TWI468149B - Portable sample detecting system and sample detecting module thereof - Google Patents

Description

Portable sample detection system and sample detection module thereof

The present invention relates to a portable sample detection system and a sample detection module thereof, and more particularly to a sample detection result capable of detecting at least one sample at any time and any place, and capable of detecting the same. At least one sample detection result is transmitted to a portable sample detection system of a remote database system and a sample detection module thereof.

In the current field of home care, how to measure the health status of home caregivers has always been an important issue. Because, if it is impossible to measure the health status of home caregivers (such as blood sugar levels), home care institutions can not monitor the health status of home caregivers, and can not find the physical condition of home caregivers (such as blood sugar) High), make appropriate dispositions on the fly.

In addition, because the instruments currently used to measure the physiological signals of home caregivers, such as sphygmomanometers, blood glucose meters, heart monitors, etc., have a certain volume, so that they cannot be moved gently, resulting in these instruments. It is not possible to move with the care of the home. In this way, once the home caregiver leaves the home (such as going out to travel), the home care organization can not monitor the health status of the home caregiver, making the home care window open.

In addition, since the aforementioned instruments for measuring the physiological signals of home caregivers were originally designed, it was not considered to transmit the physiological signal detection results detected by them to a remote database system. Therefore, the physiological signal detection results detected by these instruments will only be displayed on their respective display units (such as the liquid crystal display screen of the blood glucose meter). Therefore, in the current home care environment, the aforementioned physiological signal test results (such as blood sugar levels) must still be passed to the home by means of a home care (or family member) by phone or fax to the home care facility. Care institution. Or, the home care organization still needs to take the initiative to call the home care provider (or his family) for the aforementioned physiological signal test results (such as blood sugar values), in order to pass the aforementioned physiological signal test results (such as blood sugar values) to the home care institution. . That is to say, the current transmission of physiological signal detection results (such as blood glucose values) to the home care institution's mode of operation is not only inefficient, but also relies too much on home caregivers (or their families).

Therefore, the industry needs a test result that can detect at least one sample at any time and any place, and can transmit at least one test result detected by the test to a remote database system. The sample detection system and its sample detection module.

The object of the present invention is to provide a portable sample detection system capable of detecting the test results of at least one sample at any time and any place, and transmitting the test results to a remote database. system.

Another object of the present invention is to provide a sample detecting module capable of detecting a sample detecting result of at least one sample at any time and any place after being matched with a light source unit and a light detecting unit.

In order to achieve the above object, the portable sample detection system of the present invention is configured to detect at least one sample, comprising: a smart phone having a screen unit and a light detecting unit; and a sample detecting module The system includes a body unit, a sample accommodating unit, a first light guiding unit and a second light guiding unit. The sample accommodating unit houses the sample body and is combined with the body unit. The first light guiding unit and the second light guiding unit are respectively located on two sides of the sample receiving unit, and the body unit is sleeved on the smart phone, so that the sample detecting module is fixed thereto. One side of the smart phone. The smart phone controls a plurality of sample detecting light sources emitted by the screen unit by executing a sample detecting program, and the detecting light source is irradiated by the first light guiding unit. a body accommodating unit; the at least one sample detection result obtained by the sample detecting light source passing through the samples is irradiated into the light detecting unit through the second light guiding unit, and is transmitted into the smart device The smart phone calculates and outputs at least one sample detection result according to the sample detection result optical signals received from the sample detection module.

In order to achieve the above object, the sample detecting module of the present invention is configured to cooperate with a light source unit and a light detecting unit to detect at least one sample, including: a body unit; and a sample receiving unit. The sample is housed therein and combined with the body unit; a first light guiding unit; and a second light guiding unit. The first light guiding unit and the second light guiding unit are respectively located at two sides of the sample receiving unit, and the plurality of sample detecting light sources emitted by the light source unit pass through the first light guiding unit. The light detecting unit is irradiated to the sample detecting unit; the at least one sample detecting result optical signal obtained by the sample detecting light source passing through the samples is irradiated to the light detecting unit through the second light guiding unit.

