CN107818670B - Medical equipment, remote controller thereof and remote control method - Google Patents

Abstract

The invention discloses medical equipment, a remote controller thereof and a remote control method. Wherein, remote controller includes: the device comprises a body, a main display screen and a hard key group which are at least arranged on the front surface of the body, a transmitting module arranged at one end of the body, and a control module connected with the main display screen, the hard key group and the transmitting module; the hard key group comprises a plurality of hard keys, the hard keys can be pressed, and pressing signals corresponding to the hard keys are generated after the hard keys are pressed; the main display screen is an electronic ink screen and is used for displaying the current state of the preset hard key; the control module is used for receiving and controlling the transmitting module to transmit a remote control signal according to the pressing signal. The technical effects of reducing the power consumption of the remote controller and prolonging the single charging service time of the remote controller are achieved.

Description

Medical equipment, remote controller thereof and remote control method

Technical Field

The embodiment of the invention relates to a remote control technology, in particular to medical equipment, a remote controller thereof and a remote control method.

Background

In the prior art, medical imaging devices such as CT, MR, PET, RT, DR and the like are basically controlled by operation keys in front of a rack panel or an operation room control box, and a few XR products begin to be controlled by using a wireless remote controller, but the implementation mode is generally pure hard keys, and the expandability is not strong. Some manufacturers also adopt PAD and other modes to perform wireless control, but PAD is used for remote control of CT and the like, and remote control equipment with a touch screen has high power consumption and is not suitable for frequent operation and application scenes of medical equipment.

In view of the above problems, no effective solution has emerged in the prior art.

Disclosure of Invention

The invention provides medical equipment, a remote controller thereof and a remote control method, which are used for reducing the power consumption of the remote controller and prolonging the service time of single charging of the remote controller.

In a first aspect, an embodiment of the present invention provides a remote controller, including: the device comprises a body, a main display screen and a hard key group which are at least arranged on the front surface of the body, a transmitting module arranged at one end of the body, and a control module connected with the main display screen, the hard key group and the transmitting module;

the hard key group comprises a plurality of hard keys, the hard keys can be pressed, and pressing signals corresponding to the hard keys are generated after the hard keys are pressed;

the main display screen is an electronic ink screen and is used for displaying the current state of a preset hard key, and the preset hard key is a part of the hard key group;

the control module is used for receiving and controlling the transmitting module to transmit a remote control signal according to the pressing signal.

Further, the hard key group comprises an emergency key;

the emergency button is arranged on the back surface of the body, and the upper end surface of the emergency button is lower than the back surface of the body; or

The emergency button is arranged on the front face of the body, and the upper end face of the emergency button is lower than the front face of the body; or

Emergent button is located the front of body, just emergent button is including preventing mistake and bumping the structure.

Further, the hard key group comprises an interlocking structure;

the interlocking structure is connected with at least one preset interlocking hard key respectively arranged on two side surfaces of the body, and generates corresponding interlocking signals according to pressing signals of all the preset interlocking hard keys connected with the interlocking structure and received within a preset time interval;

the current state of the preset interlocking hard key is an interlocking state;

and the control module controls the transmitting module to transmit the corresponding remote control signal according to the interlocking signal.

Further, the hard key group comprises a mutual exclusion structure;

the mutual exclusion structure is at least connected with two preset mutual exclusion hard keys and is used for controlling the preset mutual exclusion hard keys to be in a working state at the same time only by one preset mutual exclusion hard key;

and the current state of the preset exclusive hard key in the working state is the exclusive working state.

Further, the display device also comprises a secondary display screen arranged on the back surface of the body.

The code scanning module comprises a code scanning gun arranged at the top end of the back of the body;

the code scanning module is used for starting the code scanning gun according to a pressing signal for starting the code scanning gun so as to obtain an identification code of the person to be detected;

and the control module communicates with a server through the communication module according to the identification code to acquire detection information corresponding to the identification code and outputs the detection information to the main display screen.

