triggering one or more of a first program to an Nth program;

and S300, operating the rocker type touch equipment to enable the rocker type touch equipment to contact and stroke the surface of the touch panel.

Since the operation that the rocker type touch device can perform is relatively simple sliding or pressing, various programs are preset into the main body in order to increase the operability of the touch device. For example, the first program is a brush program, and when the first program is triggered, the rocker-type touch device slides along the surface of the touch panel to display a corresponding cabinet machine on the panel; the second program is a highlighting program, and the sliding of the rocker-type touch device along the surface of the touch panel highlights the stroked text.

Further, in order to conveniently select programs, the trigger device comprises a knob, and the following steps are added adaptively:

s210, dividing a first area to an Nth area according to angles by taking a rotary center of a knob as a reference;

s220, dividing the range into a first angle range to an Nth angle range according to the rotation angle of the knob;

s230, rotating the knob to a designated angle or rotating the knob to a designated area, and triggering any one of the corresponding first program to the Nth program;

wherein, step S210 and step S220 are alternatively performed.

It should be understood that the knob is only one way to select programs, and other ways to select programs, such as a case, a switch, or a region directly marked on the touch panel to correspond to a corresponding program, can be applied to the present invention.

Further, step S230 includes:

s231, after the knob is rotated to a specified area or a specified angle of the knob is rotated, the staying time exceeds the specified time;

s232, after the knob is rotated to the designated area or the knob is rotated to the designated angle, the touch assembly is operated to touch the surface of the touch panel on the host;

wherein, step S231 and step S232 are alternatively performed.

In summary, compared with the prior art, the rocker-type touch device, the touch device operation method and the touch-enabled operation device provided by the invention have at least the following advantages:

1. the touch equipment is fixed relative to the touch panel, can be operated by a single hand, and is simple and convenient to use.

2. Need not to pick up, put down touching equipment, avoided the risk that touching equipment dropped.

3. The knob and/or the key are/is additionally arranged, so that the operability of the touch equipment is improved.

The first embodiment is as follows:

the present embodiment provides a rocker-type touch apparatus 100, as shown in fig. 1, 7, and 8, which includes abracket 200 and a touch member 300: thebracket 200 is fixed on the surface of a touch panel on a host, thebracket 200 is integrally a cylindrical shell, a through hole is formed in thebracket 200, and thetouch component 300 penetrates through the through hole and is arranged in thebracket 200 and can move and rotate relative to thebracket 200; the end of thetouch device 300 abuts against the surface of the touch panel. Thetouch assembly 300 is a rotating body part and has a rotating axis, and comprises a rockinghandle 310, atouch pen 320, a firstelastic part 330, a secondelastic part 340, afirst fixing sleeve 350 and a second fixing sleeve, wherein the rockinghandle 310 is provided with a mountingblind hole 311 along the rotating axis direction, thetouch pen 320 and the firstelastic part 330 are both arranged in the mountingblind hole 311, and the firstelastic part 330 is connected with the end part of thetouch pen 320 and the bottom of the mountingblind hole 311; the rockinghandle 310 is provided with aboss 312, theboss 312 is connected with thefirst fixing sleeve 350 through a secondelastic piece 340, and theboss 312, the secondelastic piece 340 and thefirst fixing sleeve 350 are all positioned at one side of thebracket 200; the rockinghandle 310 is further provided with acontact portion 313, the size of thecontact portion 313 is larger than that of the through hole, and the contact portion and thefirst fixing sleeve 350 are disposed on two sides of thebracket 200. Thesupport 200 is provided with anaccommodating part 210, thecontact part 313 is arranged in theaccommodating part 210, the shape of thecontact part 313 is similar to an ellipsoid, and theaccommodating part 210 is four convex arc-shaped sheet bodies.

Since thecontact portion 313 and thefirst fixing sleeve 350 are larger than the through hole, it is ensured that thetouch assembly 300 is not separated from thebracket 200. When thetouch device 300 rotates, the rotation center thereof is substantially maintained at the through hole, and when the angles are different, the distance from the intersection point of the rotation center line of thetouch device 300 and the touch panel to the rotation center of thetouch device 300 changes. When the center line of thetouch assembly 300 coincides with the center line of thebracket 200, the touch assembly is at an initial position, and the firstelastic member 330 is compressed; when the touch pen is rotated from the initial position to the outside, the firstelastic member 330 is extended under the elastic action, and when the touch pen is rotated from the other position to the initial position, the firstelastic member 330 is compressed under the external force, so that the end of thetouch pen 320 is always abutted against the surface of the touch panel. Thefirst fixing sleeve 350 is connected to theboss 312 through the secondelastic member 340, and thefirst fixing sleeve 350 is sleeved on the rockinghandle 310 and can slide relative to the rockinghandle 310.

