KR20120085062A - Wearable drug administration apparatus and drug administration system including the same - Google Patents

Abstract

PURPOSE: A wearable drug administration apparatus and a drug administration system including the same are provided to enable a user to adjust drug administration time. CONSTITUTION: A wearable drug administration apparatus comprises a piezoelectric patch unit(110), a communication unit(120), a display unit(130), an input-output unit(140), a piezoelectric patch controller(150), and a wearing unit(170). The piezoelectric patch unit administers drug to a part of the attached human body. The communication unit is connected to a management server managing medication through a network. The piezoelectric patch controller controls the piezoelectric patch unit.

Description

Wearable drug administration device and drug administration system including the same {WEARABLE DRUG ADMINISTRATION APPARATUS AND DRUG ADMINISTRATION SYSTEM INCLUDING THE SAME}

The present invention relates to a wearable drug administration device which can be worn on a human body and a drug administration system including the same, and more particularly, to a wearable drug administration device and a drug administration system including the same that can be used in a ubiquitous network environment.

With the development of communication technology, the development of technology using communication network is actively progressing, and ubiquitous technology is trying to bring convenience to life by integrating these technologies into daily life.

The use of microneedle patches has become practical as one of the means of replacing drug administration using conventional injection. The microneedle patch frees the user from the fear of pain from the injection, and is attached to the body so that the user can receive the drug anywhere as long as the microneedle patch is attached.

However, the conventional microneedle patch has a disadvantage in that the administration time of the drug cannot be adjusted, and if the administration of the drug administration is continuously necessary even after the prescription, the user has a inconvenience of having to visit the prescription drug institution again. And the microneedle patch is in contact with the skin only by its adhesive force, so that the microneedle patch may fall off the skin.

However, the development of a technology that can effectively solve the inconvenience of the microneedle patch listed above is insufficient.

An object of the present invention is to apply the conventional electronic and communication technology, the user can adjust the drug administration time by the microneedle patch, can be connected to the network to obtain and display information about drug administration from the management server The present invention provides a wearable drug administration device and a drug administration system that are portable and can stably support the administration of a patch-type drug.

In order to solve the above problems, the wearable drug administration device according to the present invention includes a piezoelectric patch unit attached to a part of a human body to administer a drug to a part of the attached human body; Communication unit for connecting via a network to the management server for managing drug administration; A piezoelectric patch control unit which analyzes drug administration information on drug administration received through the communication unit and controls the piezoelectric patch unit to administer a drug to a part of the attached human body based on the analysis result; And a wearing unit for housing the piezoelectric patch unit, the communication unit, and the piezoelectric patch control unit to be worn on a human body.

In order to solve the above problems, the wearable drug administration device according to the present invention includes a piezoelectric patch unit attached to a part of a human body to administer a drug to a part of the attached human body; Communication unit for connecting via a network to the management server for managing drug administration; A piezoelectric patch control unit coupled to the piezoelectric patch unit and controlling the piezoelectric patch unit to analyze drug administration information on drug administration received through the communication unit and to administer a drug to a part of the attached human body based on the analysis result; ; A main body unit coupled to the piezoelectric patch unit and housing the communication unit and the piezoelectric patch control unit; And a wearing part detachably coupled to the main body part and for wearing the main body part on a human body.

In the wearable drug administration device according to the first or second feature, the piezoelectric patch portion is attached to the microneedle array in contact with a part of the human body, a drug holding case for holding the microneedle array and containing the drug And a piezoelectric module configured to press the drug accommodating case under the control of the piezoelectric patch control unit to administer the drug to a part of the human body in contact with the microneedle array.

In the wearable drug administration device according to the first or second feature, the wearable drug administration device further comprises an audio output unit, the piezoelectric patch control unit, the matter related to the drug administration information through the sound output unit Outputting sound through the sound output unit instructing the piezoelectric patch control unit to mount the piezoelectric patch unit corresponding to the type of drug to be administered when the drug administration information includes the type of drug to be administered. can do.

