CN219532290U - Portable traditional Chinese medicine acquisition analyzer - Google Patents

Abstract

The utility model discloses a portable traditional Chinese medicine acquisition analyzer, which comprises a shell, wherein: the infrared thermal imaging module is arranged in the installation area through mounting pieces on two sides, and the infrared thermal imaging module arranged in the cylindrical structure can axially rotate relative to the installation area through the power module; according to the utility model, through the arrangement of the infrared thermal imaging module, different thermal imaging images can be formed by utilizing the infrared difference between the infrared radiation energy distribution image of the detected patient and the infrared radiation energy distribution image of the background, the temperature of the detected patient can be accurately acquired, a doctor can carry out comparative analysis and judgment on the thermal imaging image and a normal temperature value, and the abnormal temperature position, property and heating degree can be judged through the temperature value difference, the lowest highest temperature value and other information, so that a reliable basis is provided for diagnosis treatment.

Description

Portable traditional Chinese medicine acquisition analyzer

Technical Field

The utility model belongs to the technical field of medical equipment, and particularly relates to a portable traditional Chinese medicine acquisition analyzer.

Background

The traditional Chinese medicine differentiation is aimed at looking, smelling, inquiring and cutting four diagnostic parameters, so as to deduce the etiology, disease location, disease nature and the like.

The inspection is a diagnosis method frequently used in traditional Chinese medicine inspection, the traditional inspection relies on-site visual inspection of doctors, and results are described and stored in a manual text record mode, the results are limited by experience and subjective judgment of the doctors, and are related to clinical experience accumulation of the doctors, and the like, so that objective records cannot be achieved, real results are difficult to be reserved objectively, and the real results are difficult to be used as objective bases for consultation and remote diagnosis of other specialists.

Along with the development of electronic technology, traditional Chinese medicine also slowly tends to adopt corresponding electronic intelligent equipment to carry out auxiliary diagnosis, and today, doctors can observe symptoms of patients through acquisition and recording instruments, so that the doctors can conveniently carry out diagnosis.

The current acquisition and recording instrument only transmits acquired images to a computer end, and a doctor obtains disease diagnosis according to the images on the computer, so that the doctor cannot work if the doctor is not connected with the computer, but the acquisition and recording instrument is intangibly large in size, inconvenient to move and carry about, troublesome to use, difficult to meet the acquisition requirement of bedridden patients, and cannot adapt to the requirement of operation (such as community flow regulation and the like) under the condition of continuous movement.

Disclosure of Invention

The utility model aims to provide a portable traditional Chinese medicine acquisition analyzer so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a portable chinese medical science collection analyzer, includes the casing, wherein:

the front end of the shell is provided with a display screen, and the top shell of the display screen is provided with a mounting area for accommodating the input end of the infrared thermal imaging module;

the infrared thermal imaging module is arranged in the installation area through mounting pieces on two sides, and the infrared thermal imaging module arranged in the cylindrical structure can axially rotate relative to the installation area through the power module;

the outer side of the infrared thermal imaging module is provided with a rotation limiting module for limiting the rotation angle of the infrared thermal imaging module;

the infrared thermal imaging module is electrically connected with the display screen through a flexible connecting piece, and a cooler is arranged in the shell corresponding to the infrared thermal imaging module.

Preferably, the two sides of the infrared thermal imaging module are correspondingly provided with rotating shafts, and the rotating shafts are movably connected with rotating holes arranged on the mounting piece; the rotating shaft can axially rotate relative to the rotating hole, and the rotating hole can radially limit the rotating shaft.

Preferably, the shaft side edge of the infrared thermal imaging module is in transmission connection with the output end of the power module, and the power module is a rotary stepping motor.

Preferably, the input end of the infrared thermal imaging module is provided with a lens, and the output end of the lens and the lens of the infrared thermal imaging camera are arranged correspondingly.

Preferably, the infrared thermal imaging module comprises a housing, and a containing area for containing the infrared thermal imaging camera and the automatic temperature detection blackbody and a bracket for fixing the infrared thermal imaging camera and the automatic temperature detection blackbody are arranged in the housing.

Preferably, the rotation limiting module comprises limiting switches correspondingly arranged at two sides of the infrared thermal imaging module and a switching key arranged on the infrared thermal imaging module; the switch key can control the opening or closing of the single-side limit switch of the infrared thermal imaging module under the rotation drive of the infrared thermal imaging module.

