TWM493836U - Magnetic force type earphone plug and biomedical device for using the earphone plug to transmit data - Google Patents

Description

Magnetic earphone plug and physiological measuring device thereof for performing data transmission

The present invention relates to a headphone plug module, and more particularly to a magnetic headphone plug module equipped with a magnetic component, wherein a physiological measuring device is connected to a portable electronic device by a magnetic earphone plug module, The physiological data measured by the physiological measuring device can be transmitted through the portable electronic device.

With the development of technology, the application of technology integration between 3C products, biotechnology and medical information is becoming more and more widespread. In recent years, due to the advancement of biotechnology, home-based testing instruments have been developed, providing patients with the ability to measure and monitor their physiological parameters at home or at any fixed point, and then provide the measured data to relevant medical professionals for reference. Medical staff can be treated appropriately. It can be seen that for the user, the effective measurement and recording of long-term physiological parameters by using the physiological measuring device is urgently needed.

Therefore, in order to facilitate the measurement of physiological parameters at home or at any fixed point, manufacturers have provided physiological measuring devices that are small in size and convenient to carry or store. However, most of today's physiological measurement devices are transmitted via Bluetooth devices or Wi-Fi wireless transmission or USB cable transmission, so that users can transmit physiological parameter measurement results to other portable electronic devices to save records, eliminating early It is inconvenient to copy or input paper to other portable electronic devices.

Furthermore, when using Bluetooth devices or Wi-Fi wireless transmission, it is necessary to use more electronic components and complicated communication protocols, so the cost is relatively high; however, some manufacturers have developed a way to allow users to simply use one. The USB transmission line can connect the physiological measuring device to the smart mobile device without worrying about different smart mobile devices having different transmission interfaces. As shown in Fig. 1, the USB transmission line 1 is originally used by the smart mobile device. The information measured by the physiological measuring device inserted into the audio jack 10 of the earphone or the microphone is transmitted to the smart mobile device through the connection port 11, and the smart mobile devices of various brands, models and versions are excluded. The problem of the transmission interface of the specification; although the USB transmission line is convenient for connection, it will increase the cost and volume, and is not easy to collect, and its ability to resist external force pulling is very poor, and a slight pulling force may cause damage to the transmission line.

In order to solve the above problems, one of the main purposes of the present invention is to provide a magnetic earphone plug module, which is equipped with a magnetic element through a headphone plug, so that the magnetic earphone plug module can be quickly and easily combined with other magnetic forces. The device is combined or removed, so in addition to replacing the conventional earphone plug with the design of the transmission line, the volume can be simplified, the collection and carrying can be conveniently carried out, and the inconvenience of disassembling the transmission wire can be saved.

Another main purpose of the present invention is to provide a physiological measuring device for performing physiological parameter data transmission using a magnetic earphone plug module, wherein the physiological component is magnetically coupled through a magnetic component assembled in the magnetic earphone plug module. The connector on the device is integrated with each other to achieve electrical connection at the same time; the magnetic earphone plug module of the present invention is more convenient to operate and use by magnetic engagement, thereby eliminating the use of the transmission wire to be excessively pulled by external force. The problem of damage, and the convenient and free installation of physiological measuring devices and other portable electronic devices The connection is made to achieve the convenience of connection and transmission of physiological parameter data, which greatly increases the flexibility of application and reduces the cost of use.

According to the above object, the present invention provides a magnetic earphone plug module, comprising: a plug terminal having a plurality of electrodes arranged at concentric intervals, the electrodes comprising a first electrode and a second electrode a third electrode and a fourth electrode, wherein the electrodes at the bottom of the fourth electrode have a concentric circular electrode junction region having a plurality of electrical connections; and an insulating spacer formed by a first insulative housing a second insulative housing and an adapter kit between the first insulative housing and the second insulative housing, the adapter kit having a plurality of electrical conductors, a housing and a magnetic ring body, and a plurality of conductive systems The device is electrically connected to the electrical connection portion and is disposed on the rear end of the fourth electrode by the cover. The cover is provided with a plurality of holes, so that one of the plurality of electrical conductors is exposed to the corresponding hole. The adapter kit is formed by the magnetic ring sleeve being placed outside the cover, and the adapter kit is received by the first insulation shell and the second insulation shell being butted against each other.