In the wearable drug administration device according to the first or second feature, the piezoelectric patch may be detachably attached to the piezoelectric patch control unit, and may be separately provided corresponding to the type of drug to be accommodated.

In the wearable drug administration device according to the first or second feature, the wearable drug administration device further comprises a display unit, the piezoelectric patch control unit, the matter related to the drug administration information through the display unit, Display the message information in the form of a letter, figure, or image, and instructing the piezoelectric patch control unit to mount the piezoelectric patch corresponding to the type of drug to be administered when the drug administration information includes the type of drug to be administered. Can be displayed through wealth.

The display unit may include a flat panel and an image signal processor connected to the flat panel to display an image on the flat panel.

In the wearable drug administration device according to the first or second feature, the wearable drug administration device may further include an input / output unit for interworking with an external peripheral device.

The microneedle array is made of a hollow microneedle by a micro electro mechanical systems (MEMS) process, the drug can be accommodated in the drug holding case and the inside of the microneedle.

On the other hand, wearable drug administration system according to the present invention to solve the above problems, the management server for managing the drug administration; And a piezoelectric patch unit attached to a part of the human body to administer the drug to a part of the attached human body, a communication unit connecting to a management server managing drug administration through a network, and drug administration for drug administration received through the communication unit. A piezoelectric patch control unit for controlling the piezoelectric patch unit to analyze information and to administer a drug to a part of the attached human body based on the analysis result, and housing the piezoelectric patch unit, the communication unit, and the piezoelectric patch control unit for wearing on the human body It may include; wearable drug administration device having a wearing portion.

Here, the management server identifies the drug administration target to which the drug is administered through the IP address of the wearable drug administration device connected to the network, and extracts drug administration information for the identified drug administration target to the identified drug administration target. It can be transmitted to the wearable drug administration device corresponding to.

In addition, the drug administration information may include any one or two or more of the type of drug to be administered, the administration time of the drug, the administration target of the drug and the administration of the drug.

Wearable drug administration device according to the present invention to control the piezoelectric patch that can administer the drug by attachment and to wear it on the human body, and facilitates information on the administration of the drug from a remotely located management server through the network By acquiring, it is possible to easily administer the drug anytime and anywhere, and obtain information about the drug administration from a remotely located management server.

In addition, the wearable drug administration device according to the present invention has a piezoelectric patch portion detachable form the main body portion, it is possible to facilitate the replacement of the administration drug according to the user's needs and instructions of the management server.

And the wearable drug administration device according to the present invention can facilitate the manufacturing and maintenance by the physical holding member such as the wearing portion and the electrical portion such as the body portion is implemented in a modular and removable form.

In addition, the drug administration system according to the present invention can provide a rapid drug administration information to the user because the wearable drug administration device is automatically connected to the management server through the network, so that identification of the administration target of the drug is possible.

1 is a block diagram of a wearable drug administration device according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram for explaining the piezoelectric patch shown in FIG. 1.
3 is a block diagram of the display unit illustrated in FIG. 1.
Figure 4 is a perspective view of the wearable drug administration device according to another embodiment of the present invention.
Figure 5 is an exploded perspective view of the wearable drug administration device according to another embodiment of the present invention.
Figure 6 is a block diagram of a drug administration system according to another embodiment of the present invention.

Hereinafter, a wearable drug administration device according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 3.

As shown in FIG. 1, the wearable drug administration device 100 according to an exemplary embodiment of the present invention includes a piezoelectric patch 110, a communication unit 120, a display unit 130, an input / output unit 140, and a piezoelectric patch. The control unit 150 and the wearing unit 170. The wearing unit 170 may perform a function of wearing other components by housing other components.

As shown in FIG. 2, the piezoelectric patch 110 includes a microneedle array 112, a drug accommodating case 114, and a piezoelectric module 116 and is attached to a wrist and a part of a human body. FIG. 2 illustrates the microneedle array 112 and the drug storage case 114 in an exaggerated manner. Substantially, the microneedle array 112 is manufactured in a small size and almost causes pain even when penetrated by contact with the skin. It doesn't work.