Preferably, the switch key comprises a key a capable of contacting with the limit switch a and a key b capable of contacting with the limit switch b, and the key a and the key b are mutually combined to form the switch key with an L-shaped structure.

Preferably, a connecting groove is formed in the rear end of the shell, and a power interface and a connecting interface are arranged on the side edge of the connecting groove; the connecting interface is connected with a PCB output board in the mounting cavity, and the PCB output board is connected with the inner wall of the shell through the connecting component.

Preferably, limiting blocks for limiting the outer side edges of the display screen are arranged at four corners of the inner wall of the shell, and the side edges of the display screen are connected with the inner wall of the shell through connecting components.

Preferably, the connecting assembly comprises a fixed block, and a fixed hole is formed in the fixed block; the fixed orifices can with the mutual block of shells inner wall's fixed column, just the fixed column can block into the fixed orifices and carry out radial spacing to the fixed block.

The portable traditional Chinese medicine acquisition analyzer has the technical effects and advantages that:

1. through the arrangement of the infrared thermal imaging module, different thermal imaging images can be formed by utilizing the infrared difference between the received infrared radiation energy distribution image of the tested patient and the infrared radiation energy distribution image of the background, the temperature of the tested patient can be accurately obtained, so that the tested patient can be subjected to remote thermal imaging and temperature measurement, a doctor can carry out comparative analysis and judgment on the thermal imaging image and a normal temperature value, and the abnormal temperature position, property and heating degree can be judged through the information such as the temperature value difference, the lowest highest temperature value and the like, so that reliable basis is provided for diagnosis treatment, complex operation in the traditional mode is replaced, the patient can be rapidly and effectively diagnosed, and the situation that the critical patient is delayed for diagnosis due to the time problem is avoided;

2. the acquisition and recording instrument which is complex in operation and huge in size is simplified, so that the rapid carrying rescue can be realized, the operation under the condition of continuous movement is adapted, the applicability of the acquisition and recording instrument is effectively improved, the acquisition and recording can be carried out at any time and any place, and the acquisition requirement of bedridden patients can be met;

3. through integrating the display screen at the casing, make the display method more directly perceived, can show the acquisition result fast, reach simple to use, convenient effect.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a rear view of the present utility model;

FIG. 3 is a schematic view of the internal structure of the present utility model;

FIG. 4 is a schematic diagram showing the structure of the present utility model;

FIG. 5 is a schematic diagram of an infrared thermal imaging module according to the present utility model;

fig. 6 is an exploded view of a cross-sectional infrared thermal imaging module of the present utility model.

In the figure:

1. a housing; 2. a display screen; 3. an infrared thermal imaging module; 4. a mounting member; 5. a power module; 6. a rotation limiting module; 7. a connection assembly; 8. an infrared thermal imaging camera; 9. automatic temperature detection black body;

11. a mounting area; 12. a cooler; 13. a connecting groove; 14. a power interface; 15. a connection interface; 16. a PCB output board; 17. a limiting block;

31. a flexible connection member; 32. a rotating shaft; 33. a lens; 34. a lens; 35. a housing; 36. a receiving area; 37. a bracket;

41. a turning hole;

61. a limit switch; 62. a switching key; 63. a limit switch a; 64. a limit switch b; 65. a bond a; 66. a bond b;

71. a fixed block; 72. a fixing hole; 73. and fixing the column.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 6 of the embodiments of the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The present utility model provides a portable traditional Chinese medicine acquisition analyzer as shown in fig. 1-6, comprising a housing 1, wherein:

the display screen 2 is arranged at the front end of the shell 1, the shell 1 at the top of the display screen 2 is provided with an installation area 11 for accommodating the input end of the infrared thermal imaging module 3, and the display screen 2 is integrated in the shell 1, so that the display mode is more visual, the acquisition result can be displayed quickly, and the effects of simplicity in use and convenience are achieved.

The infrared thermal imaging module 3 locates the installation region 11 through the installed part 4 of both sides, and the cylindricality structure sets up infrared thermal imaging module 3 accessible power module 5 carries out axial rotation for the installation region 11, drives infrared thermal imaging module 3 through power module 5 and carries out axial rotation, can adjust infrared thermal imaging module 3's every single move angle, is convenient for shoot the whole body or the local image of survey patient, can reach more shooting angles, increases application range.

The infrared thermal imaging module 3 outside is equipped with carries out spacing rotatory spacing module 6 to infrared thermal imaging module 3 rotation angle, and rotatory spacing module 6 can restrict infrared thermal imaging module 3 rotation angle, can control infrared thermal imaging module 3 rotation angle, prevents infrared thermal imaging module 3 input rotatory installation region 11 that surpasses shooting.