Furthermore, the system also comprises a soft key arranged on the main display screen;

the main display screen is at least divided into a state display part and a dynamic display part;

the state display part is used for displaying the current state of the preset hard key or displaying the current state of the preset hard key and the current state of the preset soft key;

when the state display part is used for displaying the current state of the preset hard key, the dynamic display part is used for displaying the soft key and the detection information;

when the state display part is used for displaying the current state of the preset hard key and the current state of the preset soft key, the dynamic display part is used for displaying the detection information or the preset hidden soft key, wherein the soft key comprises a preset soft key and a preset hidden soft key;

and the main display screen generates a touch signal corresponding to the soft key according to the received touch action, and controls the transmitting module to transmit a remote control signal.

In a second aspect, an embodiment of the present invention further provides a remote control method, including:

detecting the current state of the hard key in real time;

when a pressing signal of the hard key is detected, controlling a transmitting module to send a remote control signal corresponding to a preset action according to the preset action corresponding to the pressing signal; and simultaneously updating the state of the hard key corresponding to the pressing signal to the current state, and outputting the state to a main display screen for displaying, wherein the main display screen is made of an electronic ink screen.

Further, when detecting a pressing signal of the hard key, according to a preset action corresponding to the pressing signal, controlling the transmitting module to transmit a remote control signal corresponding to the preset action, including:

when a pressing signal of the hard key is detected, judging whether a preset action corresponding to the pressing signal is a code scanning gun starting action or not;

if so, starting a code scanning gun through a code scanning module to acquire an identification code of the person to be detected, communicating with a server through a communication module to acquire detection information corresponding to the identification code, and outputting the detection information to the main display screen;

if not, controlling the transmitting module to send a remote control signal corresponding to the preset action.

In a third aspect, an embodiment of the present invention further provides a medical apparatus, including:

the remote controller is used for sending out a remote control signal according to the received pressing signal;

and the scanner receives the remote control signal and executes an action corresponding to the remote control signal.

According to the technical scheme of the remote controller of the medical equipment, the pressing signal is obtained through the hard keys in the hard key group, the current state of the preset hard keys is displayed through the main display screen made of the electronic ink screen, and compared with the prior art that the current state of the preset hard keys is displayed through the backlight of the hard keys, the power consumption of the remote controller is greatly reduced, and the service life of the remote controller during single charging is prolonged; the control module receives the pressing signal and controls the transmitting module to transmit the remote control signal according to the pressing signal, so that the power consumption is reduced, the scanner is effectively controlled, and the working efficiency of a technician is improved.

Drawings

Fig. 1 is a schematic structural diagram of a remote controller according to an embodiment of the present invention;

fig. 2 is a block diagram of a remote controller according to an embodiment of the present invention;

fig. 3A is a schematic view of an emergency button disposed on the back of a body according to an embodiment of the present invention;

fig. 3B is a schematic diagram of an emergency button disposed on the front surface of the body according to an embodiment of the present invention;

fig. 3C is a schematic diagram of a structure of an emergency key disposed on the front surface of the main body according to an embodiment of the present invention

Fig. 4A is a block diagram of a linkage structure and a hard key according to an embodiment of the present invention;

fig. 4B is a block diagram of a hard key disposed on a side surface of a main body according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a remote controller with a secondary display according to an embodiment of the present invention;

fig. 6A is a block diagram of a remote controller with a code scanning module according to an embodiment of the present invention;

FIG. 6B is a schematic structural diagram of a remote control with a code scanning gun according to an embodiment of the present invention;

FIG. 7 is a diagram illustrating a main display partition according to an embodiment of the present invention;

fig. 8 is a flowchart of a remote control method according to a second embodiment of the present invention;

FIG. 9 is a flowchart illustrating a method for starting a code scanning gun by a remote controller according to a second embodiment of the present invention;

fig. 10 is a flow chart of a structural block diagram of a medical apparatus according to a third embodiment of the present invention;

fig. 11 is a flowchart of a block diagram of a medical system according to a fourth embodiment of the present invention.