The microneedle array 112 may be formed in a form in which each microneedle has a hollow by a micro electro mechanical systems (MEMS) process. MEMS process is applied to fabricate ultra-fine structures by combining semiconductor processing technology and microfabrication technology. The hollow microneedle array 112 may accommodate the drug together with the drug storage case 114.

The piezoelectric module 116 may be composed of a piezo actuator and a driving circuit for driving the piezoelectric actuator. The piezo actuator is one of the piezoelectric element elements and is currently widely applied, and a detailed description thereof will be omitted.

The drug case 114 supports the microneedle array 112 and provides a space in which the drug is accommodated. The piezoelectric module 116 is disposed on an opposite side of the surface on which the microneedle array 112 is disposed among the outer surfaces of the drug accommodating case 114 and performs stretching operation under the control of the piezoelectric patch control unit 150.

Drug storage case 114 is stretched in response to the stretching operation of the piezoelectric module 116. The stretching operation of the drug case 114 determines whether the drug contained in the drug case 114 and the microneedle array 112 is administered to the skin in contact with the microneedle array 112.

The communication unit 120 may support various communication protocols for connection with various networks. The communicator 120 is connected to a management server managing drug administration through a network. The communication unit 120 receives drug administration information on drug administration transmitted from the connected management server and transmits the drug administration information to the piezoelectric patch control unit 150.

Drug administration information transmitted from the management server may be set in advance by the user. Drug administration information may include the type of drug, the time of administration of the drug, the administration target of the drug, and precautions for the administration of the drug. Drug administration information may be set in various ways depending on the subject to which the drug is administered.

The display 130 performs a function of displaying an image of drug administration information under the control of the piezoelectric patch 110. The image signal processor 134 is connected to the flat panel 132 to display an image. For the compact arrangement, the image signal processor 134 and the flat panel 132 may be connected through a flexible interface. The flat panel 132 may be implemented as an LCD panel or an OLED panel, and may be provided in a flexible form. In addition, the wearable drug administration device 100 according to the present embodiment may further include a means for expressing the drug administration information through sound or light.

The input / output unit 140 may include an input / output module supporting various standards such as RS232, RS422, and USB (Universal Serial Bus) for interworking with an external peripheral device. For example, the input / output unit 140 may store the drug administration information in an external USB memory device through the input / output module of the USB under the control of the piezoelectric patch control unit 150. In addition, when the wearable drug administration device 100 according to the present embodiment includes a battery that can be charged, the battery may be charged using a DC power source from a USB memory.

The piezoelectric patch control unit 150 serves to control the overall operation of the wearable drug administration device 100 according to the present embodiment. Here, an operation related to drug administration among the operations of the piezoelectric patch control unit 150 will be described in detail.

The piezoelectric patch control unit 150 analyzes drug administration information on drug administration received through the communication unit 120 and controls the drug to be administered to a part of the human body to which the piezoelectric patch unit 110 is attached based on the analysis result. It generates and transmits to the piezoelectric module 116. By the transmitted control signal, the piezoelectric module 116 performs the stretching operation. This stretching operation determines whether the drug is administered through the microneedle array 112.

In addition, the piezoelectric patch control unit 150 controls the display unit 130 to display an image of the drug administration information. When the piezoelectric patch 110 is provided in correspondence with the type of drug to be accommodated, the piezoelectric patch control unit 150 controls the piezoelectric patch unit 110 corresponding to the type of drug to be administered in the drug administration information. And generates message information instructing to be mounted on the control panel, and controls the display unit 130 to display an image corresponding to the generated message information.

Thereby, the wearable drug administration device 100 according to the present embodiment can be worn to easily administer the drug anytime and anywhere, and easily obtain information on the administration of the drug from a remotely managed server through a network. can do.