The infrared thermal imaging module 3 is electrically connected with the display screen 2 through the flexible connecting piece 31, and the infrared thermal imaging module 3 is connected with the display screen 2 through the flexible connecting piece 31, so that thermal image data and temperature data acquired by the infrared thermal imaging module 3 can be displayed through the display screen 2.

In the utility model, the display screen 2 has a touch function and an interaction function, and is convenient for system setting, checking, inputting and confirming of various information.

In addition, in the utility model, the display screen 2 adopts the high-strength capacitive display screen 2, so that the operation of multi-point touch control and touch control pens can be supported, the reflection condition caused by sunlight irradiation can be prevented, the display picture is fine and smooth, and the applicable working environment can be further increased.

The inside infrared thermal imaging module 3 that corresponds of casing 1 is equipped with cooler 12, through the setting of cooler 12, can control the temperature of infrared thermal imaging module 3, can prevent the temperature accumulation of infrared thermal imaging module 3, can control the temperature of infrared thermal imaging module 3 in a suitable temperature interval, prevent that infrared thermal imaging module 3 from overheated influence normal work, can realize lasting high performance information acquisition.

Infrared imaging is a long-wave band operating at 8-14 μm, and the principle of infrared imaging is to sense the temperature distribution pattern of an observed object.

From a physical angle analysis, all objects radiate infrared rays due to the existence of blackbody radiation, a measured target is a natural infrared radiation source, normal thermal state distribution has certain stability and characteristics, and different thermal fields can be formed due to different temperatures of all parts of the body.

When an abnormality occurs in a certain part of the target, the temperature at the position generally changes correspondingly, the temperature rises or falls, an infrared thermal imaging image is formed according to the temperature rise or fall, infrared radiation of a patient to be detected is collected through the infrared thermal imaging module 3, and the infrared radiation is converted into a digital signal, so that the thermal imaging image is formed.

In the utility model, the infrared thermal imaging camera 8 in the infrared thermal imaging module 3 can acquire the temperature intensity of all detection points of a patient in a measurement view field, convert the temperature intensity into an infrared thermal image visible to human eyes, acquire thermal image data, realize the whole-course non-invasive, non-invasive and non-radiative green detection by adopting a medical infrared thermal imaging camera, detect diseases such as inflammation, pain, tumors, stones, vascular diseases and nervous systems, and the like, and relate to common diseases and frequently-occurring diseases of various systems of a human body.

According to the utility model, the automatic temperature detection black body 9 in the infrared thermal imaging module 3 can accurately acquire the temperature of all detection points of a patient in a measurement view field, the automatic temperature detection black body 9 is arranged in the infrared thermal imaging module 3, the thermal imaging view field range can be covered, the temperature measurement calibration is carried out by utilizing the characteristics of the black body, the accurate corresponding relation between temperature data and a thermal image can be established, the measurement temperature is corrected in real time, the thermal image and the body temperature of the patient are correspondingly displayed, and the temperature measurement precision of the temperature measurement of the patient is greatly improved.

According to the utility model, through the arrangement of the automatic temperature detection black body 9, the risk of cross infection can be reduced, the manpower and material resources can be saved, and the rapid detection of multiple people can be realized without direct contact with patients.

In the utility model, the infrared thermal imaging camera 8 in the infrared thermal imaging module 3 can utilize the infrared difference between the infrared radiation energy distribution pattern of the received measured patient and the infrared radiation energy distribution pattern of the background to form different thermal imaging patterns, and the automatic temperature detection blackbody 9 in the infrared thermal imaging module 3 can accurately acquire the temperature of the measured patient, so that the measured patient can be subjected to remote thermal imaging and temperature measurement, and a doctor can analyze and judge the thermal imaging patterns to judge the abnormal temperature position, property and heating degree, thereby providing reliable basis for diagnosis treatment.

In summary, the infrared thermal imaging module 3 can display the thermal imaging image of the patient to be tested in real time, the thermal imaging image can reflect the image of the body surface temperature value of the patient to be tested, the infrared light radiated by the patient to be tested can be converted into the visible image reflecting the body thermal field and displayed in the form of a color thermal imaging image, so that the doctor can conveniently see and judge, and the temperature value of the temperature distribution area of the thermal imaging image can be displayed in real time, so that the doctor can be assisted to check, and the physical health condition of the patient to be tested can be evaluated and analyzed by comparing with the normal body surface temperature value, so as to assist the doctor to find the disease source.

