CN203012723U - Health condition monitoring system - Google Patents

Abstract

The utility model provides a health condition monitoring system. The health condition monitoring system comprises a detection terminal and a diagnosis terminal, wherein the detection terminal is provided with a data port and used for detecting physiological parameters of users; and the diagnosis terminal comprises a storage unit, a communication unit, a diagnosis unit and a display unit. The storage unit is used for storing case history information of the users, and the case history information comprises history records of the physiological parameters; the communication unit is used for receiving the physiological parameters from the data port and storing the physiological parameters into the storage unit; the diagnosis unit is used for providing health condition diagnosis results based on the physiological parameters and the case history information; and the display unit is used for displaying the health condition diagnosis results. As the detection terminal provided with the data port is used for being combined with the diagnosis terminal storing case history information of detecting parameters to conduct health condition diagnosis, inconvenience caused by using of detection and diagnosis integrated type equipment is avoided. Meanwhile, the case history information of the users is considered during diagnosis, and therefore, the comprehensive and reliable diagnosis results can be provided.

Description

The health status supervisory system

Technical field

The utility model relates to the health status supervisory system, is specifically related to a kind of health status supervisory system with diagnosis and detection function.

Background technology

Chronic disease is one of challenge of human health maximum, along with the rapid growth of economy, has also welcome the high burden phase of chronic disease simultaneously, and the chronic disease incidence of disease rises rapidly, and presents rejuvenation trend.

For for the chronic disease diabetes, the regular monitoring of patient is very important, is the necessary links that runs through the disease treatment process.By the detection to the index of correlation of patient body, can learn directly or indirectly the preliminary state of an illness/health status of patient, thereby for next step therapeutic scheme of patient provides foundation, such as whether to adjust the medicament dosing, the further detailed diagnostics of whether will sending for a doctor.

Monitor this link for above-mentioned health, the existing way normally patient medical institutions that make a special trip to a certain place is carried out health and is detected, and perhaps patient uses conventional sense equipment to carry out the health detection in family.In the situation that the former, medical institutions have large-scale checkout equipment and the medical professional of specialty, accurate and comprehensive testing result can be provided, but the time and efforts that the client need cost is a large amount of, and testing result sometimes is likely " normally ", do not need the doctor to make further disposal or treatment.

In the latter case, although patient can detect easily at home, but existing family expenses checkout equipment only has basic indivedual index measuring abilities usually, blood glucose value etc. for example, the directive function that elementary detection data like this provide is very limited, because do not combine with other information that are associated, lack such as the such data analysis and process of index analysis of trend yet.If patient buys the comprehensive checkout equipment of complete function, consider it is unpractical at aspects such as costs.

Therefore, problems of the prior art are to use the testing result of conventional sense equipment and patient's pathography to disconnect, patient is difficult to carry out easily at any time health status diagnosis, in conjunction with the parameter historical record of patient self essential information and detection, obtains comprehensive testing result and health guidance.

Introduction to technical background above should be noted that is just carried out clear, complete explanation for convenient to the technical solution of the utility model, and facilitates those skilled in the art's understanding to set forth.Can not only partly carry out setting forth and thinking that technique scheme is conventionally known to one of skill in the art in background technology of the present utility model because of these schemes.

The utility model content

The health status supervisory system that provides a kind of personal user of convenience to use is provided the purpose of the utility model embodiment, thereby solves at least one or the more problem that exists in prior art.

Provide a kind of health status supervisory system according to an aspect of the utility model embodiment, this system comprises:

Sense terminals with data-interface is for detection of user's physiological parameter;

Diagnosis terminal, described diagnosis terminal comprises: storage unit, be used for storing user's medical record information, described medical record information comprises the historical record of described physiological parameter; Communication unit is used for reception from the described physiological parameter of described data-interface and deposits described storage unit in; Diagnosis unit is used for providing the health status diagnosis result based on described physiological parameter and described medical record information; Display unit is used for showing described health status diagnosis result.

The beneficial effect of the utility model embodiment is: the sense terminals that has data-interface by use, diagnosis terminal in conjunction with the historical record of having stored detected parameters carries out health status diagnosis, avoided using the inconvenience of diagnosis and detection integrated form equipment, due to the historical record of the detected parameters of having considered the user in diagnosis, therefore can provide more comprehensive and reliable diagnostic result simultaneously.

