CN114652962A - Information acquisition system - Google Patents

Abstract

The application provides an information acquisition system, includes: the information acquisition part comprises an acquisition part and an information transmission module connected with the acquisition part, wherein the information transmission module comprises a first coil; the information acquisition part is configured to be implanted into a part to be acquired in a body of an object to be acquired; the first regulating part comprises a second coil, and the first regulating part is coupled with the first coil by utilizing the second coil so as to output energy to the information acquisition part; wherein the first regulating part is configured to be arranged outside the body of the object to be collected; wherein, the signal that the collection piece gathered passes through the second coil that the first coil coupling of information transmission module is to first regulation and control portion. When the information acquisition system is used, the first regulation and control part is arranged outside the body, and the information acquisition part is arranged in a body of an object to be acquired; therefore, the requirements on the biocompatibility, the battery safety, the packaging tightness and the overall reliability of the first regulating part are reduced, the production cost of the information acquisition system can be obviously reduced, and the clinical popularization is facilitated.

Description

Information acquisition system

Technical Field

The invention relates to the technical field of electronic equipment, in particular to an information acquisition system.

Background

Information acquisition systems are widely used in clinical diseases such as cardiac pacemakers and cardiac defibrillators for use in cardiac diseases, deep brain electrical stimulators, spinal cord stimulators, and transcutaneous magnetic stimulators for use in neurological diseases, and the like.

The information acquisition system in clinical at present is mostly implanting entirely, and the information acquisition system uses the mode of bluetooth to carry out the conveying of information collection usually, but the information acquisition system who uses the bluetooth mould has that the piece is bulky, the problem of signal loss height and system upgrade difficulty, and has the big problem of potential risk such as leakproofness and security, has not only improved the apparatus cost greatly, also leads to a great deal of apparatus to be difficult to clinical popularization, and influences user's use and experience.

Therefore, how to solve the above problems is a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

It is an object of embodiments of the present application to provide an information acquisition system that can at least solve the above-mentioned problems.

A first aspect of an embodiment of the present application provides an information acquisition system, including: the information acquisition part comprises an acquisition part and an information transmission module connected with the acquisition part, wherein the information transmission module comprises a first coil; the information acquisition part is configured to be implanted into a part to be acquired in a body of an object to be acquired;

a first regulation part including a second coil, the first regulation part being coupled with the first coil using the second coil to output energy to the information acquisition part; wherein the first regulating part is configured to be arranged outside the body of the object to be collected;

wherein, the signal that the collection piece gathered passes through the first coil coupling of information transmission module to the second coil of first regulation and control portion.

In some embodiments, the information transmission module further comprises:

the signal amplification module is connected with the acquisition part and is used for amplifying the signals acquired by the acquisition part;

and the rectifying module is connected with the first coil and used for rectifying the energy received by the first coil so as to supply energy to the signal amplification module at least.

In some embodiments, the information transmission module further comprises:

and the compiling module is connected with the signal amplifying module and is used for compiling the signal amplified by the signal amplifying module.

In some embodiments, the first regulating part further comprises:

and the first regulation and control module is used for regulating the energy output of the second coil so as to control the information acquisition parameters of the information acquisition part.

In some embodiments, the first regulating part further comprises:

a first communication module to transmit acquisition information coupled to the second coil.

In some embodiments, the first regulation part further comprises:

and the analysis module is connected with the first communication module and is used for analyzing the acquired information coupled to the second coil.

In some embodiments, further comprising:

the first display control part is connected with the first regulation and control part and carries out visual display according to the acquisition information acquired by the first communication module.

In some embodiments, further comprising:

a second regulation and control section including a third coil, the second regulation and control section being coupled with the first coil with the third coil to output energy to the information acquisition section;

wherein the signal collected by the collecting part is coupled to the third coil of the second regulating part through the first coil of the information transmission module.

In some embodiments, the second regulation part further comprises:

a second communication module to transmit acquisition information coupled to the third coil.

In some embodiments, further comprising:

and the second display control part is connected with the second regulation and control part and is used for carrying out visual display according to the acquisition information acquired by the second communication module.