According to the above object, the present invention further provides a biometric measuring device for performing data transmission using a magnetic headphone plug module, comprising: the earphone plug module according to any one of claims 1 to 4, and a lifetime The medical measuring device has a pair of magnetic connectors, which are composed of an insulating housing, a plurality of conductive terminals and a plurality of electrical connecting terminals, and the insulating housing is provided with the conductive terminals Corresponding plurality of card slots, wherein a plurality of conductive terminals are inserted from the upper end surface of the insulating case and respectively clamped into the corresponding card slots, and the front end surface of the insulating case has a magnetic contact panel disposed around the electrical connection terminal, When the earphone module is electrically connected to the biometric measuring device, the magnetic contact panel of the docking magnetic connector and the magnetic ring body of the earphone module attract each other, so that the electrical connection terminal and the electric conductor exposed outside the hole are electrically touched. Electrical connection In connection, the earphone plug module and the biomedical measuring device are combined and integrated.

The magnetic earphone plug module provided by the present invention and the magnetic medical measuring device using the magnetic earphone plug module for performing data transmission, the magnetic element is assembled through the earphone plug, and the magnetic force is used to join the medical device. The connectors on the measuring device are integrated with each other to complete the electrical connection, thereby eliminating the problem that the transmission wire is damaged by excessive pulling of the external force, and the biomedical measuring device and other portable types can be conveniently and freely used. The electronic device is connected to achieve the convenience of data connection transmission.

1‧‧‧Magnetic Headphone Plug Module

2‧‧‧Physiological measuring device

3‧‧‧Docking magnetic connector

4‧‧‧External portable electronic devices

10‧‧‧Terminal terminals

12‧‧‧Insulated body

121‧‧‧First insulated enclosure

122‧‧‧Second insulation enclosure

123‧‧‧Transition kit

1231a, 1231b, 1231c, 1231d‧‧‧ electrical conductors

1231a', 1231b', 1231c', 1231d'‧‧‧ conductive end of the conductor

1232‧‧‧Shell

1233‧‧‧ Magnetic ring

101‧‧‧First electrode

102‧‧‧second electrode

103‧‧‧ third electrode

104‧‧‧fourth electrode

1041‧‧‧Concentric circular electrode junction area

20‧‧‧shell

201‧‧‧ slots

30‧‧‧Insulated housing

32‧‧‧Multiple conductive terminals

34‧‧‧Multiple electrical connection terminals

36‧‧‧Magnetic contact panel

38‧‧‧PCB circuit board

Fig. 1 is a schematic view showing a structure of a headphone plug in which a physiological measuring device is connected to other portable electronic devices using a USB transmission line.

Fig. 2 is a schematic exploded view showing the explosive structure of the components of the magnetic earphone plug module of the first embodiment of the present invention.

Fig. 3 is an enlarged schematic view showing the enlarged structure of the plug-in terminal of the magnetic earphone plug module of the first embodiment of the present invention.

Fig. 4A is a schematic view showing the structure of the components of the magnetic earphone plug module of the first embodiment of the present invention.

4B is a bottom view showing the integrated structure of the components of the magnetic earphone plug module of the first embodiment of the present invention.

Fig. 5A is a schematic exploded view showing the explosive structure of the components of the magnetic earphone plug module of the second embodiment of the present invention.

Figure 5B is a schematic view showing each of the magnetic earphone plug modules of the second embodiment of the present creation The combination of components and components.

Fig. 6A is a schematic view showing a physiological measuring device of an embodiment of the present creation.

Fig. 6B is a schematic view showing the structure of the docking magnetic connector of the physiological measuring device of the present invention.

Figure 7 is a schematic view showing the physiological measuring device for performing data transmission using the magnetic earphone plug module of the first embodiment of the present invention and its combination with an external portable electronic device.