Therefore, since the portable sample detection system of the present invention includes a smart phone with excellent portability, the smart phone can control the screen unit of the smart phone by executing a sample detection program. a plurality of sample detecting light sources, wherein the detecting light sources are sequentially passed through the first light guiding unit, the sample receiving unit and the second light guiding unit, and then the light signal is detected by at least one sample The portable detection system of the present invention can detect the detection result of at least one sample at any time and any place. On the other hand, since the smart phone itself transmits data data or voice through a wireless communication network, the portable sample detection system of the present invention can detect the detected sample detection result (calculated by the smart phone) Passing to a remote database system via the aforementioned wireless communication network. Thus, the portable sample detection system of the present invention enables a home care facility to immediately monitor the health status of the user of the portable sample detection system of the present invention, and when it is found that the user's health is abnormal (eg, If the blood sugar is too high, the home care institution can make appropriate treatment (such as actively helping the user to make an appointment for a registered visit, etc.) to effectively protect the health of the user of the portable sample detection system of the present invention.

In addition, since the sample detecting module of the present invention comprises a body unit, a sample receiving unit, a first light guiding unit and a second light guiding unit, and a smart phone has one can be used as a screen unit of the light source unit and a photographic lens or a light sensor which can be used as a light detecting unit, so that the sample detecting module of the present invention can be fixed to one side of the smart phone by the body unit thereof, and A light guiding unit and a second light guiding unit respectively corresponding to the screen unit and the light sensor (or camera lens) of the smart phone, and detecting at least one sample at any time and any place with the smart phone Body test results.

FIG. 1 is a schematic diagram of a system architecture of a portable sample detection system according to an embodiment of the present invention. The portable sample detection system of the embodiment of the present invention comprises: a smart phone 1 and a sample detection module 2. The smart phone 1 has a screen unit 11 and a light detecting unit 12, and the sample detecting module 2 includes a body unit 21, a sample receiving unit 22, a first light guiding unit 23, and a first Two light guiding units 24.

Referring to FIG. 2A, FIG. 2B and FIG. 3, FIG. 2A is a schematic diagram showing a top side of a smart phone of a portable sample detecting system according to an embodiment of the present invention, and FIG. 2B is a view showing an embodiment of the present invention. FIG. 3 is a schematic diagram of a sample detecting module of a portable sample detecting system according to an embodiment of the present invention. FIG. 3 is a schematic diagram of a bottom side of a smart phone of a portable sample detecting system. As shown in FIG. 3, the sample accommodating unit 22 of the sample detecting module 2 accommodates at least one sample (not shown), and houses the unit 22 and is coupled to the body unit 21. In addition, the first light guiding unit 23 and the second light guiding unit 24 are respectively located at two sides of the sample housing unit 22.

On the other hand, please refer to FIG. 4, which is a schematic diagram showing a portable sample detecting system according to an embodiment of the present invention when detecting a sample. At this time, the main body unit 21 of the sample detecting module 2 is sleeved on the smart phone 1 so that the sample detecting module 2 is fixed to one side of the smart phone 1.

When the portable sample detecting system of the embodiment of the present invention detects the sample, the smart phone 1 controls the plurality of checks issued by the screen unit 11 by executing a sample detecting program (not shown). Body detection source (not shown). The screen unit 11 is used as a light source unit. Then, the sample detecting light source (not shown) passes through the first light guiding unit 23 of the sample detecting module 2 and is irradiated to the sample receiving unit 22 and at least one sample accommodated therein (in the figure) Not shown). Subsequently, the sample detecting light source (not shown) passes through the second light guiding unit 24 at least one of the sample detecting result optical signals (not shown) obtained after passing through the samples (not shown). The light detecting unit 12 of the smart phone 1 is illuminated and transmitted to the smart phone 1. Finally, the smart phone 1 calculates and outputs at least one sample detection result (not shown) according to the sample detection result optical signals (not shown) of the self-test body detecting module 2.

Moreover, as shown in FIG. 2A and FIG. 4, in the embodiment, the body unit 21 of the sample detecting module 2 is a fixing clip, and the fixing clip clamps the smart phone 1 so that the detecting mode of the sample is detected. The first light guiding unit 23 of the group 2 is provided corresponding to the screen unit 11 of the smart phone 1. In addition, the second light guiding unit 24 of the sample detecting module 2 corresponds to the light detecting unit 12 of the smart phone 1. In addition, in the embodiment, the first light guiding unit 23 and the second light guiding unit 24 are respectively composed of a plurality of optical fibers (not shown), and the optical fibers may be single mode fibers or multimode fibers.

On the other hand, in the embodiment, the light detecting unit 12 of the smart phone 1 is a light sensor located on the top side of the smart phone 1 (on the same side as the screen unit 11), so that at least one check is performed. The result of the body test is read into the smart phone 1. However, in other application fields, the light detecting unit 12 of the smart phone 1 may also be a camera lens 13 located on the bottom side of the smart phone 1 (opposite side of the screen unit 11) to detect at least one sample. As a result, the optical signal is read into the smart phone 1, as shown in FIG. 2B.