The technical scheme of the application has the following beneficial technical effects:

in the embodiment of the application, the information acquisition part of the information acquisition system is configured to be implanted into a part to be acquired in a body of an object to be acquired, and the first regulation and control part is configured to be placed outside the body of the object to be acquired, that is, the information acquisition system of the application adopts a distributed arrangement mode. Based on the setting mode, on one hand, the production cost of the system can be obviously reduced, when the information acquisition system is used, the first regulation and control part is arranged outside the body, and the information acquisition part is arranged at the part to be acquired in the body; therefore, the requirements on the biocompatibility, the battery safety, the packaging tightness and the overall reliability of the first regulation part are reduced, the product cost is greatly reduced, and the clinical popularization is facilitated. Furthermore, the collected signals are transmitted to the first regulating part in a coil coupling mode, so that signal loss can be effectively reduced, and reliable transmission of the signals is guaranteed.

On the other hand, the information acquisition system of the application is convenient to upgrade. Specifically, based on the information acquisition system of user state, the first regulation and control portion only needs to be upgraded for upgrading of the information acquisition system, and therefore the upgrading difficulty is greatly reduced. Furthermore, even because the cost of the information acquisition system is reduced, the updated information acquisition system can be directly replaced, and the updating cost is further reduced.

Further, potential risks are reduced when the information acquisition system of the application is used. Particularly, as the implanted part in the body of the object to be acquired of the information acquisition system is a passive implant, and the complexity of the system is reduced, the risks of the encapsulation tightness, the battery safety and the like of the potential information acquisition part are greatly reduced. In addition, because the energy output is from the first regulation and control portion of outside, can shut down when the information acquisition system emergence emergency fast, greatly reduced use risk.

Drawings

Fig. 1 is a schematic block diagram of a structure of an information acquisition system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of an information acquisition unit according to an embodiment of the present application;

fig. 3 is a schematic block diagram of an overall structure of a first regulation part according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a first control portion and a first display control portion provided in an embodiment of the present application;

fig. 5 is a schematic block diagram of structures of a second regulating part and a second display control part provided in another embodiment of the present application;

fig. 6 is a flowchart illustrating an operation of an information collecting system according to an embodiment of the present disclosure.

Reference numerals:

1. an information acquisition unit; 11. collecting parts; 12. an information transmission module; 121. a first coil; 123. a rectification module; 124. a signal amplification module; 125. compiling the module; 2a, a first regulating part; 2b, a first display control part; 21. a second coil; 221. a first communication module; 23. a first regulatory module; 24. a battery; 3a, a second regulating part; 3b, a second display control part; 31. and a third coil.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings in conjunction with the detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

The structure schematic diagram according to the embodiment of the application is shown in the attached drawings. The figures are not drawn to scale, wherein certain details may be omitted for clarity. The various regions, shapes, and relative sizes and positional relationships therebetween shown in the drawings are merely exemplary, and deviations may occur in practice due to manufacturing tolerances or technical limitations, and those skilled in the art may additionally design regions having different shapes, sizes, relative positions, according to actual needs.

It should be apparent that the embodiments described are some, but not all embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In addition, the technical features mentioned in the different embodiments of the present application described below may be combined with each other as long as they do not conflict with each other.

The present application will be described in more detail below with reference to the accompanying drawings. Like elements in the various figures are denoted by like reference numerals. For purposes of clarity, the various features in the drawings are not drawn to scale.

In an embodiment of the present application, referring to fig. 1 to 6, an information collecting system is provided, which includes an information collecting part 1 and a first regulating part 2 a. The information acquisition part 1 comprises an acquisition part 11 and an information transmission module 12 connected with the acquisition part 11, wherein the information transmission module 12 comprises a first coil 121; wherein the information collecting part 1 is configured to be implanted into a site to be collected in a body of a subject to be collected. The first regulation and control part 2a includes a second coil 21, and the first regulation and control part 2a is coupled with the first coil 121 by using the second coil 21 to output energy to the information acquisition part 1; wherein the first regulating part 2a is configured to be placed outside the body of the subject to be collected. Wherein, the signal collected by the collecting part 11 is coupled to the second coil 21 of the first control part 2a through the first coil 121 of the information transmission module 12. Further, the first regulating part 2a acquires the information acquired by the information acquiring part 1 in such a manner that the second coil 21 is coupled to the first coil 121 of the information acquiring part 1.