Figure 8 is a schematic view showing the physiological measuring device for performing data transmission using the magnetic headphone plug module of the second embodiment of the present invention and its combination with an external portable electronic device.

This creation mainly discloses a magnetic earphone plug module and a physiological measuring device for performing data transmission. The magnetic element is assembled through the earphone plug, and the conventional earphone plug is replaced with a transmission line design to magnetically engage the physiological body. The measuring device is more convenient to operate and use, and the problem that the transmission wire is damaged by excessive pulling of the external force can be omitted, and the physiological measuring device can be conveniently and freely connected with other portable electronic devices to achieve the data connection transmission. Convenience. The basic principles and functions of the earphone plug related to the present invention are well known to those skilled in the relevant art, and therefore, the description below will be only for the details of the features of the device of the present invention. In addition, the drawings in the following texts are not completely drawn according to the actual relevant dimensions, and their functions are only to express the schematic diagrams related to the present creative features.

First, please refer to FIG. 2, which shows the exploded structure of the components of the magnetic headphone plug module of the first embodiment of the present invention. As shown in FIG. 2, in the present embodiment, the magnetic earphone plug module 1 includes a plug terminal 10 and an insulating base 12; wherein the plug terminal 10 has a plurality of isolated ones arranged at concentric intervals Electrode, from front to back The first electrode 101, the second electrode 102, the third electrode 103, and the fourth electrode 104 are included, and the first electrode 101, the second electrode 102, the third electrode 103, and the fourth electrode 104 are both The conductors are arranged at an insulation interval, respectively, for transmitting a left channel signal (for example, the first electrode 101), a right channel signal (for example, the second electrode 102), and a microphone signal (for example, the third electrode 103). And a ground signal (for example, the fourth electrode 104); and the fourth electrode 104 at the rear end of the plug terminal 10 has a bottom portion corresponding to the first electrode 101, the second electrode 102, the third electrode 103, and the fourth electrode 104. The circular electrode joint region 1041 has a plurality of electrical connection portions on the concentric circular electrode joint region 1041. Obviously, the rear end of the fourth electrode 104 has an annular shape, and the area formed by the annular radius is larger than that of the first electrode The area formed by one electrode 101, the second electrode 102, the third electrode 103, and the fourth electrode 104 (shown in an enlarged schematic view of the plug terminal 10 in FIG. 3). The insulating base 12 is composed of a first insulating housing 121, a second insulating housing 122, and a transition piece 123 between the first insulating housing 121 and the second insulating housing 122. The adapter kit 123 has a plurality of electrical conductors (1231a, 1231b, 1231c, 1231d), a casing 1232 and a magnetic ring body 1233, and a plurality of electrical conductors (1231a, 1231b, 1231c, 1231d) are used to engage the concentric circular electrode on the region 1041. The plurality of electrical connecting portions form a one-to-one electrical joint, and are covered by the cover 1232 at the rear end of the fourth electrode 104. The cover 1232 is provided with a plurality of holes for a plurality of electrical conductors (1231a, 1231b). One of the electrical contacts (1231a', 1231b', 1231c', 1231d') of 1231c, 1231d) is exposed to the corresponding hole (shown in Figure 3B), and a magnetic ring body 1233 of a hollow ring-column structure is used. The adapter kit 123 is disposed outside the casing 1232 to form the adapter kit 123, and the first insulation casing 121 and the second insulation casing 122 of the two semi-cylindrical bodies are butted together to receive the adapter kit 123 therein. In addition, at least one flange A (shown in FIG. 4A) is pivotally disposed on one side of the first insulating housing or the second insulating housing to form a foolproof effect for alignment with an external electronic device connector. In order to avoid incorrect plugging direction. In addition, the magnetic ring body 1233 is made of a magnetic conductive material or a magnetic material (such as a magnet, a copper alloy, a low carbon steel, a silicon steel, etc.), but the present invention is not limited thereto.