Specifically, the two sides of the infrared thermal imaging module 3 are correspondingly provided with rotating shafts 32, and the rotating shafts 32 are movably connected with rotating holes 41 arranged on the mounting piece 4; the rotating shaft 32 can axially rotate relative to the rotating hole 41, and the rotating hole 41 can radially limit the rotating shaft 32, so that the infrared thermal imaging module 3 can be kept stable in the rotating process.

Specifically, the shaft side of the infrared thermal imaging module 3 is in transmission connection with the output end of the power module 5, the rotating shaft 32 of the infrared thermal imaging module 3 is connected with the output end of the power module 5, and the infrared thermal imaging module 3 can rotate clockwise or anticlockwise under the control of the power module 5.

In the present utility model, the power module 5 is a rotary stepper motor.

Specifically, the input end of the infrared thermal imaging module 3 is provided with a lens 33, the lens 33 can protect the infrared thermal imaging module 3 and a lens 34, scratch caused by accidental scraping and collision is prevented, and dust and dirt and the like can also be prevented from entering the infrared thermal imaging module 3 and the lens 34.

The output end of the lens 33 is correspondingly arranged with the lens 34 of the infrared thermal imaging camera 8, and the imaging quality can be increased through the arrangement of the lens 34.

In the present utility model, the lens 33 may be coated as needed, and the occurrence of glare can be reduced by coating, and the contrast of the captured image can be enhanced and the halation phenomenon in the captured image can be reduced.

Specifically, the infrared thermal imaging module 3 includes a housing 35, and an accommodating area 36 for accommodating the installation of the infrared thermal imaging camera 8 and the automatic temperature detection blackbody 9 and a bracket 37 for fixing the infrared thermal imaging camera 8 and the automatic temperature detection blackbody 9 are arranged in the housing 35, so that the infrared thermal imaging camera 8 and the automatic temperature detection blackbody 9 can be fixed through the bracket 37, and the installation stability of the infrared thermal imaging camera 8 and the automatic temperature detection blackbody 9 can be ensured.

Specifically, the rotation limiting module 6 includes limit switches 61 correspondingly disposed on two sides of the infrared thermal imaging module 3 and a switch key 62 disposed on the infrared thermal imaging module 3, the switch key 62 is fixedly disposed on the infrared thermal imaging module 3, the switch key 62 moves axially, and in the process that the power module 5 drives the infrared thermal imaging module 3 to rotate, the switch key 62 also rotates along with the infrared thermal imaging module 3.

The switch key 62 can control the on/off of the limit switch 61 on one side of the infrared thermal imaging module 3 under the rotation drive of the infrared thermal imaging module 3, and the limit switch 61 is disposed on the left and right sides of the switch key 62 and is limited by the left and right limit switches 61.

In the utility model, the limit switch 61 is provided with a fixed contact, and the fixed contacts on the limit switch 61 on the left side and the right side are positioned at the same horizontal height.

In the rotating process of the switch 62, the switch 62 can abut against a stationary contact on the limit switch 61, and at this time, the end of the rotating stroke of the switch 62 is the end.

Specifically, the switch key 62 includes a key a65 capable of contacting the limit switch 61a and a key b66 capable of contacting the limit switch 61b, and the key a65 and the key b66 are combined with each other to form the switch key 62 with an L-shaped structure, and the switch key 62 is formed by combining the key a65 and the key b66 with each other.

In the utility model, the on-off key 62 is set to be of an L-shaped structure with the same length on both sides, so that the rotation stroke of the key a65 is consistent with that of the key b66, therefore, the on-off key 62 can not only control the on-off of the limit switch 61b in a clockwise rotation manner, but also control the on-off of the limit switch 61a in a anticlockwise rotation manner, the effect of bidirectional operation control through the on-off key 62 is realized, and the repeated continuous on-off control of the limit switch 61 can be realized through continuous rotation of the on-off key 62.

In the utility model, in the process that the power module 5 drives the infrared thermal imaging module 3 to rotate, the switch key 62 also rotates along with the infrared thermal imaging module 3, so that the position of the switch key 62 can be changed.

When the power module 5 drives the infrared thermal imaging module 3 to rotate forward, the switch key 62 also follows the infrared thermal imaging module 3 to rotate clockwise to a certain angle, and meanwhile, the clockwise rotation of the switch key 62 drives the key b66 to press the stationary contact of the limit switch 61b until the end of the clockwise rotation stroke of the infrared thermal imaging module 3 is reached.