According to another aspect of the present utility model, a kind of health status supervisory system is provided, this system comprises:

Mark component is carried by the user, stores user's identification information and medical record information, and described medical record information comprises the historical record of user's physiological parameter; And

Diagnosis terminal, it comprises storage unit, is used for storage user's medical record information; Reading unit is used for reading the medical record information that described mark component stores and deposits storage unit in; Detecting unit is for detection of user's physiological parameter; Diagnosis unit is used for providing the health status diagnosis result based on the medical record information that described physiological parameter and the described storage unit of described detecting unit detection are stored; Display unit is used for showing described health status diagnosis result.

The beneficial effect of the utility model embodiment is: the mark component of medical record information that utilized storage that the user carries, reduced the customizing messages memory requirement to diagnostic device, and also saved the detection data transmission action between sense terminals and diagnosis terminal when operation.

According to another aspect of the present utility model, a kind of health status supervisory system is provided, this system comprises:

Mark component is used for storing user's identification information; And

Diagnosis terminal, it comprises: storage unit, be used for storing user's medical record information, described medical record information comprises the historical record of user's physiological parameter; Reading unit is used for reading the identification information that described mark component is stored; Telecommunication unit is used for reading medical record information and depositing described storage unit in from the peripheral data storehouse based on user totem information; Detecting unit is for detection of user's physiological parameter; Diagnosis unit is used for providing the health status diagnosis result based on the medical record information that described physiological parameter and the described storage unit of described detecting unit detection are stored; Display unit is used for showing described health status diagnosis result.

The beneficial effect of the utility model embodiment is: the user only need carry the mark component with user totem information just can carry out health status diagnosis, has further alleviated user's burden.

Explanation and accompanying drawing with reference to hereinafter disclose specific implementations of the present utility model in detail, and having indicated principle of the present utility model can adopted mode.Should be appreciated that, embodiment of the present utility model on scope not thereby be restricted.In the scope of the spirit of claims and clause, embodiment of the present utility model comprises many changes, revises and is equal to.

Can use in one or more other embodiment in same or similar mode for the feature that a kind of embodiment is described and/or illustrated, combined with the feature in other embodiment, or the feature in alternative other embodiment.

Description of drawings

From the detailed description below in conjunction with accompanying drawing, above-mentioned and other purposes of the utility model embodiment, feature and advantage will become more clear, in the accompanying drawings:

Fig. 1 is the formation schematic diagram according to the system of the utility model embodiment 1;

Fig. 2 is the schematic diagram according to the display interface of the display unit of diagnosis terminal of the present utility model;

Fig. 3 is the formation schematic diagram according to the system of the utility model embodiment 2;

Fig. 4 is the formation schematic diagram according to mark component of the present utility model and reading unit;

Fig. 5 is the formation schematic diagram according to the system of the utility model embodiment 3;

Fig. 6 is the formation schematic diagram according to the system of the utility model embodiment 4;

Fig. 7 is the formation schematic diagram according to the system of the utility model embodiment 5;

Fig. 8 is the formation schematic diagram according to the system of the utility model embodiment 6.

Embodiment

Below in conjunction with accompanying drawing, various embodiments of the present utility model are described.These embodiments are exemplary, are not to restriction of the present utility model.In order to enable those skilled in the art to easily to understand principle of the present utility model and embodiment, embodiment of the present utility model describes as an example of the product/specification of some particular type example, but be appreciated that, the utility model is not limited to these concrete examples, and those skilled in the art can easily expect reaching other situations and all can be suitable for.

Fig. 1 is the formation schematic diagram according to the system of the utility model embodiment 1, and this health status supervisory system comprises sense terminals 100 and diagnosis terminal 200, and sense terminals 100 is for detection of user's physiological parameter, and has data-interface 102.

Diagnosis terminal 200 comprises: storage unit 201, be used for storing user's medical record information, and described medical record information comprises the historical record of described physiological parameter; Communication unit 204 is used for reception from the described physiological parameter of described data-interface 102 and deposits described storage unit 201 in; Diagnosis unit 203 is used for providing the health status diagnosis result based on described physiological parameter and described medical record information; Display unit 202 is used for showing described health status diagnosis result.