After the combination of the above-mentioned components, the magnetic earphone plug module is completed. Referring to FIG. 4A and FIG. 4B, FIG. 4A is a schematic diagram of the combination of the magnetic earphone plug module of the first embodiment. Fig. 4B is a bottom view of the combination of the magnetic headphone plug module of the first embodiment of the present invention. Obviously, the structure of the combination of the above Fig. 2 can be clearly seen from Figs. 4A and 4B. First, as shown in FIG. 4A, the plug terminal 10 is integrally formed by the first insulating housing 121 and the second insulating housing 122 of the insulating base 12, and the magnetic headphone plug module of the embodiment is combined. The structure, and the at least one flange A is pivotally disposed on the side of the first insulating shell 121 or the second insulating shell 122 to form a foolproof effect for aligning and mating with an external electronic device connector, thereby avoiding insertion The connection direction is wrong. It is to be noted that, in the assembled plug terminal 10, the annular portion of the rear end of the fourth electrode 104 is covered by the first insulating housing 121 and the second insulating housing 122 of the insulating base 12 In the inner space formed, the front end includes a plurality of electrodes which are arranged in a concentric manner and are separated from each other, and are exposed to the outside; in this embodiment, the plurality of electrodes include the first electrode 101, The second electrode 102, the third electrode 103 and the fourth electrode 104 are all conductors and are arranged at an insulation interval for transmitting a left channel signal, a right channel signal, a microphone signal and a ground signal. Next, the plug terminal 10 of the present embodiment is described. The plug terminal 10 is abutted against the insulating base 12 by the first insulating housing 121 and the second insulating housing 122, and after the terminal 10 is inserted. The bottom of the end corresponds to the first electrode 101, the second electrode 102, the third electrode 103, and the fourth electrode 104. The concentric circular electrode junction region 1041 is provided with a plurality of electrical connections; in addition, the covered insulating seat is formed. The body 12 is also covered with an adapter kit 123, which is located at the rear end of the plug terminal 10, wherein The adapter kit 123 is composed of a plurality of electrical conductors (1231a, 1231b, 1231c, 1231d), a casing 1232 and a magnetic ring body 1233, wherein the plurality of electrical conductors (1231a, 1231b, 1231c, 1231d) are used. Forming a one-to-one electrical connection with a plurality of electrical connection portions on the concentric circular electrode junction region 1041, and covering the rear end of the fourth electrode 104 by the cover 1232, the cover 1232 is provided with a plurality of holes One of the plurality of electrical conductors (1231a, 1231b, 1231c, 1231d) is exposed to the corresponding hole (1231a', 1231b', 1231c', 1231d'); The shape of the body is not limited. Then, the magnetic ring body 1233 of a hollow ring-column structure is placed outside the casing 1232 to form the adapter kit 123, and then the first insulating casing 121 and the second insulating casing 122 of the two semi-cylindrical bodies are mutually exchanged. Docking and accommodating the adapter kit 123 therein; as shown in FIG. 4B, the bottom of the magnetic earphone plug module is further observed from a viewing angle, and it can be clearly seen that the magnetic ring body 1233 is placed outside the casing 1232. The adapter kit 123 is formed and then wrapped in the first insulating housing 121 and the second insulating housing 122 of the insulating base 12, and a plurality of holes provided in the housing 1232 can make a plurality of electrical conductors (1231a, The electrical contacts (1231a', 1231b', 1231c', 1231d') of 1231b, 1231c, 1231d) are exposed in the corresponding holes; in addition, the plurality of holes in the casing 1232 further include holes for soldering. In addition, in the present embodiment, the fourth electrode of the plug terminal 10 that transmits the ground signal has an annular portion at the rear end thereof and has an overall length of 11.3 mm.