Icon:

1-a remote controller; 10-a body; 11-main display screen; 111-secondary display screen; 112-status display section; 113-a dynamic display section; 12-hard keys; 120-hard key state diagram; 121-emergency key; 1211-false-touch prevention structure; 13-a transmitting module; 14-a control module; 15-linkage structure; 16-code scanning module; 161-code scanning gun; 17-a communication module; 2-a scanner; and 3, a server.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

The remote controller in this embodiment is suitable for medical equipment, such as X-ray machine, CT machine, accelerator, and other medical equipment, as shown in fig. 1 and fig. 2, the remote controller includes a main body 10, a main display 11 and a hard key set at least disposed on the front surface of the main body 10, a transmitting module 13 disposed at one end of the main body 10, and a control module 14 connected to the main display 11, the hard key set, and the transmitting module 13; the hard key group comprises a plurality of hard keys 12, the hard keys 12 can be pressed, and pressing signals corresponding to the hard keys 12 are generated after the hard keys 12 are pressed; the main display 11 is an electronic ink screen and is configured to display a current state of a preset hard key, where the current state at least includes one of a working state, a non-working state, a linkage state or a mutual exclusion state, and the preset hard key is a part of hard keys 12 of a hard key group; the control module 14 is used for receiving and controlling the transmitting module 13 to send a remote control signal according to the pressing signal.

In this embodiment, the main display 11 is located on the front surface, and the hard keys 12 may be all located on the front surface of the main body 10, on one side of the main display 11, for example, below the main display 11.

The hard key usually has a physical structure, and through the received trigger action, the circuit connected to the hard key generates a change of electrical parameters such as voltage, current, and the like, and further generates a trigger signal for triggering a preset action, that is, the trigger signal of the hard key in this embodiment corresponds to a pressing signal, it can be understood that the trigger action of the hard key may also be set to other trigger actions, such as a rotation action, and the like. The preset actions corresponding to the hard keys in this embodiment may include one-key bed exit, one-key bed entry, accelerated movement, bed entry, bed exit, vertical upward movement, vertical downward movement, gantry tilt, exposure or scan start, exposure or scan cancel, and the like.

The emergency button comprises an emergency stop button, namely, the scanner in operation can be directly stopped from outgoing lines in an emergency situation, or the scanner can be directly and completely stopped from operating. Due to the particularity of the emergency stop button, the emergency stop button is usually required to be arranged at a position where a technician can quickly find the emergency stop button and the emergency stop button is not easy to touch by mistake.

Alternatively, as shown in fig. 3A, the panic button 121 is disposed on the back surface of the body 10, and the upper end surface of the panic button 121 is lower than the back surface of the body 10, so that a technician can press the button in an emergency, and the button lower than the back surface is not touched during normal use.

Alternatively, as shown in fig. 3B, the emergency button 121 is disposed on the front surface of the body 10, and the upper end surface of the emergency button 121 is lower than the front surface of the body 10, so that a mis-touch condition usually occurs on the hard button 12 higher than the front surface, and when the hard button 12 is lower than the front surface, a mis-touch condition does not occur, and a technician can press the hard button with one hand quickly in an emergency.

Alternatively, as shown in fig. 3C, the emergency button 121 is disposed on the front surface of the body 10, and the emergency button 121 includes an anti-collision structure 1211, the anti-collision structure 1211 includes a shielding structure for shielding the emergency button 121, and the shielding structure is higher than the emergency button 121, although the emergency button 121 is higher than the surface of the front surface of the body 10, the shielding structure higher than the emergency button 121 on the periphery can effectively prevent the emergency button 121 from being touched by mistake, and is convenient for a technician to press rapidly with one hand in an emergency situation.

In order to improve the safety of the operation of the scanner, such as the control related to the risk, such as movement or exposure, it is usually necessary to provide a linkage structure, that is, at least two keys need to be triggered simultaneously, so as to generate an effective trigger signal to trigger the preset action. As shown in fig. 4A, in order to prevent the hard key 12 corresponding to the interlocking structure 15 from triggering the interlocking structure 15 due to a false touch, the interlocking structure 15 is connected to at least one preset interlocking hard key respectively disposed on two side surfaces of the body 10, and generates a corresponding interlocking signal according to a pressing signal received within a preset time interval and connected to the preset interlocking hard key of the interlocking structure, and the control module 14 controls the transmitting module to transmit a corresponding remote control signal according to the interlocking signal.

