阅读说明：本技术 脚踏开关与医疗设备的耦联 (Coupling of foot switch to medical device ) 是由 哈米德·礼萨伊 于 2021-03-29 设计创作，主要内容包括：本发明涉及包括用于控制医疗设备的脚踏开关和用于待控制的医疗设备的接收器的系统和用于将脚踏开关与接收器耦联的方法。脚踏开关和接收器用于在完成至少从脚踏开关至接收器的耦联后无线传输可唯一分配的控制信号。构件中的一个构件包括用于读取近场区域中的应答器的近场通信读取模块,另一构件包括能由近场通信读取模块读取的应答器,包括近场通信读取模块的构件用于基于由应答器读取的信息至少启动脚踏开关与接收器的耦联。该方法基于本发明的系统并且包括以下步骤：通过将脚踏开关移近接收器启动脚踏开关与接收器之间的耦联,使一个构件的应答器处于另一构件的近场通信读取模块的近场区域中；等待直到交换耦联所需的信息为止并且结束耦联。(The invention relates to a system comprising a foot switch for controlling a medical device and a receiver for a medical device to be controlled and a method for coupling a foot switch with a receiver. The foot switch and the receiver are used for the wireless transmission of a uniquely assignable control signal after the coupling at least from the foot switch to the receiver has been completed. One of the members comprises a near field communication reading module for reading the transponder in the near field region, the other member comprises a transponder readable by the near field communication reading module, the member comprising the near field communication reading module being for at least initiating the coupling of the foot switch with the receiver based on information read by the transponder. The method is based on the system of the invention and comprises the following steps: initiating a coupling between the foot switch and the receiver by moving the foot switch closer to the receiver such that the transponder of one member is in a near field region of the near field communication reading module of the other member; waiting until the information required for the coupling is exchanged and ending the coupling.)

1. A system (1) comprising as components (10, 20) a foot switch (10) for controlling a medical device (2) and a receiver (20) for the medical device (2) to be controlled, wherein the foot switch (10) and the receiver (20) are designed for wireless transmission of a uniquely assignable control signal (90) after completing a coupling at least from the foot switch (10) to the receiver (20),

characterized in that one of the components (20, 10) comprises a near field communication reading module (21) for reading a transponder (11) in a near field region (22) and the other component (10, 20) comprises a transponder (11) readable by the near field communication reading module (21), wherein the component (20, 10) comprising the near field communication reading module (12) is designed to at least initiate the coupling of the footswitch (10) and the receiver (20) based on information read by the transponder (11).

2. System according to claim 1, characterized in that both members (10, 20) each have a near field communication reading module (21) and a transponder (11) and are designed to at least initiate the coupling by mutually reading information from the transponders (11).

3. System according to claim 1 or 2, characterized in that the information read from the transponder (11) is sufficient for a direct and final coupling of the components (10, 20).

4. System according to any of the preceding claims, characterized in that the foot switch (10) and the receiver (20) are designed to perform and/or verify the coupling by data exchange via a wireless connection between the foot switch (10) and the receiver (20) after reading the information from the transponder (11).

5. System according to any one of the preceding claims, characterized in that the receiver (20) has a near field communication reading module (21) for reading transponders (11) in the near field region and the foot switch (10) has a transponder (11) which can be read by the near field communication reading module (20).

6. System according to any of the preceding claims, characterized in that the near field region (22) comprises a maximum spacing of 10cm, preferably 5cm, between the transponder (11) and the near field communication reading device (21).

7. System according to any of the preceding claims, characterized in that one or more of the near field communication reading modules (21) are disabled in a basic state and can be activated for the coupling.

8. The system according to any one of the preceding claims, characterized in that the receiver (20) and/or a near field communication reading module (21) are integrated into the medical device (2) to be controlled.

9. System according to any of the preceding claims, characterized in that the transponder (11) is a radio frequency identification transponder, which is preferably passive.

10. The system according to any one of the preceding claims, characterized in that the medical device (2) to be controlled is a high-frequency generator, in particular for endoscopy, an ultrasound generator and/or a laser system.