Please continue to refer to FIG. 5A, which shows the exploded structure of the components of the magnetic headphone plug module of the second embodiment of the present invention. It can be clearly seen that the structure is substantially the same as that of the above-mentioned FIG. 2 and will not be described again. The difference is that the fourth electrode of the plug terminal 10 that transmits the ground signal has an annular portion at the rear end thereof and the overall length thereof is shortened to 4.3 mm. The first insulating housing 121 and the second insulating housing of the insulating base 12 covering the rear end of the plug terminal 10 are relatively The length of the 122 is also shortened, so that the rear end of the plug terminal 10 is covered therein; likewise, the bottom of the rear end of the plug terminal 10 corresponds to the first electrode 101, the second electrode 102, and the third electrode 103. The fourth electrode 104 has a plurality of electrical connecting portions on the concentric circular electrode bonding region 1041, and can form a plurality of electrical conductors (1231a, 1231b, 1231c, 1231d) included in the adapter package 123 of the insulating base 12. The electrical connection of one is further closed by the cover 1232, and the cover 1232 is provided with a plurality of holes to make one end of the plurality of electrical conductors (1231a, 1231b, 1231c, 1231d) (1231a', 1231b', 1231c', 1231d') are exposed to the corresponding holes as electrical connection ends; then, a magnetic ring body 1233 of a hollow ring-column structure is placed over the cover 1232, and finally through the two The first insulative housing 121 and the second insulative housing 122 of the semi-cylindrical body are coupled to each other to form the magnetic headphone plug module of the second embodiment (shown in FIG. 5B).

In addition, referring to FIG. 5B, a schematic structural view of the components of the magnetic earphone plug module of the second embodiment of the present invention is shown. In this embodiment, the combined magnetic earphone plug module and the magnetic earphone plug module combined with the first embodiment are different, since the fourth electrode of the grounding signal transmitted by the plug terminal 10 is followed by The overall length of the annular portion is shortened to 4.3 mm. Although the overall magnetic earphone plug module can be reduced in size, it may cause inconvenience to the user, so the embodiment is in the first insulating housing. The wall of the 121 or the second insulative housing 122 is provided with a threaded structure B (shown in FIG. 5B) for facilitating screwing with the threaded structure of an external electronic device in a threaded screw-tight manner to avoid incorrect insertion direction.

Next, please refer to FIG. 6A and FIG. 6B. FIG. 6A shows the physiological measuring device according to an embodiment of the present creation, and FIG. 6B shows the structural diagram of the docking magnetic connector of the present physiological measuring device. First, as shown in FIG. 6A, the physiological measuring device in this embodiment 2 has a housing 20, a slot 201 is disposed in the housing 20, and a pair of magnetic connectors 3 are mounted therein. Further, the structure of the docking magnetic connector 3 is illustrated in FIG. 6B, the docking magnetic The connector 3 is composed of an insulative housing 30, a plurality of conductive terminals 32 and a plurality of electrical connection terminals 34. The insulating housing 30 is provided with a plurality of card slots corresponding to the plurality of conductive terminals 32. The conductive terminals 32 are inserted from the upper end surface of the insulating housing 30 to be respectively engaged in the corresponding card slots, and the front end surface 301 of the insulating housing 30 has a magnetic contact panel 36 which is locked on the insulating housing 30 and The magnetic contact panel is made of a magnetic conductive material or a magnetic material (such as a magnet, a copper alloy, a low carbon steel, a silicon steel, etc.), but the present invention is not limited to this. In addition, it should be noted that the electrical connection terminal 34 of the embodiment is implemented by a telescopic probe (Pogo Pin) terminal, but not limited thereto, any flexible electrical connection terminal is in the present creation. Within the scope of protection. In addition, in the present embodiment, the docking magnetic connector 3 further includes a PCB circuit board 38 electrically connected to the insulating housing 30, so that the docking magnetic connector 3 can be electrically coupled to the physiological quantity by the PCB circuit board. The measuring device 2 can thus be combined to form a structure of the physiological measuring device as shown in FIG. 6A; further, the butted magnetic connector 3 combined in the slot 201 of the housing 20 of the physiological measuring device 2, the insulating housing 30. The plurality of conductive terminals 32 and the PCB circuit board 38 are wrapped in the housing 20 of the physiological measuring device 2, and the electrical connecting terminals 34 and the magnetic contact panel 36 surrounding the electrical connecting terminals 34 are The magnetic headphone plug module of the first embodiment or the second embodiment of the present invention can be magnetically coupled to each other.