As shown in FIG. 2A, when the portable sample detecting system according to an embodiment of the present invention operates, the smart phone 1 receives control of a sample detecting program (not shown) to make the screen unit 11 different. The position (such as display block A and display block B) respectively displays at least one pattern (ie, the sample detection light source). It should be noted that, in this embodiment, the sample detection program (not shown) may be pre-stored in the memory unit (not shown) of the smart phone 1 and is ready to execute the sample detection program ( The arithmetic unit (not shown) of the smart phone 1 is read from the aforementioned memory unit (not shown) before the time is shown. Alternatively, the sample detection program (not shown) may also be stored in a remote database, and downloaded to the wireless communication network only before being prepared for execution of the sample detection program (not shown). The arithmetic unit of the smart phone (not shown).

In addition, in the embodiment, the screen unit 11 of the smart phone 1 is in different positions (such as the display block A and the display block B shown in FIG. 2A), and respectively emits a plurality of sample detecting light sources of the same wavelength ( The sample detecting light source (not shown) then passes through the first light guiding unit 23 of the sample detecting module 2 to reach at least one sample accommodated in the sample housing unit 22. (not shown). However, in other application fields, if the same type of sample (such as urine, saliva or blood) is to be detected, the screen unit 11 of the smart phone 1 can be in different positions when the absorption is performed at different wavelengths (eg, The display block A and the display block B) shown in FIG. 2A respectively emit a plurality of sample detection light sources (not shown) of different wavelengths, and the sample detection light sources (not shown) of the different wavelengths are followed by The first light guiding unit 23 of the sample detecting module 2 reaches at least one sample (not shown) accommodated in the sample housing unit 22. At this time, all the sample receiving positions of the sample housing unit 22 accommodate the same sample (such as urine obtained from the same patient in the same sampling).

In addition, in the present embodiment, the type of the at least one sample (not shown) accommodated in the sample housing unit 22 is not limited, and they may be liquid samples, solid samples or gaseous states. The specimens may be accommodated (or fixed) in the specimen housing unit 22 as long as they are accommodated.

Hereinafter, the detailed steps of measuring at least one sample of the portable sample detecting system according to an embodiment of the present invention will be described in detail below with reference to the drawings:

First, as shown in FIG. 4, when the portable sample detecting system of the embodiment of the present invention operates, the sample detecting module 2 is fixed to one side of the smart phone 1 and the sample detecting module 2 is caused. The first light guiding unit 23 corresponds to the screen unit 11 of the smart phone 1.

Secondly, when the smart phone 1 receives an activation signal (not shown), the smart phone 1 starts executing the sample detection program (not shown). In this embodiment, the activation signal can be an optical signal (acting on the photographic lens 13 of the smart phone 1), an audio signal (acting on the audio input unit of the smart phone 1), and a push signal (acting on The screen unit 11 of the smart phone 1 or a remote input signal (acting on the wireless communication unit of the smart phone 1).

When the smart phone 1 starts to execute the sample detection program (not shown), the screen unit 11 facilitates the display block A shown in FIG. 2 to emit a first sample detection light source (not shown). The detection source may have a wavelength of 200 to 800 nm, for example, blue light having a wavelength of 475 nm, green light having a wavelength of 510 nm, and red light having a wavelength of 650 nm. Then, the first sample detecting light source (not shown) is irradiated to the sample receiving unit 22 and the at least one sample accommodated therein by the first light guiding unit 23 of the sample detecting module 2 ( Not shown in the figure). In this embodiment, the first light guiding unit 23 is composed of a plurality of multimode fibers, and each of the multimode fibers corresponds to one of the at least one sample (not shown). In the present embodiment, the test system is a sample which can be used for color reaction such as urine, saliva, blood or immunofluorescence colorimetry, immunoenzymatic colorimetry, and the like. Here, by adjusting and controlling the color and brightness of the screen, the optical reaction of the sample in different wavelength ranges (such as optical reaction such as absorption or fluorescence) can be detected.