When the power module 5 drives the infrared thermal imaging module 3 to rotate reversely, the switch key 62 also can rotate to a certain angle along with the infrared thermal imaging module 3 in a counter-clockwise direction, and meanwhile, the counter-clockwise rotation of the switch key 62 can drive the key a65 to press the stationary contact of the limit switch 61a until the stroke end of the counter-clockwise rotation of the infrared thermal imaging module 3 is reached.

Specifically, a connecting groove 13 is formed at the rear end of the shell 1, and a power interface 14 and a connecting interface 15 are arranged on the side edge of the connecting groove 13; the connecting interface 15 is connected with a PCB output board 16 in the mounting cavity, and the PCB output board 16 is connected with the inner wall of the shell 1 through the connecting component 7.

In the present utility model, power can be supplied through the power interface 14.

In the present utility model, the connection interface 15 includes, but is not limited to, a network interface, an HDMI interface, and a USB interface.

Wherein:

the network transmission and networking can be carried out through the network interface, so that the collected data can be timely transmitted out through the network, remote data analysis can be carried out, the collected data can be transmitted to a doctor at a far end in real time, the effect of networking consultation can be achieved, remote diagnosis is realized, the hospitalizing cost of a patient can be reduced, and good social and economic benefits are achieved.

The HDMI interface can be used for data transmission, so that an external terminal can be externally connected to facilitate subsequent image recognition and processing.

The terminal comprises: a cell phone, a tablet computer or a computer, etc.

External equipment such as a keyboard and a mouse can be externally connected through the USB interface, so that the equipment can be conveniently controlled, and the thermal image and the historical data measured at each time can be conveniently checked.

Specifically, the four corners of the inner wall of the shell 1 are provided with limiting blocks 17 for limiting the outer side edges of the display screen 2, the side edges of the display screen 2 are connected with the inner wall of the shell 1 through connecting assemblies 7, the four corners of the display screen 2 can be limited by the limiting blocks 17, the display screen 2 is prevented from moving, and therefore the stability of the installation of the display screen 2 can be guaranteed.

In the utility model, the PCB output board 16, the display screen 2 and the mounting piece 4 can be fixedly connected with the inner wall of the shell 1 through the connecting component 7.

Specifically, the connecting assembly 7 includes a fixing block 71, the fixing block 71 may be disposed on two sides of the PCB output board 16, the display screen 2 and the mounting member 4, and the fixing block 71 is provided with a fixing hole 72.

The fixed orifices 72 can with the mutual block of fixed column 73 of casing 1 inner wall, fixed column 73 and casing 1 inner wall fixed connection, and fixed column 73 can block into fixed orifices 72 and radially spacing fixed block 71, through in fixing orifices 72 on the fixed block 71 with fixed column 73 card, fixed column 73 can radially spacing fixed block 71, can prevent like this that fixed block 71 from taking place the displacement, reach the effect of fixing PCB output board 16, display screen 2 and installed part 4, can guarantee the stability of PCB output board 16, display screen 2 and installed part 4 installation.

In the utility model, a control switch is arranged at the bottom of the display screen 2, and the device can be turned on or off by operating a power switch.

In the utility model, the side edge of the top of the display screen 2 is provided with the sound hole, and a voice module corresponding to the sound hole can be arranged in the shell 1.

In the utility model, the voice module can collect voice data of the patient, so that inquiry voice of the patient can be recorded, and later review is convenient for analyzing symptoms of the patient; in addition, in the utility model, the voice module can also carry out voice reminding and introduction on the use or the function of the device, thereby facilitating the acquisition of patient data.

In addition, in the utility model, the voice module can also integrate an alarm function, so that when the condition of triggering an alarm such as insufficient electric quantity occurs, the voice module can be used for carrying out fault alarm.

In the utility model, the inner side of the shell 1 is provided with a plurality of support columns along the side wall, and the support columns are arranged around the side wall of the shell 1, so that the support columns can support the inner part of the shell 1, the overall structural strength of the shell 1 can be increased, and the shell 1 can be prevented from being deformed under long-term use.

In the present utility model, a memory card is further provided in the housing 1, and the memory card can store collected data.

The application scene of the utility model comprises, but is not limited to physical therapy rehabilitation, massage, traditional Chinese medicine diagnosis and treatment, department physical examination, traditional Chinese medicine museum, beauty and health preserving museum, pharmacy, basic medical treatment and the like.