Then, in order to be able to describe more clearly, please refer to FIG. 7 again, which shows the physiological measuring device for performing data transmission using the magnetic earphone plug module of the first embodiment and the external portable electronic device. A schematic diagram of the combination. The description of the aforementioned FIG. 4B can be It is known that the bottom of the magnetic earphone plug module 1 is viewed from a viewing angle, and it can be clearly seen that the magnetic ring body 1233 is placed outside the casing 1232, and then covered by the first insulating casing 121 of the insulating base 12 and the first The plurality of holes disposed in the second insulating case 122 and on the cover 1232 can expose the conductive ends (1231a', 1231b', 1231c', 1231d') of the plurality of electrical conductors (1231a, 1231b, 1231c, 1231d) In the corresponding hole, as shown in FIG. 7, in the embodiment, when the magnetic earphone plug module 1 is to be connected to the physiological measuring device 2, it can pass through the bottom of the magnetic earphone plug module 1 The magnetic ring body 1233 and the magnetic contact panel 36 of the mating magnetic connector 3 are joined to each other, and the electrical connection terminals 34 are opposite to the electrical conductors (1231a, 1231b, 1231c, 1231d) exposed outside the holes of the casing 1232. The conductive ends (1231a', 1231b', 1231c', 1231d') are electrically contacted to ensure the stability of the transmission quality of the electrical signal, thereby integrating the earphone plug module 1 with the physiological measuring device 2, and Due to the formation of the first insulating housing 121 or the wall surrounding the second insulating housing 122 The flange structure acts as a foolproof. When the earphone plug module 1 is combined with the physiological measuring device 2, the flange structure can be further aligned and matched through the flange structure, thereby avoiding errors in the plugging direction. In addition, it should be noted that the magnetic ring body 1233 and the magnetic contact panel 36 are both made of a magnetic conductive material or a magnetic material, and the magnetic poles are different in direction, so that they can be magnetically mutually Engagement, if the earphone plug module 1 is to be separated from the physiological measuring device 2, only the earphone plug module 1 needs to be pulled to overcome the magnetic attraction force to separate it from the physiological measuring device 2, which can replace the conventional earphone plug with a transmission line. The design eliminates the inconvenience of disassembling the transmission line wire; in addition, the electrical connection terminal 34 is implemented by a telescopic probe (Pogo Pin) terminal, but not limited thereto, any flexible electrical connection terminal is in the present creation. Within the scope of protection.

As described above, when the earphone plug module 1 is combined with the physiological measuring device 2, the plug terminal of the earphone plug module 1 can be further inserted into an ear of an external portable electronic device 4. In the machine jack, the physiological measuring device 2 and the external portable electronic device 4 are connected to each other, whereby the physiological measuring device 2 can start data transmission and information integration with the external portable electronic device 4, and The external portable electronic device 4 displays the relevant numerical data measured by the physiological measuring device 2, and in this embodiment, the external portable electronic device 4 is a general mobile phone (Mobilephone) and a smart mobile phone (Smartphone). ), one of a personal digital assistant (PDA), a tablet (Tablet PC), and a notebook (Notebook).