Sense terminals 100 is the equipment for detection of user's physiological parameter, blood glucose meter for example, sphygmomanometer, blood oxygen instrument, electrocardiogram equipment, the blood fat instrument, blood ketone instrument, blood uric acid instrument, glycosylated hemoglobin instrument, weight meter, clinical thermometer, sports energy consumption instrument, electron energy scale, sleep monitor, uroscopy instrument etc.Sense terminals 100 has detecting the simple process function of data, and the preliminary indication of health can be provided for the user by display unit 101.Certainly, in the situation that consider simplify function and reduce costs, sense terminals can be saved display unit 101.

Detect data to be further processed in order to provide to the outside, sense terminals 100 is provided with data-interface 102, and data-interface 102 can be to be fit to transmit any type of data interface that detects data, comprise wire transmission and wireless transmission, USB for example, bluetooth, Wifi, GPRS, Zigbee.Detect data and send diagnosis terminal 200 via data-interface 102 to prescribed form.

Diagnosis terminal 200 is be used to the equipment that carries out user health situation comprehensive diagnos, diagnosis terminal 200 can carry out the terminal device that data are processed based on various being suitable for, and for example includes but not limited to desktop computer, smart mobile phone, palm PC and special-purpose diagnostic device.Store user's medical record information in storage unit 201, comprised the historical record of the physiological parameter that detects in medical record information.Medical record information can also comprise some essential informations of user, for example height, body weight, age and other physiological parameters etc. of being different from the physiological parameter of current detection.Medical record information can be sent to diagnosis terminal 200 or manually is input to diagnosis terminal 200 by the user from the outside.

Communication unit 204 obtains the physiological parameter of detection from data-interface 102, diagnosis unit 203 utilizes the physiological parameter of this acquisition and the medical record information of storage in storage unit 201 is made comprehensive judgement to user's health status, thereby diagnostic result is presented on display unit 202.

Diagnostic result provides the indication of health status for the user, can be the order of severity indication of relevant disease, historical variations trend map of physiological parameter etc.For example, in the situation that detected parameters is blood glucose value, diagnostic result can be the curve at the blood glucose value of different date/time detections, as shown in Figure 2.

Correspondingly, display unit 202 can show diagnostic result in the mode of word, figure, video.Not shown in Fig. 1, in the situation that diagnosis terminal 200 is portable terminals of small volume, diagnosis terminal 200 can also have vibration unit, this vibration unit can be according to the diagnostic result of diagnosis unit 203, in the situation that detected parameters has exceeded certain threshold value, make diagnosis terminal 200 vibration-generatings, with reminding user.In like manner, diagnosis terminal 200 can have voice unit (VU), is used for by sending voice prompt to the user report diagnostic result.

Can find out by above-mentioned embodiment, the user uses the sense terminals with data-interface to combine with diagnosis terminal, needn't use the professional equipment of diagnosis and detection integrated form, and more dirigibilities and the convenience of carrying out health status diagnosis are provided.Simultaneously, owing to will can provide more science and comprehensive diagnostic result with reference to the user's medical record information that has comprised historical detection record when carrying out health status diagnosis, be conducive to the user and accurately understand health status.

Fig. 3 is the formation schematic diagram according to the system of the utility model embodiment 2.In the present embodiment, the medical record information that comprises historical record is not pre-stored in diagnosis terminal, but from the outside.As shown in Figure 3, this health status supervisory system comprises sense terminals 100, diagnosis terminal 200 and mark component 300.Sense terminals 100 is identical with sense terminals 100 in embodiment 1, and the descriptions thereof are omitted at this.

Mark component 300 is carried by the user, has stored user totem information and the user's medical record information that comprises the historical record of physiological parameter.

Diagnosis terminal 200 comprises: reading unit 205 is used for reading identification information and the medical record information of mark component 300 storages and depositing medical record information in storage unit 201 according to identification information; Storage unit 201 is used for storing user's medical record information; Communication unit 204 is used for reception from the described physiological parameter of described data-interface 102 and deposits described storage unit 201 in; Diagnosis unit 203 is used for providing the health status diagnosis result based on described physiological parameter and described medical record information; Display unit 202 is used for showing described health status diagnosis result.