In addition, in this embodiment, one or more samples may be detected by different display blocks on the screen. Referring to FIG. 2, the display block B of the screen unit 11 of the smart phone 1 can emit a second sample detecting light source (not shown). Then, the second sample detecting light source (not shown) is irradiated to the sample accommodating unit 22 and accommodated by the first light guiding unit 23 (the other multimode fiber) of the sample detecting module 2 One of the other samples (not shown). In this embodiment, the wavelength of the second sample detecting light source is the same as the wavelength of the first sample detecting light source, and is also 200 to 800 nm, for example, blue light having a wavelength of 475 nm, green light having a wavelength of 510 nm, and wavelength. It is red light at 650 nm. In addition, the screen unit 11 of the smart phone 1 emits a second detecting light source (not shown) for a time earlier than, later than or equal to the time at which the first detecting light source (not shown) is emitted, and the actual inspection is performed. The requirements of the body testing program depend on it.

Then, the first sample detection light source (not shown) passes through the first sample detection result optical signal (not shown) obtained after the sample is passed through the second light guiding unit 24 of the sample detecting module 2; The light detecting unit 12 of the smart phone 1 is illuminated. In addition, the second sample detection result optical signal (not shown) obtained by the second sample detecting light source (not shown) passes through the second light guiding unit 24 of the sample detecting module 2 The light detecting unit 12 of the smart phone 1 is illuminated. In this embodiment, the second light guiding unit 24 is composed of a plurality of multimode fibers, and each of the multimode fibers corresponds to one of the at least one sample (not shown). In this case, in addition to the measurement of the attenuation of the light transmittance, the detection of the sample can also measure the light scattering and the like in the optical signal by changing the angle of the incident light.

In this way, the first sample detection result optical signal (not shown) and the second sample detection result optical signal (not shown) are transmitted to the smart phone 1. The smart phone 1 performs at least one sample detection result optical signal (such as the first and second sample detection result optical signals) received by the self-test body detecting module 2 by executing the aforementioned "sample detection program". Calculating and outputting at least one sample detection result (not shown). When the smart phone 1 calculates at least one of the aforementioned sample detection results (not shown), the smart phone 1 displays the sample detection results on the screen unit 11 (if not the sample detection module 2) The portion covered is for viewing by a user of the portable sample detection system of an embodiment of the present invention.

However, in some cases, the smart phone 1 of the portable body detection system according to an embodiment of the present invention can also connect the results of the test results to the same smart phone identification data through a wireless communication network. And passed to a remote database system, such as a central computer in a home care organization. In this embodiment, the aforementioned "smartphone identification data" includes a mobile phone identification code and positioning data of a global satellite positioning system. In this way, the foregoing home care organization can immediately monitor the health status of the user of the portable physiological signal detecting system according to an embodiment of the present invention, and can immediately make appropriate treatment when the physiological signal is abnormal. Contact the user's family or take the initiative to help the user make an appointment for a visit, etc.).

As shown in FIG. 5, it is a schematic diagram of a sample detecting module according to another embodiment of the present invention. The sample detecting module 5 includes a body unit 51, a sample receiving unit 52, a first light guiding unit 53, and a second light guiding unit 54. The sample accommodating unit 52 accommodates at least one sample (not shown) and is coupled to the body unit 51. In addition, the first light guiding unit 53 and the second light guiding unit 54 are respectively located at two sides of the sample housing unit 52. The sample detecting module of another embodiment of the present invention can be used to detect at least one sample after being combined with a light source unit (not shown) and a light detecting unit (not shown) (not shown) ).

In addition, when the sample detecting module of another embodiment of the present invention is used to detect at least one sample (not shown), a plurality of sample detecting light sources emitted by the light source unit (not shown) (Fig. The first light guiding unit 53 is irradiated to the sample accommodating unit 52 and at least one sample (not shown) accommodated therein. Then, at least one of the sample detection result optical signals (not shown) obtained by the sample detecting light source (not shown) through the samples (not shown) is irradiated by the second light guiding unit 54. Light detection unit (not shown).

In this embodiment, the light source unit is a screen unit of a smart phone, and the light detecting unit is a camera lens or a light sensor for the smart phone. In addition, as shown in FIG. 5, the body unit 51 of the sample detecting module is a fixing clip for fixing the sample detecting module to one side of a smart phone. On the other hand, the first light guiding unit 53 and the second light guiding unit 54 are respectively composed of a plurality of optical fibers, so as to guide a plurality of sample detecting light sources (not shown) to the sample receiving unit 52, and then The plurality of sample detection result signals are guided to a light detecting unit (not shown).