Thestylus 320 is further provided with anib fixing sleeve 360 near the touch panel for connecting thestylus 320 and the shakinghandle 310, and increasing the strength of thestylus 320 at the nib to prevent the nib from being damaged during rotation.

Example two:

the difference between this embodiment and the first embodiment is that the knob is sleeved on the bracket, and the knob can also be regarded as a rotatable component on the bracket. So set up, the knob with shake the distance between the handle near, when one-hand operation rocked the handle, also can rotate the knob simultaneously and operate.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (13)

1. A rocker-type touch apparatus, comprising: the support is fixed on the surface of a touch panel on a host, the touch component penetrates through the support, and the touch component can rotate relative to the intersection point of the support and the touch component; the end part of the touch component is abutted against the surface of the touch panel and can slide along the surface of the touch panel.

2. The rocker-type touch device according to claim 1, wherein the touch member includes a rocking handle and a touch pen connected to the rocking handle by a first elastic member, and an elastic force of the first elastic member causes an end portion of the touch pen to always abut against the touch panel surface.

3. The rocker-type touch apparatus according to claim 2, wherein the rocker handle is provided with a blind mounting hole, the touch pen is disposed in the blind mounting hole, and the first elastic member connects an end portion of the touch pen and a bottom surface of the blind mounting hole.

4. The rocker-type touch apparatus of claim 2, wherein the rocker handle is provided with a contact portion, and the bracket is provided with a receiving portion for limiting play or rotation of the contact portion with respect to the bracket so that an intersection of the bracket and the touch member remains fixed.

5. The rocker-type touch apparatus of claim 4, wherein the contact portion outer surface is an arc surface and the receiving portion inner surface is a cylindrical surface.

6. The rocker-type touch apparatus according to claim 2, further comprising a second elastic member that connects the rocker handle and the bracket, the second elastic member having an elastic force that causes or has a tendency to move the rocker handle toward the touch panel.

7. The rocker-type touch device according to claim 6, further comprising a first fixing sleeve disposed between the bracket and the touch member, wherein the rocking handle is provided with a boss, and both ends of the second elastic member are connected to the first fixing sleeve and the boss, respectively.

8. A touch-operable apparatus comprising a main body, and further comprising the rocker-type touch apparatus according to any one of claims 1 to 7, the rocker-type touch apparatus being provided on a surface of a touch panel on the main body and performing a touch operation on the touch panel.

9. The touch-operable device of claim 8, further comprising a trigger device for selecting a predetermined program in the host, wherein the predetermined program is used to control a result of the touch operation of the rocker-type touch device on the touch panel.

10. The touch-enabled device of claim 9, wherein the trigger device comprises a knob or a button, and the knob or the button is disposed on the touch panel or the surface of the support.

11. A touch device operating method comprising the touch-enabled operating device according to any one of claims 8 to 10, further comprising the steps of:

s100, presetting a first program to an Nth program in a host;

s200, operating a trigger device, and selecting and triggering one or more of a first program to an Nth program;

and S300, operating the rocker type touch equipment to enable the rocker type touch equipment to contact and stroke the surface of the touch panel.

12. The method of claim 11, wherein the trigger device includes a knob, further comprising the steps of:

s210, dividing a first area to an Nth area according to angles by taking a rotary center of a knob as a reference;

s220, dividing the range into a first angle range to an Nth angle range according to the rotation angle of the knob;

s230, rotating the knob to a designated angle or rotating the knob to a designated area, and triggering any one of the corresponding first program to the Nth program;

wherein, step S210 and step S220 are alternatively performed.

13. The method as claimed in claim 11, wherein the step S230 includes:

s231, after the knob is rotated to a specified area or a specified angle of the knob is rotated, the staying time exceeds the specified time;

s232, after the knob is rotated to the designated area or the knob is rotated to the designated angle, the touch assembly is operated to touch the surface of the touch panel on the host;

wherein, step S231 and step S232 are alternatively performed.

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