In the embodiment of the present application, the information collecting part 1 of the information collecting system is configured to be implanted into a to-be-collected portion in a to-be-collected object, and the first regulating part 2a is configured to be placed outside the to-be-collected object, that is, the information collecting system of the present application adopts a distributed arrangement manner. Based on the setting mode, on one hand, the production cost of the system can be obviously reduced, when the information acquisition system is used, the first regulation and control part 2a is arranged outside the body, and the information acquisition part 1 is arranged at the part to be acquired in the body; therefore, requirements for biocompatibility, battery safety, packaging tightness and overall reliability of the first regulating part 2a are reduced, product cost is greatly reduced, and clinical popularization is facilitated. Furthermore, the collected signals are transmitted to the first regulating part 2a in a coil coupling mode, so that the signal loss can be effectively reduced, and the reliable transmission of the signals is ensured.

On the other hand, the information acquisition system of the application is convenient to upgrade. Specifically, based on the information acquisition system in the use state, the first regulation and control part 2a only needs to be upgraded when the information acquisition system is upgraded, so that the upgrading difficulty is greatly reduced. Furthermore, even because the cost of the information acquisition system is reduced, the updated information acquisition system can be directly replaced, and the updating cost is further reduced.

In some embodiments, a plurality of first regulating parts 2a may be provided, and each first regulating part 2a configures a battery of a preset capacity. In this application, through the first regulation and control portion 2a that is equipped with a plurality of quantities, can satisfy information acquisition system's long-time user demand, the battery capacity of the first regulation and control portion 2a of rational distribution realizes the littleer volume of information acquisition system.

In some embodiments, the information transmission module 12 further includes a signal amplification module 124 and a rectification module 123. The signal amplification module 124 is connected with the acquisition part 11, and the signal amplification module 124 is used for amplifying the signal acquired by the acquisition part 11; the rectifying module 123 is connected to the first coil 121, and the rectifying module 123 is configured to rectify energy received by the first coil 121 to supply at least the signal amplifying module 124. Further, the first control part 2a is coupled with the first coil 121 of the information collecting part 1 by using the second coil 21 to transmit the energy of the first control part 2a to the information collecting part 1, and the energy received by the first coil 121 is rectified by the rectifying module 123 to provide the rectified current to the signal amplifying module 124.

In some embodiments, information delivery module 12 also includes a compiling module 125. The compiling module 125 is connected to the signal amplifying module 124, and the compiling module 125 is configured to compile the signal amplified by the signal amplifying module 124. Further, the compiled signal is coupled to the second coil 21 of the first control part 2a through the first coil 121 to realize the transmission of the collected signal. It is understood that the information collecting part 1 is provided with an energy storing means for storing energy coupled to the first coil 121 by the second coil 21 and providing energy when the first coil 121 couples the compiled signal to the second coil 21.

In some embodiments, the first regulation part 2a further includes a first regulation module 23. The first control module 23 is used for adjusting the energy output of the second coil 21 to control the information acquisition parameters of the information acquisition part 1. Further, the information acquisition system controls the acquisition parameters of the acquisition element 11 by adjusting the first conditioning module 23 to control the current, waveform, and pulse of energy coupled to the first coil 121.

The collecting part 11 is an electrode, and the first control module 23 is a control device with a solid key, and can be adjusted by pressing a case. Specifically, the first regulation and control module 23 is used for controlling the opening and closing of the first regulation and control part 2a and controlling the regulation of the energy parameter output by the first regulation and control part 2 a. The first control module 23 includes a switch button for controlling the first control portion 2a to be turned on and off and a parameter control button. The parameter adjusting key is used for controlling the adjustment of the energy parameter output by the first adjusting part 2 a; wherein, the parameter adjustment through the parameter adjustment key controls the acquisition parameter of the information acquisition part 1 through the first regulation part 2 a. Parameter adjustments include adjustments in current, waveform, and pulse.

The potential risk when the information acquisition system of this application uses reduces. Specifically, because the implanted part in the body of the object to be acquired of the information acquisition system is a passive implant, and the complexity of the system is reduced, the potential risks of the encapsulation tightness of the information acquisition part 1, the safety of the battery 24 and the like are greatly reduced. In addition, because the energy output is from the first regulation and control part 2a of outside, can shut down when the information acquisition system appears emergency situation fast, greatly reduced use risk.