In the utility model, when the acquisition analyzer is used, the position 15 meters in front of the acquisition analyzer of a patient to be tested is preferably aligned to the patient to be tested or the body part to be checked of the patient to be tested by adjusting the pitching angle of the infrared thermal imaging module 3, so as to form a thermal imaging diagram.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (10)

1. The utility model provides a portable traditional chinese medical science collection analyzer, includes casing (1), its characterized in that:

the front end of the shell (1) is provided with a display screen (2), and the top shell (1) of the display screen (2) is provided with a mounting area (11) for accommodating the input end of the infrared thermal imaging module (3);

the infrared thermal imaging module (3) is arranged in the installation area (11) through mounting pieces (4) on two sides, and the infrared thermal imaging module (3) arranged in the cylindrical structure can axially rotate relative to the installation area (11) through the power module (5);

the outer side of the infrared thermal imaging module (3) is provided with a rotation limiting module (6) for limiting the rotation angle of the infrared thermal imaging module (3);

the infrared thermal imaging module (3) is electrically connected with the display screen (2) through a flexible connecting piece (31), and a cooler (12) is arranged in the shell (1) corresponding to the infrared thermal imaging module (3).

2. The portable traditional Chinese medicine collection analyzer according to claim 1, wherein: the two sides of the infrared thermal imaging module (3) are correspondingly provided with rotating shafts (32), and the rotating shafts (32) are movably connected with rotating holes (41) arranged on the mounting piece (4);

the rotating shaft (32) can axially rotate relative to the rotating hole (41), and the rotating hole (41) can radially limit the rotating shaft (32).

3. The portable traditional Chinese medicine collection analyzer according to claim 1, wherein: the shaft side edge of the infrared thermal imaging module (3) is in transmission connection with the output end of the power module (5), and the power module (5) is a rotary stepping motor.

4. The portable traditional Chinese medicine collection analyzer according to claim 1, wherein: the input end of the infrared thermal imaging module (3) is provided with a lens (33), and the output end of the lens (33) and a lens (34) of the infrared thermal imaging camera (8) are arranged correspondingly.

5. The portable traditional Chinese medicine collection analyzer according to claim 1, wherein: the infrared thermal imaging module (3) comprises a shell (35), and a containing area (36) for containing the infrared thermal imaging camera (8) and the automatic temperature detection blackbody (9) and a bracket (37) for fixing the infrared thermal imaging camera (8) and the automatic temperature detection blackbody (9) are arranged in the shell (35).

6. The portable traditional Chinese medicine collection analyzer according to claim 1, wherein: the rotary limiting module (6) comprises limiting switches (61) which are correspondingly arranged on two sides of the infrared thermal imaging module (3) and a switching key (62) which is arranged on the infrared thermal imaging module (3);

the switch key (62) can control the on/off of the single-side limit switch (61) of the infrared thermal imaging module (3) under the rotation drive of the infrared thermal imaging module (3).

7. The portable chinese medical science collection analyzer of claim 6, wherein: the switch key (62) comprises a key a (65) capable of being contacted with a limit switch (61) a and a key b (66) capable of being contacted with a limit switch (61) b, and the key a (65) and the key b (66) are combined with each other to form the switch key (62) with an L-shaped structure.

8. The portable traditional Chinese medicine collection analyzer according to claim 1, wherein: the rear end of the shell (1) is provided with a connecting groove (13), and the side edge of the connecting groove (13) is provided with a power interface (14) and a connecting interface (15);

the connecting interface (15) is connected with a PCB output board (16) in the mounting cavity, and the PCB output board (16) is connected with the inner wall of the shell (1) through the connecting component (7).

9. The portable traditional Chinese medicine collection analyzer according to claim 1, wherein: limiting blocks (17) for limiting the outer side edges of the display screen (2) are arranged at four corners of the inner wall of the shell (1), and the side edges of the display screen (2) are connected with the inner wall of the shell (1) through connecting assemblies (7).

10. A portable chinese medical science acquisition analyser according to claim 8 or 9, wherein: the connecting assembly (7) comprises a fixed block (71), and a fixed hole (72) is formed in the fixed block (71);

the fixing holes (72) can be mutually clamped with the fixing columns (73) on the inner wall of the shell (1), and the fixing columns (73) can be clamped into the fixing holes (72) to limit the fixing blocks (71) in the radial direction.