Hereinafter, a wearable drug administering device 200 according to another embodiment of the present invention will be described with reference to FIGS. 4 and 5. Duplicate description with the above embodiment will be omitted. As shown in FIGS. 4 and 5, the wearable drug administration device 200 according to the present embodiment includes a piezoelectric patch 210, a body 260, and a body 260 for wearing a body on a human body. 270.

The main body 260 illustrated in FIGS. 4 and 5 includes a configuration such as the communication unit 120, the input / output unit 140, and the piezoelectric patch control unit 150 illustrated in FIG. 1. Descriptions of these components are omitted because they are the same as described above.

The piezoelectric patch 210 may be coupled to the bottom surface of the main body 260 and detachably coupled thereto. In this case, if there is no remaining amount of drug contained in the piezoelectric patch 210 mounted on the main body 260 or if you want to replace it with the piezoelectric patch 210 containing other types of drugs, it can be easily replaced. The surface of the piezoelectric patch 210 attached to the human body, that is, the surface on which the microneedle array is disposed, is fixed to penetrate through the opening A of the wearing portion 270 illustrated in FIG. 5, and the inside of the wearing portion 270. Is exposed towards.

The flat panel of the display unit 230 is coupled to the upper surface of the main body 260. The flat panel of the present embodiment may be implemented in a flexible form. The image signal processor may be disposed in the main body 260.

The wearing part 270 may be implemented in the form of a curved band connected to one end of the main body 260 as shown in FIGS. 4 and 5. The wearing part 270 is for wearing the main body 260 on the wrist of the body, and may be implemented with a flexible material to maintain a constant wearability regardless of the size of the wrist. In the present exemplary embodiment, the wearing part 270 is provided only in the form connected to one end of the main body 260, but the wearing part 270 may be connected to both ends of the main body 260.

As described above, the wearable drug administration device 200 according to the present embodiment is easily worn as a form mounted on the wrist, and the drug administration information can be easily checked through the display unit mounted on the wrist from time to time. In addition, the piezoelectric patch 210 is detachable to the main body 260, it is possible to facilitate the replacement of the administration medication according to the user's needs and instructions of the management server.

In addition, the wearable drug administration device 100 according to the present embodiment is manufactured and maintained by physically detaching a physical holding member such as the wearing unit 170 and an electrical part such as the main body unit 260 and being detachably modularized. It can be done easily.

Hereinafter, with reference to Figure 6 will be described a drug administration system according to another embodiment of the present invention. In the above embodiments, descriptions that overlap with the contents already described will be omitted.

As shown in FIG. 6, the drug administration system 3 according to another embodiment of the present invention includes a wearable drug administration device 30 connected through a management server 10 and a network 20. The wearable drug administration device 30 of the present embodiment uses the wearable drug administration device 200 according to the embodiment shown in FIGS. 4 and 5 for convenience.

The management server 10 is a server that manages drug administration, stores drug administration information on administration of a drug previously set by a user, and transmits the drug administration information to the wearable drug administration device 100 through the network 20. Drug administration information may include the type of drug, the time of administration of the drug, the administration target of the drug, and precautions for the administration of the drug.

The management server 10 may be composed of a drug administration target identification unit 12 and drug administration information transmission unit 14 in relation to drug administration. The drug administration target identification unit 12 identifies a drug administration target to which the drug is administered through the IP address of the wearable drug administration device 100 connected to the network 20. That is, the drug administration target identification unit 12 checks the IP address and identifies the drug administration target stored in advance using the confirmed IP address.

The drug administration information transmission unit 14 extracts drug administration information corresponding to the identified drug administration target, and wears the drug administration corresponding to the drug administration target using the IP address identified by the drug administration target identification unit 12. Transmit to device 30.

As described above, the drug administration system 3 according to the present embodiment has a wearable drug administration device 30 connected to the management server 10 through the network 20 to the administration object of the drug by the management server 10. The identification is possible automatically, so it is possible to provide prompt drug administration information.