In the present embodiment, user's medical record information is not pre-stored in the storage unit 201 of diagnosis terminal 200, but is stored by the mark component 300 that the user carries.By means of identification information, diagnosis terminal 200 can be distinguished different users and carry out the storage of medical record information and the diagnosis of health status.Mark component 300 can be any type of hardware that is suitable for the information of storing, for example IC-card, magnetic card, RFID label, USB dish.Correspondingly, the reading unit 205 of diagnosis terminal 200 can be electro-optical reader, RFID reader, USB interface etc.In the situation that mark component 300 is optical memory parts, reading unit 205 is electro-optical reader.

Referring to Fig. 4, provided a combination examples of mark component 300 and reading unit 205, wherein mark component 300 is RFID unit, and it comprises radio frequency chip 301 and antenna 302, reading unit 205 is RFID readers, and it comprises antenna 2051 and rf processing circuitry 2052.When reading unit 205 reads, the magnetic field that antenna 2051 sends is received by antenna 302, thereby excite radio frequency chip 301 to produce radiowave, this radiowave is launched by antenna 302, receive and be sent to rf processing circuitry 2052 by antenna 2051 and process, obtain canned data in radio frequency chip 301.This RFID recognition method has advantages of that memory space is large, can repeatedly read/upgrade, read in wireless, long distance, motion.

In addition, for the mark component 300 that can identify at a distance, for the consideration of privacy of user secure context, can in mark component 300, switch element be set, be used for the distinguishable state of switch mark parts 300, make mark component 300 be in not distinguishable state when not diagnosing.As the example of switch element, in the situation that mark component 300 is RFID unit, switch element can be arranged on the isolating switch between antenna and radio frequency chip.

User totem information so long as can conveniently identify the information of user identity and get final product can be for example and the unique corresponding sequence number of user or No. ID (for example user's personal identification number and passport No.) etc.

Can find out by above-mentioned embodiment, the mark component 300 that utilizes the user to carry, can via reading unit 205, medical record information be read in diagnosis terminal 200 easily, and storage of medical records information in diagnosis terminal 200 in advance, this makes the user carry out becoming possibility in conjunction with the health status diagnosis of medical record information on nonspecific diagnosis terminal, for the user provides further convenience.

Fig. 5 is the formation schematic diagram according to the system of the utility model embodiment 3.In the present embodiment, medical record information also comes from diagnosis terminal 200 outsides, but is not to come from mark component 300.As shown in Figure 5, this health status supervisory system comprises sense terminals 100, diagnosis terminal 200 and mark component 300, also is provided with in addition the peripheral data storehouse 400 as medical record information source.Sense terminals 100 is identical with sense terminals 100 in embodiment 1, and the descriptions thereof are omitted at this.

Mark component 300 is carried by the user, is used for the identity of identifying user, and is different from embodiment 2, and mark component 300 is storage of medical records information not.

Diagnosis terminal 200 comprises: reading unit 205 is used for reading the identification information of mark component 300 storages; Telecommunication unit 206 is used for 400 reading medical record information and depositing storage unit 201 in from the peripheral data storehouse based on user totem information, and described medical record information comprises the historical record of user's physiological parameter; Storage unit 201 is used for storing user's medical record information; Communication unit 204 is used for reception from the described medical record information of described data-interface 102 and deposits described storage unit 201 in; Diagnosis unit 203 is used for providing the health status diagnosis result based on described physiological parameter and described medical record information; Display unit 202 is used for showing described health status diagnosis result;

In the present embodiment, user's medical record information original stored is in peripheral database 400, and database 400 can be for example the server of medical institutions, is safeguarded by medical institutions.Only store user's identification information in mark component 300, after diagnosis terminal 200 has obtained user's identification information by reading unit 205 from mark component, utilize accordingly telecommunication unit 206 to obtain user's medical record information from database 400, thereby carry out health status diagnosis.

Can find out by above-mentioned embodiment, mark component 300 only need be stored user totem information, during health monitoring, required user's medical record information can be immediately 400 obtains from the peripheral data storehouse, therefore this make user's burden lighter, convenient, and the user profile of using is more accurately and reliable.

Fig. 6 is the formation schematic diagram according to the system of the utility model embodiment 4.In the present embodiment, measuring ability and diagnostic function are combined in a terminal device, and medical record information comes from the outside.As shown in Figure 6, this health status supervisory system comprises diagnosis terminal 200 and mark component 300.

Mark component 300 is carried by the user, and is identical with mark component 300 in embodiment 2, stores user's identification information and medical record information.