As shown in FIG. 6 , it is a schematic diagram of a portable sample detection module coupled to a smart phone according to another embodiment of the present invention. The sample detection module 6 includes a body unit 61, a sample receiving unit 62, a light source unit 63, and a light detecting unit 64. The sample detecting module 6 is connected to the detecting line 6 by a transmission line 65. Smart phone 1 is connected. In addition, the sample accommodating unit 62 accommodates or detects at least one sample (not shown) and is combined with the body unit 61. The light source unit 63 can be a light emitting diode light source unit that emits a visible light, an ultraviolet light, or an infrared light. On the other hand, the light detecting unit 64 may be a charge coupled device (CCD), a complementary MOS sensing element (CMOS) or a photodiode, a photo transistor, a photoresistor or any type of photosensitive element.

As shown in FIG. 6 , the light source unit 63 and the light detecting unit 64 are respectively located at two sides of the sample accommodating unit 62 , and the plurality of sample detecting light sources emitted by the light source unit 63 are irradiated to the sample accommodating unit 62 . . Then, the at least one sample detection result optical signal obtained by the sample detecting light source passing through at least one sample reaches the light detecting unit 64. Finally, the light detecting unit 64 converts the at least one sample detection result optical signal into a corresponding detection result electrical signal, and transmits the detection result electrical signal to the smart phone 1 through the transmission line 65.

In this embodiment, the smart phone 1 starts to execute a sample detection program (not shown) after receiving a start signal (not shown). The sample detecting module 6 of the embodiment of the present invention has a light source unit 63 and a light detecting unit 64. Therefore, the sample detecting module 6 of another embodiment of the present invention can operate independently and complete at least one check. Body detection. After the detection, only the transmission line 65 is needed to transmit the detection result signal to the smart phone 1.

In addition, the sample detecting module 6 of another embodiment of the present invention can also transmit the detection result signal from the sample detecting module 6 to the smart phone 1 through a wireless network or a Bluetooth system. As such, the sample detecting module 6 of another embodiment of the present invention can also transmit the signal to a smart phone 1 located at the far end, and the smart phone 1 performs subsequent analysis and observation.

In summary, the portable detection system of the present invention includes a smart phone with excellent portability, and the smart phone can control the smart phone by executing a sample detection program. At least one sample detecting light source emitted by the screen unit, and the sample detecting light source sequentially passes through the first light guiding unit, the sample receiving unit and the second light guiding unit, and then the detection light is detected by at least one sample The signal form reaches the light detecting unit of the smart phone, so the portable sample detecting system of the present invention can detect the sample detecting result of at least one sample at any time and any place. On the other hand, since the smart phone itself transmits data data or voice through a wireless communication network, the portable sample detection system of the present invention can detect the detected sample detection result (calculated by the smart phone) Passing to a remote database system via the aforementioned wireless communication network. Thus, the portable sample detection system of the present invention enables a home care facility to immediately monitor the health status of the user of the portable sample detection system of the present invention, and when it is found that the user's health is abnormal (eg, If the blood sugar is too high, the home care institution can make appropriate treatment (such as actively helping the user to make an appointment for a registered visit, etc.) to effectively protect the health of the user of the portable sample detection system of the present invention.

In addition, since the sample detecting module of the present invention comprises a body unit, a sample receiving unit, a first light guiding unit and a second light guiding unit, and a smart phone has one can be used as a screen unit of the light source unit and a photographic lens or a light sensor which can be used as a light detecting unit, so that the sample detecting module of the present invention can be fixed to one side of the smart phone by the body unit thereof, and A light guiding unit and a second light guiding unit respectively corresponding to the screen unit and the light sensor (or camera lens) of the smart phone, and detecting at least one sample at any time and any place with the smart phone Body test results.

The above-mentioned embodiments are merely examples for convenience of description, and the scope of the claims is intended to be limited to the above embodiments.

1‧‧‧Smart mobile phone

11‧‧‧Screen unit

12, 64‧‧‧Light detection unit

13‧‧‧Photographic lens

2, 5, 6‧‧‧ sample detection module

21, 51, 61‧‧‧ body unit

22, 52, 62‧‧ ‧ specimen housing unit

23, 53‧‧‧First light guide unit

24, 54‧‧‧second light guide unit

63‧‧‧Light source unit

65‧‧‧ transmission line

1 is a schematic diagram of a system architecture of a portable sample detection system according to an embodiment of the present invention.

2A is a schematic view showing the top side of a smart phone of the portable sample detecting system according to an embodiment of the present invention.

2B is a schematic view showing the bottom side of a smart phone of the portable sample detecting system according to an embodiment of the present invention.