100,200: wearable drug administration device 110,210: piezoelectric patch
112: microneedle array 114: drug storage case
116: piezoelectric module 120: communication unit
130, 230: display unit 140: input and output unit
150: piezoelectric patch control unit 170,270: wearing part
260: main body

Claims (12)

A piezoelectric patch unit attached to a part of a human body and configured to administer a drug to a part of the attached human body;
Communication unit for connecting via a network to the management server for managing drug administration;
A piezoelectric patch control unit which analyzes drug administration information on drug administration received through the communication unit and controls the piezoelectric patch unit to administer a drug to a part of the attached human body based on the analysis result; And
Wearable drug administration device comprising a; wearable for wearing on the human body by housing the piezoelectric patch, the communication unit and the piezoelectric patch control unit. A piezoelectric patch unit attached to a part of a human body and configured to administer a drug to a part of the attached human body;
Communication unit for connecting via a network to the management server for managing drug administration;
A piezoelectric patch control unit coupled to the piezoelectric patch unit and controlling the piezoelectric patch unit to analyze drug administration information on drug administration received through the communication unit and to administer a drug to a part of the attached human body based on the analysis result; ;
A main body unit coupled to the piezoelectric patch unit and housing the communication unit and the piezoelectric patch control unit; And
The wearable drug administration device is coupled to the main body and detachable, wearing portion for wearing the body portion on the human body. The method according to claim 1 or 2,
The piezoelectric patch portion is pressed by the microneedle array in contact with a part of the human body by attachment, a drug holding case for holding the microneedle array and containing the drug, and by pressing the drug holding case under the control of the piezoelectric patch control unit Wearable drug administration device comprising a piezoelectric module for administering the drug to the part of the human body in contact with the microneedle array. The method according to claim 1 or 2,
The wearable drug administration device further includes an audio output unit,
The piezoelectric patch control unit outputs the matter related to the drug administration information as a sound through the sound output unit, and when the type of drug to be administered is included in the drug administration information, the piezoelectric patch corresponding to the type of drug to be administered. Wearable drug administration device characterized in that for outputting the message information for instructing to mount the piezoelectric patch control unit via the sound output unit. The method according to claim 1 or 2,
The piezoelectric patch may be detachably attached to the piezoelectric patch control unit, and the wearable drug administration device according to claim 1, wherein the piezoelectric patch may be separately provided. The method according to claim 1 or 2,
The wearable drug administration device further includes a display unit,
The piezoelectric patch control unit displays the information on the drug administration information through the display unit as data, text, graphics, or an image, and when the type of drug is included in the drug administration information, the type of drug to be administered. Wearable drug administration device characterized in that for displaying the message information for instructing to mount the piezoelectric patch portion corresponding to the piezoelectric patch control unit via the display. The method of claim 6,
The display unit, a wearable drug administration device comprising a flat panel and an image signal processor connected to the flat panel to display an image on the flat panel. The method according to claim 1 or 2,
The wearable drug administration device further comprises an input / output unit for interworking with an external peripheral device. The method of claim 3,
The microneedle array is a wearable drug administration device, characterized in that each microneedle is made hollow by a MEMS (Micro Electro Mechanical Systems) process, the drug is accommodated in the drug case and the microneedle. A management server managing drug administration; And
Piezoelectric patch unit attached to a part of the human body to administer the drug to the part of the attached body, Communication unit for connecting the management server for managing the drug administration through the network, Drug administration information for drug administration received through the communication unit And a piezoelectric patch control unit for controlling the piezoelectric patch unit to administer the drug to a part of the attached human body based on the analysis result, and wearing the piezoelectric patch unit, the communication unit, and the piezoelectric patch control unit to be worn on the human body. Wearable drug administration device having a;
Drug administration system comprising. The method of claim 10,
The management server identifies the drug administration target to which the drug is administered through the IP address of the wearable drug administration device connected to the network, and extracts drug administration information for the identified drug administration target to the identified drug administration target. Drug administration system for transmitting to the corresponding wearable medication device. The method of claim 10,
The drug administration information is a drug administration system, characterized in that it comprises any one or two or more of the type of drug to be administered, the time of administration of the drug, the administration target of the drug and the administration of the drug.

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