Diagnosis terminal 200 comprises: storage unit 201, be used for storing user's medical record information, and described medical record information comprises the historical record of user's physiological parameter; Reading unit 205 is used for reading the medical record information of mark component 300 storages and depositing storage unit 201 in; Detecting unit 207 is for detection of user's physiological parameter; Diagnosis unit 203 is used for providing the health status diagnosis result based on the described physiological parameter of detecting unit 207 detections and the medical record information of storage unit 201 storages; Display unit 202 is used for showing described health status diagnosis result.

In the present embodiment, user's physiological parameter measuring ability merges in diagnosis terminal 200 and realizes, make like this diagnosis terminal 200 become special-purpose comprehensive equipment, be more suitable for using in being arranged under the environment such as public place by all kinds of mechanisms etc., the user is for the State Diagnosis result that secures good health, only need carry the mark component of having stored medical record information, need not require the prior storage of medical records information of diagnosis terminal, and also saved the detection data transmission action between sense terminals and diagnosis terminal when operation, provide very big facility to the user.

Fig. 7 is the formation schematic diagram according to the system of the utility model embodiment 5.In the present embodiment, measuring ability and diagnostic function are combined in a terminal device, and medical record information comes from the outside, but are not to come from mark component.As shown in Figure 7, this health status supervisory system comprises diagnosis terminal 200 and mark component 300, and database 400 is the peripherals as the medical record information source.

Mark component 300 is carried by the user, stores user's identification information, but storage of medical records information not therein.

Diagnosis terminal 200 comprises: storage unit 201, be used for storing user's medical record information, and described medical record information comprises the historical record of user's physiological parameter; Reading unit 205 is used for reading the identification information of mark component 300 storages; Telecommunication unit 206 is used for reading medical record information and depositing storage unit 201 in from database 400 based on user totem information; Detecting unit 207 is for detection of user's physiological parameter; Diagnosis unit 203 is used for providing the health status diagnosis result based on the described physiological parameter of detecting unit 207 detections and the medical record information of storage unit 201 storages; Display unit 202 is used for showing described health status diagnosis result.

Database 400 is identical with database 400 in embodiment 3, is not described in detail at this.

In the present embodiment, mark component 300 is only stored user's identification information, and the diagnosis terminal 200 with diagnosis and detection function obtains user totem information from mark component 300, thereby obtains medical record information by telecommunication unit 206 from database 400.In the case, the user only need carry the mark component 300 with identification information just can carry out health status diagnosis, has further alleviated user's burden.The mark component 300 here can be for example personal identity card or passport, and needs not to be the mark component of special making.

Fig. 8 is the formation schematic diagram according to the system of the utility model embodiment 6.In the present embodiment, increased the remote interaction function in the system of embodiment 1.As shown in Figure 8, this health status supervisory system comprises sense terminals 100, diagnosis terminal 200 and remote terminal 500.

Sense terminals 100 is identical with sense terminals 100 in embodiment 1, is not described in detail at this.Diagnosis terminal 200 is compared with the diagnosis terminal 200 in embodiment 1, has increased Remote Access Unit 208, is used for making the user access remote terminal 500.Remote terminal 500 can be connected with diagnosis terminal 200 by Remote Access Unit 208, for the user provides Remote Diagnosis System.

Based on the network environment between diagnosis terminal 100 and remote terminal 500, Remote Access Unit 208 can be any type components that is suitable for network insertion, for example WIFI access unit, 3G access unit.And Remote Access Unit 208 and communication unit 204 can be realized by same parts.

Remote terminal 500 is arranged at the place of medical institutions usually, by the professional medical personnel operation, for the user provides real-time diagnosis service, can be realized by the computer equipment with processing unit and multimedia function.Utilize display unit 202 and the voice unit (VU) (not shown) of diagnosis terminal 200, the user can to carry out the voice and video of " face-to-face " mutual with the healthcare givers.

In the present embodiment, diagnosis terminal 200 provides by access remote terminal 500 function that is similar to network hospital for the user, make the user can obtain more deep and professional health status diagnosis service.

It will be understood by those skilled in the art that the remote interaction function in embodiment 6 can be applied to embodiment 2-5 of the present utility model equally, no longer is described in detail at this.

Above-mentioned embodiment of the present utility model is that the health monitoring in conjunction with the chronic describes, but it will be understood by those skilled in the art that the utility model can be applied to the physical condition monitoring of non-Disease equally.