Optionally, two preset interlocking hard keys connected to the interlocking structure 15, one is disposed on the front surface of the body 10, and the other is disposed on the side surface of the body 10, and the interlocking signal can be triggered only by pressing the two preset interlocking hard keys at the same time, where the current states of the two preset interlocking hard keys are interlocking states.

Alternatively, two interlocking preset hard keys associated with the interlocking structure 15, one being disposed on the left side or the right side of the body 10 and the other being disposed on the front of the body 10, as shown in fig. 4B, may be pressed by the gripping force of fingers when the technician holds the remote controller body 10 with one hand, and the other hand simultaneously presses the preset interlocking hard keys on the front of the body 10 to trigger the interlocking signal.

In order to improve the safety of the medical equipment, some mutual exclusion operations are usually required to be set, for example, in the preparation process, when the scanning bed moves, the exposure function is usually unavailable, so in this embodiment, the hard key corresponding to the bed movement and the hard key corresponding to the exposure are connected to the same mutual exclusion structure, and only one of the two is in a working state at the same time, thereby ensuring that the patient cannot receive the radiation irradiation in the preparation process; the current state of the preset exclusive hard key in the working state is the exclusive working state.

Optionally, as shown in fig. 5, a secondary display screen 111 is further disposed on the back of the main body 10, and is at least used for displaying help information, where the help information at least includes one of remote controller description information or medical device description information used in cooperation with the remote controller, and of course, in order to improve the performance of the remote controller, the content displayed on the secondary display screen 111 may be expanded, for example, the control module records and counts the operation instructions received by the remote controller, and outputs the operation instructions to the secondary display screen 111, and a technician may replay the operation instructions received by the remote controller through the secondary display screen 111, so as to facilitate the technician to know whether the operation of the remote controller is normal or not.

Optionally, as shown in fig. 6A and 6B, in order to improve the performance of the remote controller and simplify the workflow of the technician, the remote controller in this embodiment further includes a code scanning module 16 and a communication module 17 disposed in the body 10; the code scanning module 16 comprises a code scanning gun 161 arranged at the top of the back of the body 10, and is used for starting the code scanning gun 161 according to a pressing signal for starting the code scanning gun 161 so as to acquire an identification code of a person to be detected; the control module 14 communicates with the server 3 through the communication module 17 according to the identification code to acquire the detection information corresponding to the identification code and output the detection information to the main display screen 11, compared with the prior art that the identification code of the person to be measured needs to be scanned through an independent code scanning gun, the operation process of the technician is simplified, for example, the technician can directly scan the identification code of the person to be measured at the entrance of an image scanning room or a treatment room, and simultaneously check the detection information of the person to be measured acquired from the server by the communication module 17 through the main display screen 11, such as the name, the sex, the age, the height, the weight, the part to be scanned, the scanning protocol and the like of the patient, without checking in a control computer of a control room, so that the work process of the technician is greatly simplified, and the work efficiency of the. It is understood that the identification code in this embodiment is an identification symbol capable of identity recognition, such as a barcode or a two-dimensional code.

As shown in fig. 7, the main display 11 in the present embodiment is divided into at least a state display portion 112 and a dynamic display portion 113, and optionally, the state display portion 112 is used to display the current state of the preset hard key, and when the state display portion 112 is used to display the current state of the preset hard key, the dynamic display portion 113 is used to display the soft key and the detection information. In order to improve the convenience of the remote controller, the state display portion 112 in this embodiment continuously displays the current state of the preset hard key, and the layout of the hard key state diagram 120 in the state display portion 112 is the same as the layout of the actual hard key 12, when the current state of the preset hard key changes, the control module controls the main display 11 to refresh, so that the main display 11 displays the current state of the preset hard key, because the main display 11 adopts an electronic ink screen, power consumption is not consumed as long as the main display 11 does not refresh, compared with the prior art that the state of the hard key 12 is displayed through the backlight of the hard key 12, the power consumption of the remote controller is greatly reduced.