In some embodiments, the first control portion 2a further includes a first communication module 221. The first communication module 221 is configured to transmit the collected information coupled to the second coil 21.

In some embodiments, the first control part 2a further comprises an analysis module. The analysis module is connected to the first communication module 221, and the analysis module is configured to analyze the collected information coupled to the second coil 21.

In some embodiments, the first control portion 2a further comprises a battery 24, and the battery 24 is used for supplying power to the first communication module 221 and the analysis module.

Further, the first regulating part 2a is mounted outside the body of the subject to be collected in the use state. The object to be collected includes a patient, and specifically, in use, the first regulating part 2a may be mounted on the skin surface of the patient, and the position of the first regulating part 2a corresponds to the position of the information collecting part 1.

In some embodiments, the display control device further comprises a first display control part 2 b. The first display control part 2b is connected with the first control part 2a, and the first display control part 2b performs visual display according to the acquired information acquired by the first communication module 221. Further, the first display control unit 2b can also control the first control unit 2a based on the connection with the first control unit 2 a.

Further, the first control unit 2a and the first display control unit 2b are connected by wireless or wired connection. In a preferred embodiment, the first communication module 221 of the first control portion 2a is a bluetooth module, and the first control portion 2a and the first display control portion 2b are connected through a bluetooth mode.

The information acquisition system of this application has characteristics that small and comfort level are high. Based on this application with first regulation and control portion 2a setting in vitro, information acquisition portion 1 sets up the position of waiting to gather in vivo, makes first regulation and control portion 2a externally receive the collection signal of arranging in internal information acquisition portion 1 to control the collection parameter of information acquisition portion 1, the information acquisition portion 1 of this application is a passive device promptly. Based on the setting mode, the method and the device are different from an active control mode that the information acquisition part 1 and the regulation part need to be connected through a line in the related technology, and the complexity of the information acquisition system is simplified. Further, because the information acquisition part 1 of this application need not the circuit of active connection mode for the volume of information acquisition part 1 reduces greatly, and then has reduced manufacturing cost, and is showing the use comfort who promotes the user.

In some embodiments, the information acquisition system further includes a second regulating part 3 a. The second regulation and control section 3a includes a third coil 31, and the second regulation and control section 3a is coupled with the first coil 121 using the third coil 31 to output energy to the information collecting section 1. Wherein, the signal collected by the collecting element 11 is coupled to the third coil 31 of the second regulating part 3a through the first coil 121 of the information transmission module 12.

Further, when the second regulating part 3a is in a use state, the second regulating part 3a is mounted in the body of the subject to be collected. The object to be collected includes a patient, and particularly, in use, the second regulating part 3a may be installed in the body of the patient.

In some embodiments, the information acquisition system further includes a second display control portion 3 b. The second display control part 3b is connected with the second control part 3a, and the second display control part 3b performs visual display according to the acquisition information acquired by the second communication module. Further, the second display control portion 3b can also control the second control portion 3a based on the connection with the second control portion 3 a.

In some embodiments, the second control portion 3a further includes a second communication module. The second communication module is used to transmit the acquisition information coupled to the third coil 31. Specifically, the second regulation and control portion 3a and the second display and control portion 3b are connected in a wireless manner. In a preferred embodiment, the second communication module is a bluetooth module, and the second control portion 3a and the second display control portion 3b are connected through a bluetooth mode.

In some embodiments, the second control portion 3a further comprises a battery 24, and the battery 24 is used for supplying power to the second communication module and the third coil 31 module.

Further, the second regulation part 3a of the present application is functionally identical to the first regulation part 2a based on the use requirement for long-term implantation. However, unlike the first control unit 2a, the second control unit 3a has no key, and the second control unit 3a is connected to the external second display control unit 3b in a wireless communication manner. Further, the second regulating part 3a includes a third coil 31 capable of supplying the in-vivo information collection part 1 with power by way of coupling and receiving the collected information of the information collection part 1 from which the first coil 121 is coupled to the third coil 31. Further, the third regulation unit of the second regulation part 3a receives the power supply of the external wireless charger by way of coupling with the third coil 31 to perform charging.