The concrete embodiment of above combination is described the utility model, but it will be apparent to those skilled in the art that these descriptions are all exemplary, is not the restriction to the utility model protection domain.Those skilled in the art can make various variants and modifications to the utility model according to spirit of the present utility model and principle, and these variants and modifications are also in scope of the present utility model.

Claims (14)

1. a health status supervisory system, is characterized in that, this system comprises:

Sense terminals with data-interface is for detection of user's physiological parameter;

Diagnosis terminal, described diagnosis terminal comprises: storage unit, be used for storing user's medical record information, described medical record information comprises the historical record of described physiological parameter; Communication unit is used for reception from the described physiological parameter of described data-interface and deposits described storage unit in; Diagnosis unit is used for providing the health status diagnosis result based on described physiological parameter and described medical record information; Display unit is used for showing described health status diagnosis result.

2. health status supervisory system according to claim 1, wherein this system also comprises the mark component that is carried by the user, described mark component stores user's identification information and medical record information;

Described diagnosis terminal also comprises reading unit, and described reading unit reads identification information and the medical record information of storing in described mark component and deposits medical record information in described storage unit based on identification information.

3. health status supervisory system according to claim 1, wherein this system also comprises the mark component that is carried by the user, described mark component stores user's identification information;

Described diagnosis terminal also comprises: reading unit is used for reading the identification information of described mark component storage; Telecommunication unit is used for reading medical record information and depositing described storage unit in from the peripheral data storehouse based on identification information.

4. any one described health status supervisory system according to claim 1 to 3, wherein this system also is included as the remote terminal that the user provides Remote Diagnosis System, described diagnosis terminal also comprises Remote Access Unit, and described Remote Access Unit is used for making the user access described remote terminal.

5. according to claim 2 or 3 described health status supervisory systems, wherein said mark component is the RFID unit, described reading unit is the RFID reader.

6. according to claim 2 or 3 described health status supervisory systems, wherein said mark component has switch element, and described switch element is used for the distinguishable state of the described mark component of switch.

7. a health status supervisory system, is characterized in that, this system comprises:

Mark component is carried by the user, stores user's identification information and medical record information, and described medical record information comprises the historical record of user's physiological parameter; And

Diagnosis terminal, it comprises storage unit, is used for storage user's medical record information; Reading unit is used for reading the medical record information that described mark component stores and deposits storage unit in; Detecting unit is for detection of user's physiological parameter; Diagnosis unit is used for providing the health status diagnosis result based on the medical record information that described physiological parameter and the described storage unit of described detecting unit detection are stored; Display unit is used for showing described health status diagnosis result.

8. health status supervisory system according to claim 7, wherein this system also is included as the remote terminal that the user provides Remote Diagnosis System, described diagnosis terminal also comprises Remote Access Unit, and described Remote Access Unit is used for making the user access described remote terminal.

9. health status supervisory system according to claim 7, wherein said mark component is the RFID unit, described reading unit is the RFID reader.

10. health status supervisory system according to claim 7, wherein said mark component has switch element, and described switch element is used for the distinguishable state of the described mark component of switch.

11. a health status supervisory system is characterized in that, this system comprises:

Mark component is used for storing user's identification information; And

Diagnosis terminal, it comprises: storage unit, be used for storing user's medical record information, described medical record information comprises the historical record of user's physiological parameter; Reading unit is used for reading the identification information that described mark component is stored; Telecommunication unit is used for reading medical record information and depositing described storage unit in from the peripheral data storehouse based on user totem information; Detecting unit is for detection of user's physiological parameter; Diagnosis unit is used for providing the health status diagnosis result based on the medical record information that described physiological parameter and the described storage unit of described detecting unit detection are stored; Display unit is used for showing described health status diagnosis result.

12. health status supervisory system according to claim 11, wherein this system also is included as the remote terminal that the user provides Remote Diagnosis System, described diagnosis terminal also comprises Remote Access Unit, and described Remote Access Unit is used for making the user access described remote terminal.

13. health status supervisory system according to claim 11, wherein said mark component are the RFID unit, described reading unit is the RFID reader.

14. health status supervisory system according to claim 11, wherein said mark component has switch element, and described switch element is used for the distinguishable state of the described mark component of switch.

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