Optionally, the state display part 112 is configured to display a current state of the preset hard key and a current state of the preset soft key; at this time, the dynamic display part 113 is configured to display the detection information or preset hidden soft keys, where the soft keys include a preset soft key and a preset hidden soft key; the main display 11 generates a touch signal corresponding to the preset soft key or the preset hidden soft key according to the received touch action, and controls the transmitting module 13 to transmit a remote control signal through the touch signal. In order to improve the convenience of use of the remote controller, the status display part 112 may be configured to continuously display the current status of the preset hard keys and the current status of the high frequency soft keys or other important soft keys, so that the technician can conveniently view the status information of the keys in real time. The dynamic display portion 113 may be configured to display the detected information or to display the current status of a preset hidden soft key, which is usually called by the technician by clicking the display key, and the hidden key is usually a key with a low frequency of use. The embodiment can carry out function extension through the soft button to the button of remote controller, for the pure hardware remote controller of prior art, has improved the extended functionality of button greatly, is convenient for set up it as being applicable to different models, even different grade type medical equipment.

Optionally, in order to improve the performance and the practicability of the remote controller, expansion can be performed on the basis, for example, a fingerprint identification structure is added on the back of the remote controller body, unlocking and card punching are performed through fingerprints, and the use record of the remote controller or the record of quality assurance or control of medical equipment is recorded; on the other hand, for the use of the medical equipment, sometimes two technicians are needed, at this time, two remote controllers can be arranged to facilitate the carrying of the technicians, and optionally, the two remote controllers are respectively arranged as a main remote controller and an auxiliary remote controller through the authority setting to facilitate the teaching and operation of the technicians.

According to the technical scheme of the remote controller, the pressing signal is obtained through the hard keys in the hard key group, the current state of the preset hard keys is displayed through the main display screen made of the electronic ink screen, and compared with the prior art that the current state of the preset hard keys is displayed through the backlight of the hard keys, the power consumption of the remote controller is greatly reduced, and the service life of the remote controller during single charging is prolonged; the control module receives the pressing signal and controls the transmitting module to transmit the remote control signal according to the pressing signal, so that the power consumption is reduced, the scanner is effectively controlled, and the working efficiency of a technician is improved.

Example two

Fig. 8 is a flowchart of a remote control method according to a second embodiment of the present invention, where the method is suitable for controlling the work, maintenance, and the like of the medical device through a remote controller. As shown in fig. 8, the method includes:

and S101, detecting the state of the hard key in real time.

The control module detects the current state of the hard key in real time.

S102, when a pressing signal of the hard key is detected, according to a preset action corresponding to the pressing signal, controlling the transmitting module to send a remote control signal corresponding to the preset action, meanwhile, updating the state of the hard key corresponding to the pressing signal to the current state, and outputting the state to a main display screen for displaying, wherein the main display screen is an electronic ink screen.

When the control module detects a pressing signal of the hard key, a preset action corresponding to the pressing signal is judged, the transmitting module is controlled to send a remote control signal corresponding to the preset action according to the preset action, the medical equipment is controlled to execute the preset action, and the medical equipment is controlled.

The current state of the hard key generally includes an operating state, a non-operating state, a linkage state and a mutual exclusion operating state.

In order to improve the use convenience of the remote controller, the control module updates the state of the hard key corresponding to the pressing signal to the current state while controlling the transmitting module to work, and controls and refreshes the main display screen to update and display the current state of the hard key, so that a technician can conveniently check the state of each hard key in real time and further judge whether the operation on each hard key is effective.

Optionally, the remote control method further comprises:

and detecting the current state of the soft key in real time, and controlling the transmitting module to send a remote control signal corresponding to a preset action according to the preset action corresponding to the touch signal when the touch signal corresponding to the soft key is detected.

Optionally, as shown in fig. 9, the method for starting the code scanning gun by the remote controller includes:

s1021, when the pressing signal of the hard key is detected, whether the preset action corresponding to the pressing signal is a code scanning gun starting action or not is judged, if yes, S1022 is executed, and if not, S1023 is executed.