Next, please refer to FIG. 8 again to show a physiological measurement device for performing data transmission using the magnetic earphone plug module of the second embodiment and its combination with an external portable electronic device. Similarly, it can be seen from the description of FIG. 4B that the bottom of the magnetic earphone plug module 1 is viewed from a viewing angle, and it can be clearly seen that the magnetic ring body 1233 is placed outside the casing 1232 and then covered by the insulating seat body 12. The first insulating housing 121 and the second insulating housing 122, and the plurality of holes provided in the housing 1232 can make the conductive ends (1231a', 1231b' of the plurality of electrical conductors (1231a, 1231b, 1231c, 1231d) , 1231c', 1231d') are exposed in the corresponding holes; as shown in FIG. 7, in the embodiment, when the magnetic earphone plug module 1 is to be connected to the physiological measuring device 2, the magnetic type can be transmitted. The magnetic ring body 1233 at the bottom of the earphone plug module 1 and the magnetic contact panel 36 of the mating magnetic connector 3 are engaged with each other, and the electrical connection terminals 34 are connected to the electrical conductors (1231a) exposed outside the holes of the casing 1232. The conductive terminals (1231a', 1231b', 1231c', 1231d') of the 1231b, 1231c, and 1231d) are electrically contacted to ensure the stability of the transmission quality of the electrical signal, thereby combining the earphone plug module 1 with the physiological measuring device 2. In one, but differs from the aforementioned sixth figure in that the present embodiment is inserted The fourth electrode of the terminal 10 for transmitting the ground signal has an annular portion at the rear end thereof, and the overall length thereof is shortened to 4.3 mm. Although the overall magnetic earphone plug module can be reduced in size, it may cause the user to take it. Inconvenient to take, the present embodiment is in the first insulating housing 121 or the second The wall of the edge of the socket 201 is provided with a threaded structure. When the headphone plug module 1 is combined with the physiological measuring device 2, the thread of the inner edge of the slot 201 of the mating magnetic connector 3 can be further received through the physiological measuring device 2. The structure is screwed together by a threaded screw to prevent the earphone plug module 1 from falling off after being engaged with the physiological measuring device 2, and the insertion direction error can also be avoided. In addition, it should be noted that the magnetic ring body 1233 and the magnetic contact panel 36 are both made of a magnetic conductive material or a magnetic material, and the magnetic poles are different in direction, so that they can be magnetically mutually Engagement, and in this embodiment, if the earphone plug module 1 is to be separated from the physiological measuring device 2, the earphone plug module 1 is first pulled by the rotation to turn the original screw to the state of tightening, and then the earphone plug module is pulled. 1 It can be separated from the physiological measuring device 2 against the magnetic attraction, which can replace the conventional earphone plug with the design of the transmission line, which eliminates the inconvenience of disassembling the transmission line wire; in addition, the electrical connection terminal 34 is a telescopic probe (Pogo Pin) The terminal is implemented, but not limited thereto, and any flexible electrical connection terminal is within the protection scope of the present invention.

As described above, in the embodiment, after the earphone plug module 1 is combined with the physiological measuring device 2, the plug terminal of the earphone plug module 1 can be further inserted into one of the external portable electronic devices 4. In the jack, the physiological measuring device 2 and the external portable electronic device 4 are connected to each other, whereby the physiological measuring device 2 can start data transmission and information integration with the external portable electronic device 4, and The external portable electronic device 4 displays the related numerical data measured by the physiological measuring device 2. In this embodiment, the external portable electronic device 4 is a general mobile phone (Mobilephone) and a smart mobile phone (Smartphone). One of personal digital assistants (PDAs), tablets (Tablet PCs) and notebooks (Notebooks).

In summary, through the foregoing design description, the magnetic headphone plug module of the present invention and the physiological measuring device for performing data transmission are assembled with magnetic permeability through the earphone plug. The component is magnetically coupled to the physiological measuring device for easier operation and use. The magnetic force can be combined with or removed from other devices quickly and easily, and the volume can be simplified, the collection and carrying can be simplified, and the conventional earphone can be replaced. The plug needs to be matched with the design of the transmission line, which eliminates the problem that the transmission wire is damaged by excessive pulling of the external force, and can conveniently and freely connect the physiological measuring device with other portable electronic devices to achieve the convenience of data connection transmission. Significantly increased application flexibility and reduced cost of use.

Although the present invention has been described above with reference to the preferred embodiments thereof, it is not intended to limit the present invention, and anyone skilled in the art can make some changes and refinements without departing from the spirit and scope of the present invention. The scope of patent protection of the creation shall be subject to the definition of the scope of the patent application attached to this specification.