In the application, the second regulating part 3a is added, so that the practicability of the information acquisition system can be obviously improved, and different use requirements of users can be met; further, second regulation and control portion 3a carries out acquisition parameter control to information acquisition portion 1, and this application has realized that second regulation and control portion 3a and information acquisition portion 1's distributed arrangement promptly can satisfy different demands of arranging as required, is showing the flexibility of using that promotes this application information acquisition system, is favorable to promoting user's use and experiences.

In one embodiment, referring to fig. 6, the present application provides a workflow of an information collection system, comprising: implanting an information acquisition part, wherein the information acquisition part is implanted into a part to be acquired of a human, and the part to be acquired comprises a heart, a brain or a spinal cord, peripheral nerves, muscles and the like;

starting a first regulation and control part outside the body, wherein the first regulation and control part controls the acquisition parameters of the information acquisition part according to the energy provided by the first regulation and control part;

judging whether the information acquisition is effective or not, wherein whether the first display control part connected with the first regulation and control part acquires the acquired information or not is observed so as to evaluate whether the acquisition of the information acquisition part is effective or not;

inquiring whether the user wants to implant the implant completely or not according to a judgment result that the information can be normally acquired;

based on the requirement that the user wants to implant the whole body, the second regulating part is implanted into the body, and the energy provided by the second regulating part is used for controlling the acquisition parameters of the information acquisition part;

continuing to use the first regulating part based on the requirement that the user does not want to implant completely;

and removing the information acquisition part according to the judgment that the information acquisition is invalid.

The invention has been described above with reference to embodiments thereof. However, these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof. Various alternatives and modifications can be devised by those skilled in the art without departing from the scope of the invention, and these alternatives and modifications are intended to be within the scope of the invention.

Claims (10)

1. An information acquisition system, comprising:

the information acquisition part comprises an acquisition part and an information transmission module connected with the acquisition part, wherein the information transmission module comprises a first coil; the information acquisition part is configured to be implanted into a part to be acquired in a body of an object to be acquired;

a first regulation part including a second coil, the first regulation part being coupled with the first coil using the second coil to output energy to the information acquisition part; wherein the first regulating part is configured to be placed outside the body of the object to be collected;

wherein, the signal that the collection piece gathered passes through the first coil coupling of information transmission module to the second coil of first regulation and control portion.

2. The information acquisition system of claim 1, wherein the information transmission module further comprises:

the signal amplification module is connected with the acquisition part and is used for amplifying the signals acquired by the acquisition part;

and the rectifying module is connected with the first coil and used for rectifying the energy received by the first coil so as to supply energy to the signal amplification module at least.

3. The information acquisition system of claim 2, wherein the information transmission module further comprises:

and the compiling module is connected with the signal amplifying module and is used for compiling the signal amplified by the signal amplifying module.

4. The information acquisition system according to claim 1, wherein the first regulation and control section further comprises:

and the first regulation and control module is used for regulating the energy output of the second coil so as to control the information acquisition parameters of the information acquisition part.

5. The information acquisition system according to claim 1, wherein the first regulation and control section further comprises:

a first communication module to transmit acquisition information coupled to the second coil.

6. The information acquisition system according to claim 5, wherein the first regulation part further comprises:

and the analysis module is connected with the first communication module and is used for analyzing the acquired information coupled to the second coil.

7. The information acquisition system according to claim 5, further comprising:

and the first display control part is connected with the first regulation and control part, and the first display control part performs visual display according to the acquired information acquired by the first communication module.

8. The information acquisition system of claim 1, further comprising:

a second regulation and control section including a third coil, the second regulation and control section being coupled with the first coil with the third coil to output energy to the information acquisition section;

wherein the signal collected by the collecting piece is coupled to the third coil of the second regulating part through the first coil of the information transmission module.

9. The information acquisition system according to claim 3, wherein the second regulation and control section further comprises:

a second communication module to transmit acquisition information coupled to the third coil.

10. The information acquisition system of claim 1, further comprising:

and the second display control part is connected with the second regulation and control part and is used for carrying out visual display according to the acquisition information acquired by the second communication module.

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