11. Method for coupling a foot switch (10) for controlling a medical device (2) and a receiver (20) of a system (1) according to any one of the preceding claims, the receiver being connected to the medical device (2) to be controlled, the method having the steps of:

a) -initiating a coupling between the foot switch (10) and the receiver (20) by moving the foot switch (10) close to the receiver (20) so that the transponder (11) of one member (10, 20) is in the near field region of the near field communication reading module (21) of the other member (20, 10); and is

b) Waiting until the information required for the coupling is exchanged and ending the coupling.

Technical Field

The invention relates to a system comprising a foot switch for controlling a medical device and a receiver connected to the medical device to be controlled, and to a method for coupling the foot switch to the receiver.

Background

In medical technology, foot switches for controlling medical devices are commonly used. By means of the foot switch, for example, the activation state of the hand-held instrument can be controlled without the hand itself or even only one of the fingers having to be guided in motion. The medical staff can thus concentrate themselves on the guidance of the instrument by hand and control the activation state of the instrument by a foot independent of the hand. Here, the activation state need not be limited to switching on and off a specific function of the handheld device, but may also include a stepless adjustability. Examples with corresponding foot control devices are dental instruments, such as drills, high-frequency generators for high-frequency surgery, ultrasonic generators for ultrasonic scalpels and/or laser systems.

The foot switch may be connected to the medical device to be controlled by a cable. However, in order not to restrict or hinder the freedom of movement of medical staff, for example in an operating room, foot switches are also known which transmit control signals wirelessly to the medical device to be controlled. Then either a receiver suitable for the control signal has to be integrated directly into the medical device or a suitable external receiver is provided at the signal input, for example a wired foot switch may also be connected to the signal input.

In order to ensure that only specific medical devices are actually controlled by means of the foot switch, it is imperative that the foot switch is uniquely coupled to the receiver, so that the control signals emitted by the foot switch are processed only by the coupled receiver. To this end, the control signal typically contains a unique code that uniquely identifies the control signal as coming from a particular foot switch. Corresponding content is described, for example, in EP 1629786 a 1.

In the prior art, a free coupling of the foot switch to the specific receiver is usually not provided or can only be provided with great complexity, regardless of whether the foot switch is designed as an external unit or integrated into the medical device to be controlled, so that in the usual case there is in principle a one-to-one association of the foot switch with the medical device to be controlled thereby, or at least with the specific receiver unit.

Disclosure of Invention

The object of the present invention is to propose a system and a method which enable a foot switch to be coupled in a simple manner to a receiver for controlling a medical device.

This object is achieved by a system according to the independent claim and a method according to the further claim. Advantageous developments are the subject matter of the dependent claims.

The invention therefore relates to a system comprising a foot switch for controlling a medical device and a receiver connected to the medical device to be controlled as components, wherein the foot switch and the receiver are designed for wireless transmission of a uniquely assignable control signal after completing a coupling at least from the foot switch to the receiver, wherein one of the components comprises a Near Field Communication (NFC) reading module for reading a transponder in the near field region and the other component comprises a transponder readable by the NFC reading module, and wherein the component comprising the NFC reading module is designed for at least initiating a coupling of the foot switch to the receiver on the basis of information read by the transponder.

The invention also relates to a method for coupling a foot switch of a system according to the invention for controlling a medical device with a receiver for the medical device to be controlled, the method having the following steps:

a) initiating coupling between the foot switch and the receiver by moving the foot switch closer to the receiver such that the transponder of one member is in a near field region of the near field communication reading module of the other member; and is

b) Waiting until the information required for the coupling is exchanged and ending the coupling.

First, some terms used in connection with the present invention are set forth.

By "coupled" is meant an initial connection set-up between two components, wherein the information required for the construction of a one-to-one connection between the two components is exchanged. The information exchanged for the coupling may also contain data in order to ensure a subsequent connection between the two components by signing or encrypting the data exchange.

Wireless data Communication is denoted by "Near Field Communication" (NFC), the range of which is technically limited to short distances of a few centimeters. For example, contactless data exchange by electromagnetic induction between two coils, involving RFID (radio frequency identification) technology, in particular by means of passive transponders, is proposed in the international NFC transmission standard of the same name. Due to the short range of data transmission, it is almost impossible to access data exchanged by NFC by a third party.