1‧‧‧Magnetic Headphone Plug Module

10‧‧‧Terminal terminals

101‧‧‧First electrode

102‧‧‧second electrode

103‧‧‧ third electrode

104‧‧‧fourth electrode

1041‧‧‧Concentric circular electrode junction area

12‧‧‧Insulated body

121‧‧‧First insulated enclosure

122‧‧‧Second insulation enclosure

123‧‧‧Transition kit

1231a, 1231b, 1231c, 1231d‧‧‧ electrical conductors

1232‧‧‧Shell

1233‧‧‧ Magnetic ring

Claims (12)

A magnetic earphone plug module includes: a plug terminal having a plurality of electrodes arranged at concentric intervals, the electrodes including a first electrode, a second electrode, a third electrode, and a first a four-electrode having a plurality of electrical connection portions corresponding to the electrodes at the bottom of the fourth electrode; and an insulating seat body, which is provided by a first insulating housing, a second insulating housing, and An adapter kit is disposed between the first insulative housing and the second insulative housing, the adapter kit has a plurality of electrical conductors, a casing and a magnetic ring body, and the conductive systems are used to The electrical connection is electrically connected, and the cover is disposed on the rear end of the fourth electrode, and the cover is provided with a plurality of holes such that one of the electrical contacts is exposed to the corresponding one. The hole is sleeved outside the casing to form the adapter, and the first insulation casing and the second insulation casing are butted together to receive the adapter sleeve therein. The magnetic earphone plug module according to the first aspect of the invention, wherein the first electrode, the second electrode, the third electrode and the fourth electrode are respectively configured to transmit a left channel signal and a right Channel signal, a microphone signal and a ground signal. The magnetic earphone plug module according to claim 1, wherein the first insulating housing and the second insulating housing are half cylinders, and the first insulating housing and the second insulating housing are pivoted on one side. Forming at least one flange to form A foolproof effect. The magnetic earphone plug module according to claim 1, wherein the magnetic ring system has a hollow ring-column structure made of a magnetic conductive material or a magnetic material. The magnetic earphone plug module according to claim 1, wherein the first insulating housing and the second insulating housing are half cylinders, and the first insulating housing and the second insulating housing wall are provided with at least A threaded structure. A physiological measuring device for performing data transmission using a magnetic headphone plug module, comprising: the earphone plug module according to any one of claims 1 to 5, and a physiological measuring device, the physiological measuring device The utility model has a pair of magnetic connectors, which are composed of an insulating shell, a plurality of conductive terminals and a plurality of electrical connecting terminals, wherein the insulating shell is provided with a plurality of card slots corresponding to the conductive terminals for providing The conductive terminals are inserted into the corresponding card slots from the upper end surface of the insulating housing, and the front end surface of the insulating housing has a magnetic contact panel disposed around the electrical connection terminals. When the group is electrically connected to the physiological measuring device, the magnetic contact panel through the docking magnetic connector and the magnetic ring body of the earphone module are attracted to each other, so that the electrical connecting terminals are exposed outside the holes The electrical contacts of the electrical conductors are electrically connected, thereby integrating the earphone plug module with the physiological measuring device. A physiological measuring device for performing data transmission using a magnetic earphone plug module according to claim 6 of the patent application, wherein the magnetic contact panel is made of a magnetic conductive material or a magnetic material. The physiological measuring device for performing data transmission using the magnetic earphone plug module according to claim 6, wherein the docking magnetic connector is electrically coupled to the physiological measuring device by a circuit board. The physiological measuring device for performing data transmission using the magnetic earphone plug module according to claim 6, wherein the magnetic ring body and the magnetic contact plate have mutually opposite magnetic directions for attracting each other. The physiological measuring device for performing data transmission using the magnetic earphone plug module according to Item 6 of the patent application scope, wherein the electrical connection terminals are telescopic probe terminals or elastic electrical connection terminals. According to the physiological measuring device for performing data transmission using the magnetic earphone plug module according to claim 6, the plugging terminal of the earphone plug module can be further inserted into one of the external portable electronic devices. The earphone jack is configured to input the physiological data generated by the physiological measuring device into the external portable electronic device. The physiological measuring device for performing data transmission using the magnetic earphone plug module according to claim 11 of the patent application scope, wherein the portable electronic device is a general mobile phone (Mobilephone) and a smart mobile phone (Smartphone) ), one of a personal digital assistant (PDA), a tablet (Tablet PC), and a notebook (Notebook).