3 is a schematic diagram of a sample detecting module of a portable sample detecting system according to an embodiment of the present invention.

4 is a schematic view showing a portable sample detecting system according to an embodiment of the present invention when detecting a sample.

FIG. 5 is a schematic diagram of a sample detecting module according to another embodiment of the present invention.

FIG. 6 is a schematic diagram of a portable sample detection module coupled to a smart phone according to another embodiment of the present invention.

1. . . Smart phone

2. . . Sample detection module

11. . . Screen unit

12. . . Light detection unit

twenty one. . . Body unit

twenty two. . . Sample housing unit

twenty three. . . First light guiding unit

twenty four. . . Second light guiding unit

Claims (13)

A portable sample detection system for detecting at least one sample body, comprising: a smart phone having a screen unit and a light detecting unit; and a sample detecting module comprising a body unit, a sample accommodating unit, a first light guiding unit and a second light guiding unit, wherein the sample accommodating unit is configured to be in the same and combined with the body unit, the first light guiding unit And the second light guiding unit is respectively located at two sides of the sample receiving unit, and the body unit is sleeved on the smart phone, so that the sample detecting module is fixed to one side of the smart phone; The smart phone controls the screen unit to sequentially emit a plurality of sample detection light sources of the same or different wavelengths at different positions by executing a sample detection program, and the sample detection light source passes the first a light guiding unit is irradiated to the sample receiving unit; the plurality of sample detection result optical signals obtained by the sample detecting light source passing through the samples are irradiated to the light detecting device through the second light guiding unit Measuring unit, and being transmitted into Smartphone; the smartphone based on those received from the subject detection result of the light detection signal calculation module of the subject and outputs a detection result of at least the subject. The portable sample detection system of claim 1, wherein the light detecting unit is a camera lens or a light sensor of the smart phone. The portable sample detection system of claim 1, wherein the body unit is a fixed clip. The portable sample detection system of claim 1, wherein the first light guiding unit and the second light guiding unit are respectively composed of a plurality of optical fibers. The portable sample detection system of claim 1, wherein the smart phone starts to execute the sample detection program after receiving a start signal, and the activation signal is an optical signal, An audio signal, a push signal, or a far-end input signal. The portable sample detection system according to claim 1, wherein the smart phone displays the sample detection result on the screen unit or through a wireless communication network, and the sample detection result is obtained. The same smart phone identification data is transmitted to a remote database system. The portable sample detection system of claim 6, wherein the smart phone identification data comprises a mobile phone identification code and positioning data of a global satellite positioning system. A sample detecting module is configured to cooperate with a light source unit and a light detecting unit to detect at least one sample body, including: a body unit; and a sample receiving unit, wherein the sample body is accommodated therein In combination with the body unit; a first light guiding unit; and a second light guiding unit; wherein the first light guiding unit and the second light guiding unit are respectively located at two sides of the sample receiving unit, and The plurality of sample detecting light sources emitted by the light source unit are irradiated to the sample receiving unit through the first light guiding unit The at least one sample detection result optical signal obtained by the sample detecting light source passing through the sample is irradiated to the light detecting unit through the second light guiding unit; the light source unit is a smart phone A screen unit that controls the screen unit to sequentially emit a plurality of sample detecting light sources of the same or different wavelengths at different positions by executing a sample detecting program. The sample detecting module of claim 8, wherein the light detecting unit is a camera lens or a light sensor of the smart phone. The sample detecting module of claim 9, wherein the body unit is a fixed clip, so that the sample detecting module is fixed to one side of the smart phone. The sample detecting module of claim 8, wherein the first light guiding unit and the second light guiding unit are respectively composed of a plurality of optical fibers. A sample detecting module is used for detecting at least one sample body, comprising: a body unit; a sample receiving unit, wherein the sample body is accommodated therein and combined with the body unit; a light source unit; And a light detecting unit, wherein the light source unit and the light detecting unit are respectively located at two sides of the sample receiving unit, and the plurality of physical examinations issued by the light source unit The light source is irradiated to the sample accommodating unit; the at least one sample detection result optical signal obtained by the sample detecting light source passing through the sample reaches the light detecting unit; the light source unit is a smart type A screen unit of the mobile phone, which controls the screen unit to sequentially emit a plurality of sample detecting light sources of the same or different wavelengths at different positions by executing a sample detecting program. The sample detecting module of claim 12, wherein the light detecting unit is a charge coupled device or a complementary MOS sensing device.