S1022, the code scanning gun is started through the code scanning module, the identification code of the person to be detected is obtained, the communication module is communicated with the server to obtain detection information corresponding to the identification code, and the detection information is output to the main display screen.

The control module starts the code scanning gun through the code scanning module, acquires the identification code of a person to be detected, establishes communication contact with the server through the communication module, further acquires corresponding detection information from the server according to the identification code, then outputs the acquired detection information to the main display screen, a technician can directly check the detection information through a remote controller, and the detection information does not need to be checked from a control computer in a control room, so that the working flow of the technician is greatly simplified, the working efficiency of the technician is improved, and meanwhile, the waiting time of a patient is also reduced.

And S1023, controlling the transmitting module to send out a remote control signal corresponding to the preset action.

When the pressing signal is not the corresponding code scanning gun starting operation, the control module controls the transmitting module to send out a remote control signal of a preset action corresponding to the pressing signal, and the medical equipment receives the remote control signal and executes the preset action.

According to the technical scheme of the remote control method, the press signal is obtained through the hard keys in the hard key group, the current state of the preset hard keys is displayed through the main display screen made of the electronic ink screen, and compared with the prior art that the current state of the preset hard keys is displayed through the backlight of the hard keys, the power consumption of the remote controller is greatly reduced, and the service life of the remote controller during single charging is prolonged; the control module receives the pressing signal and controls the transmitting module to transmit the remote control signal according to the pressing signal, so that the power consumption is reduced, the scanner is effectively controlled, and the working efficiency of a technician is improved.

EXAMPLE III

Fig. 10 is a block diagram of a medical apparatus according to a third embodiment, which includes a scanner 2 and a remote controller 1 according to the third embodiment; the remote controller 1 is used for sending out a remote control signal according to the received pressing signal; the scanner 2 receives the remote control signal and executes an action corresponding to the remote control signal.

The scanner, such as a CT machine and an accelerator, can keep a control box located on a gantry, a scanning bed or a treatment bed in the prior art, that is, the scanner can be controlled and operated by both the control box and a remote controller, and of course, the control box can be removed and the scanner can be controlled and operated by only using the remote controller.

Compared with the prior art that the scanner is required to be controlled and operated by the controller, the remote controller greatly improves the convenience of the control operation of the scanning mechanism.

In addition, the state of the hard key is displayed through the electronic ink screen, and the state of the hard key is not changed, namely, the power consumption is not consumed when the main display screen is not refreshed, so that compared with the state of the key of the remote controller displayed through backlight in the prior art, the power consumption of the remote controller is greatly reduced, and the service time of single charging of the remote controller is prolonged.

Example four

Fig. 11 is a block diagram of a medical system according to a fourth embodiment of the present invention, and as shown in fig. 11, the system includes: a server 3, a scanner 2, and a remote controller 1 as described in the above embodiments; the server 3 is used for storing the detection information of the person to be detected; the remote controller 1 is used for sending a remote control signal according to the pressing signal or the touch signal, or starting the code scanning gun according to the pressing signal for starting the code scanning gun so as to obtain the identification code of the person to be detected, and communicating with the server 3 through the communication module so as to obtain the detection information corresponding to the identification code; the scanner 2 receives the remote control signal and executes an action corresponding to the remote control signal.

In general, hospitals have their own servers for storing various information of patients for information sharing of various departments, and patient information is generally obtained from the servers by reading identification codes, whereas in the prior art, a technician needs to scan the identification codes of the patients through a separate code scanning gun, a control computer of a control room establishes communication with the servers and obtains the patient information from the servers, so that the technician needs to check the information of a patient to be tested on the control computer and then enter into an operating device of the scanning room or treatment room, particularly a radiotherapy machine with a scanning bed or a treatment bed, the working process is complicated The work efficiency of technicians is improved by information checking, positioning and even exposure operation.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (9)