A "near field communication reading module" is a module for reading information of a suitable transponder which is in the near field region for the reading module with which near field communication limited by the reading module is possible.

A control signal is "uniquely assignable" when it has characteristics that enable a signal receiver to determine that the control signal is being transmitted by a particular transmitter, or at least by the same transmitter as another control signal. In the case of a wirelessly transmitted control signal, these characteristics may be the characteristics of the wireless transmission (i.e., e.g., frequency, modulation, etc.). However, it is preferred that the control signal has an identification as a feature itself, for example in the form of an identification number and/or an identification string which uniquely identifies the transmitter, or by electronically signing the control signal for transmission by means of a uniquely assignable key.

The present invention has recognized that: the coupling of the foot switch to the receiver connected to the medical device is simple and particularly reliable, when the coupling is at least activated by near field communication. Since a corresponding near field communication is only possible in the near field region (i.e. the two devices to be coupled must be physically close to one another for coupling), it is in principle ensured on the one hand that the foot switch is also actually coupled to the desired receiver and, for example, not to a further receiver, and on the other hand that information exchanged at least for the start of the coupling is virtually excluded from being undesirably intercepted by a third party due to the inherent properties of the near field communication.

In order to at least initiate the coupling, at least one of the two components of the system according to the invention, which comprises the foot switch and the receiver, is equipped with a near field communication reading module, by means of which a suitable transponder at the other component can be read, as long as the transponder is in the near field region of the near field communication reading module.

It is also possible that the two members each have a near field communication reading module and a transponder. In this case, the information of the transponders of the respective other components can be read from one another and can then be used to at least initiate the coupling.

Regardless of whether only one or both components have a near field communication reading module, the information read from the transponder of the respective other component is at least sufficient for initiating the coupling. However, it is also possible that the information exchanged here is sufficient to directly complete the coupling of the components.

For example, in the case of a receiver whose unique identification and/or public signature key is known by the receiver and the information is completely contained on the transponder read by the near field communication read module, if the control signal of the foot switch is uniquely assigned by the receiver for this case, the coupling can already be completely ended on the receiver side alone after the information has been read by the transponder and processed. The information on the transponder may also contain detailed data of the component on which the transponder is arranged, on the basis of which data the other component can check the compatibility and, in the event of a negative result, can disable the coupling.

Alternatively, the mentioned information can be used to build a data connection between the foot switch and the receiver, via which, for example, a so-called handshake is first carried out, in which possible encryption algorithms are negotiated, or the mutual compatibility of the foot switch and the receiver is checked before the two components are actually coupled to one another.

Even if the coupling is carried out solely on the basis of the information read from the transponder, the coupling can be verified again by means of the corresponding data connection.

If there is only one near field communication reading module to read the transponder in the near field region, it is preferred that the near field communication reading module is arranged at the receiver and that the footswitch has a transponder that can be read by the near field communication reading module. A corresponding arrangement is advantageous in particular for the above-mentioned complete coupling, based solely on the information read from the transponder.

The near field area, which allows the near field communication reading module to read the transponder, preferably comprises a maximum separation between the transponder and the reading device of 10cm, more preferably 5 cm. By means of a correspondingly short distance, a single, eavesdropping-proof coupling between the foot switch and the receiver is possible.

In order to prevent an accidental coupling, it is preferred that the one or more near field communication read modules are disabled in the basic state and can be activated for coupling. If coupling is desired, the near field communication read module can be activated only temporarily, i.e. for the actual coupling. Thus, accidental coupling of the foot switch by inadvertently moving near the near field communication reading module can be avoided.

In principle, the receiver may be connected to an interface of the medical device suitable therefor, for example to an interface of a foot switch provided for wiring. Preferably, the receiver and/or a near field communication reading module possibly associated with the receiver are integrated into the medical device to be controlled. Due to the simple freely couplable capability of the foot switch with the receiver, which is realized according to the invention, it is no longer necessary to provide a receiver externally in the manner known from the prior art, with which the foot switch is actually fixedly associated and which can be connected to different medical devices. The near field communication read module can be integrated into the medical device in a spatially separated manner from the actual receiver in order to achieve a simpler coupling. For example, the NFC receiver may be disposed on the front face of the medical device, while the receiver may be disposed at any other location within the device.