1. A remote control, comprising: the device comprises a body, a main display screen and a hard key group which are at least arranged on the front surface of the body, a transmitting module arranged at one end of the body, and a control module connected with the main display screen, the hard key group and the transmitting module;

the hard key group comprises a plurality of hard keys, the hard keys can be pressed, and pressing signals corresponding to the hard keys are generated after the hard keys are pressed;

the hard key group also comprises a mutual exclusion structure; the mutual exclusion structure is at least connected with two preset mutual exclusion hard keys and is used for controlling the preset mutual exclusion hard keys to be in a working state at the same time only by one preset mutual exclusion hard key; the current state of the preset exclusive hard key in the working state is an exclusive working state;

the main display screen is an electronic ink screen and is used for displaying the current state of a preset hard key, and the preset hard key is a part of the hard key group;

the control module is used for receiving and controlling the transmitting module to transmit a remote control signal according to the pressing signal.

2. The remote control of claim 1, wherein the set of hard keys comprises an emergency key;

the emergency button is arranged on the back surface of the body, and the upper end surface of the emergency button is lower than the back surface of the body; or

The emergency button is arranged on the front face of the body, and the upper end face of the emergency button is lower than the front face of the body; or

Emergent button is located the front of body, just emergent button is including preventing mistake and bumping the structure.

3. The remote control of claim 1, wherein the set of hard keys includes an interlocking structure;

the interlocking structure is connected with at least one preset interlocking hard key respectively arranged on two side surfaces of the body, and generates corresponding interlocking signals according to pressing signals of all the preset interlocking hard keys connected with the interlocking structure and received within a preset time interval;

the current state of the preset interlocking hard key is an interlocking state;

and the control module controls the transmitting module to transmit the corresponding remote control signal according to the interlocking signal.

4. The remote control of claim 1, further comprising a secondary display screen disposed on a back side of the body.

5. The remote controller according to any one of claims 1-4, further comprising a code scanning module and a communication module disposed in the body, wherein the code scanning module comprises a code scanning gun disposed at a top end of a back surface of the body;

the code scanning module is used for starting the code scanning gun according to a pressing signal for starting the code scanning gun so as to obtain an identification code of the person to be detected;

and the control module communicates with a server through the communication module according to the identification code to acquire detection information corresponding to the identification code and outputs the detection information to the main display screen.

6. The remote controller according to claim 5, further comprising a soft key provided on the main display;

the main display screen is at least divided into a state display part and a dynamic display part;

the state display part is used for displaying the current state of the preset hard key or displaying the current state of the preset hard key and the current state of the preset soft key;

when the state display part is used for displaying the current state of the preset hard key, the dynamic display part is used for displaying the soft key and the detection information;

when the state display part is used for displaying the current state of the preset hard key and the current state of the preset soft key, the dynamic display part is used for displaying the detection information or the preset hidden soft key, wherein the soft key comprises a preset soft key and a preset hidden soft key;

and the main display screen generates a touch signal corresponding to the soft key according to the received touch action, and controls the transmitting module to transmit a remote control signal.

7. A remote control method applied to the remote controller of any one of the preceding claims 1 to 6, comprising:

detecting the current state of the hard key in real time;

when a pressing signal of the hard key is detected, controlling a transmitting module to send a remote control signal corresponding to a preset action according to the preset action corresponding to the pressing signal; and simultaneously updating the state of the hard key corresponding to the pressing signal to the current state, and outputting the state to a main display screen for displaying, wherein the main display screen is made of an electronic ink screen.

8. The method according to claim 7, wherein when the pressing signal of the hard key is detected, controlling the transmitting module to send out a remote control signal corresponding to a preset action according to the preset action corresponding to the pressing signal comprises:

when a pressing signal of the hard key is detected, judging whether a preset action corresponding to the pressing signal is a code scanning gun starting action or not;

if so, starting a code scanning gun through a code scanning module to acquire an identification code of the person to be detected, communicating with a server through a communication module to acquire detection information corresponding to the identification code, and outputting the detection information to the main display screen;

if not, controlling the transmitting module to send a remote control signal corresponding to the preset action.

9. A medical device, comprising;

the remote controller of any one of claims 1-6, the remote controller being configured to issue a remote control signal in response to receiving the push signal;

and the scanner receives the remote control signal and executes an action corresponding to the remote control signal.

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