Preferably, the transponder is a radio frequency identification transponder, which is preferably passive. The corresponding transponder does not require its own energy source, but rather obtains the energy required for reading the information on the memory from the magnetic field in the near field region of the near field communication read module.

The medical device to be controlled is preferably a high-frequency (HF) generator, an ultrasound generator and/or a laser system, the high-frequency generator being used in particular for endoscopy.

Even though the explanation of the system according to the invention in principle relates to the coupling of the foot pedal with the receiver, it is obvious that any of the plurality of foot pedals in the system according to the invention can be freely coupled with any of the plurality of receivers.

Reference is made to the embodiments presented for illustrating the process according to the invention.

Drawings

The invention will now be described exemplarily with reference to the accompanying schematic drawings according to advantageous embodiments.

The figures show:

FIG. 1 illustrates one embodiment of a system according to the present invention; and

fig. 2 shows the system from fig. 1 during coupling.

Detailed Description

Fig. 1 shows a system 1 according to the invention, in which a medical device 2, i.e. a high-frequency generator 2 for an endoscopic resection tool 3, is controlled via a foot switch 10.

In this case, the foot switch 10 is wirelessly connected to the medical device 2. For this purpose, the medical device 2 has an integrated receiver 20, which is designed to receive the control signal 90 transmitted by the foot switch 10. The control signal 90 received by the receiver 20 is effected by the receiver 20 or by a further component of the medical device 2 directly after a frontal examination by the medical device 2.

In addition to the actual control commands, the control signals 90 also comprise a unique identification 91, via which the control signals 90 can be uniquely assigned to a specific foot switch 10, i.e. the one shown in fig. 1. The check of the control signal 90 received by the receiver 20 comprises a check of the identification 91 comprised in the control signal 90. Here, only the control commands of the control signal 90 from the preset foot switch 10 should be processed and finally realized. This one-to-one assignment of a particular foot switch 10 to a medical device 2 or its receiver 20 takes place in the region of the coupling of the foot switch 10 and the receiver 20.

Only for this coupling the receiver 20 comprises a near field communication read module 21. Even if the near field communication read module is arranged spatially separated from the receiver 20 in the illustrated embodiment, by integrating both the receiver 20 and the near field communication read module 21 into the same medical device 2, a unique association between the near field communication read module 21 and the receiver 20 is given so that the near field communication read module 21 can be regarded as being attached to the receiver 20.

The near field communication read module 21 is designed for reading information of a suitable transponder 11 located within a near field region 22 of about 10cm radius around the near field communication read module 21. In the normal state, the near field communication read module 21 is disabled, but may be activated for coupling by the user for a short duration of about 10 seconds.

A transponder 11, which in principle can be read by the near field communication reading module 21, is provided at the foot switch 11. The transponder 11 is a passive radio frequency identification transponder in which at least the identification 91 of the foot switch 10 is stored.

To couple the footswitch 10 with the receiver 20 or the medical device 2, the near field communication reading module 21 is activated and (as shown in fig. 2) the footswitch 10 is brought into the vicinity of the near field communication reading module 21 such that the transponder 11 of the footswitch 10 is in the near field area 22 of the near field communication reading module 21. Then, it is waited until the reading module 21 subsequently reads all the information from the transponder 11, which contains at least the unique identification 91 of the foot switch 10.

In the embodiment shown, the coupling of the foot switch 10 and the receiver 20 or the medical device 2 has been done by reading the unique identification 91 of the foot switch 10 by the near field communication reading module 21. From this read point in time, the receiver 20 or the medical device 2 only processes the received control signal 90, which contains exactly the unique identification 91 (see fig. 1).

It is also possible, however, for the read-out information to be used to establish an initially wireless bidirectional connection between receiver 20 and foot switch 10, so that further information, for example encrypted information, is also exchanged via this bidirectional connection before the coupling is actually ended and control signal 90 can be processed as described. Additional this information can optionally also be exchanged via an NFC device, wherein the foot switch 10 also has a near field communication reading module which can then read a transponder associated with the receiver 20.