CN115990033A - Medical processing system of high-precision ultrasonic image processing probe - Google Patents

Abstract

The invention relates to the field of data processing, and discloses a medical processing system of a high-precision ultrasonic image processing probe, which is characterized in that a coordinate module, a marking module and a guiding module are matched, when the medical processing system works, an acquisition module moves on the surface of a human body for detection, the coordinate module establishes an internal model of the thoracic and abdominal cavity of a detected person according to the obtained data and a moving track, and establishes coordinates according to the initial contact point of the acquisition module and the human body as an origin, so that the unclear image of the display module or the complex situation can be marked during the detection, the subsequent key searching, focusing and other adjustment work is convenient, after the adjustment work is started, the guiding module guides the direction of a doctor, so that the acquisition module can be quickly moved to the marking point, the intelligent degree of the system of the device is improved, the detection result is more accurate, the image is clearer, the condition of continuous and repeated searching is avoided, the detection process is quicker, and convenience is provided for doctors and the detected person.

Description

Medical processing system of high-precision ultrasonic image processing probe

Technical Field

The invention relates to the field of data processing, in particular to a medical processing system of a high-precision ultrasonic image processing probe.

Background

The ultrasonic wave can penetrate biological tissues and can be transmitted, reflected and scattered in different tissues, the ultrasonic wave has the effects of diagnosis and treatment in medicine, the resolution of high-frequency sound intensity on the biological tissues is high, the side effect of low-frequency sound intensity on the biological tissues is small, the ultrasonic wave with high frequency and low sound intensity above 2MHz is used for diagnosis to obtain clear images, the low-frequency ultrasonic wave with the frequency lower than 1MHz has good penetrability on the biological tissues, the ultrasonic wave with high sound intensity can generate biological effects in the biological tissues, local lesions can be selectively destroyed, and the ultrasonic wave with low frequency and high sound intensity is used for treatment;

when the ultrasonic is used for diagnosis, an ultrasonic probe is required to be attached to the skin of a human body, then after signal conversion, a detection result is displayed on a display screen, and a doctor diagnoses through image information displayed on the display screen;

the ultrasonic detection is easy to interfere, various interference factors can cause unclear imaging, the probe position needs to be continuously adjusted when a certain point is focused or the last focus point is checked, the operation is troublesome, the image is unclear due to inaccurate position, and the diagnosis result is influenced, so that the medical treatment system of the high-precision ultrasonic image treatment probe is provided for solving the problem.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems existing in the prior art, the invention aims to provide a high-precision ultrasonic image processing probe medical processing system, the scheme establishes coordinates on detected images through the cooperation of a coordinate module, a marking module and a guiding module, when the system works, an acquisition module continuously moves and detects on the surface of a human body, the coordinate module establishes an intra-thoracic-abdominal cavity model of a detected person according to obtained data and a moving track, and establishes coordinates according to the initial contact point of the acquisition module and the human body as an origin, so that the image of a display module can be unclear or a complex situation can be marked when the system is checked, the subsequent key searching, focusing and other adjustment works are convenient, after the adjustment work is started, the guiding module guides the direction of a doctor, so that the acquisition module can be quickly moved to a marking point, the intelligent degree of the system of the device is improved, the detection result is more accurate, the image can be clearer, the condition of continuous repeated searching is avoided, the detection process is quicker, and convenience is provided for doctors and detectors.

2. Technical proposal

In order to solve the problems, the invention adopts the following technical scheme.

The utility model provides a high accuracy ultrasonic image processing probe medical processing system, includes information end, control end and database, the information end includes the collection module of receipt information and the display module of display information, the control end then includes signal reception module, image processing module, retrieval module, image classification module, supplementary module, mark module, coordinate module, mark module and guide module, collection module and display module pass through control end electrical signal connection, mark module and coordinate module electrical signal connection, guide module installs on the collection module, signal reception module and image processing module electrical signal connection, image processing module and image classification module electrical signal connection, image classification module, supplementary module and retrieval module all are connected with the database electrical signal.

The acquisition module is used for contacting a human body and probing tissue information inside the human body through ultrasonic waves;

the display module is used for displaying the human body internal tissue information detected by the acquisition module;

the signal receiving module is used for receiving the electric signals acquired by the acquisition module;

the image processing module is used for converting the electric signals received by the signal receiving module into image signals;

the image processing module converts the signal into readable data units, and the data units are divided into image data and text data;

the database is used for storing the signal units processed by the image processing module;

the retrieval module is used for carrying out contrast screening in the database according to the real-time data acquired by the acquisition module;

the image classification module is used for classifying and managing the signal units provided by the image processing module and storing the signal units in the database, and the classification standards include but are not limited to: human tissue type, tissue expression status and text data type;

the marking module is used for marking the special positions of the images quickly during the inspection, so that the analysis and the observation are convenient;

the coordinate module is used for establishing an intra-thoracic and abdominal cavity model of the detected person according to the data and the movement track provided by the acquisition module, and establishing coordinates according to the initial contact point of the acquisition module and the human body as an origin;

the marking module is used for marking the unclear image or complex situation position of the display module during inspection, so that subsequent key searching, focusing and other adjustment are facilitated;

and the guiding module is used for guiding the direction of the doctor, so that the marking points made by the marking module can be conveniently found.

Further, the display module is divided into a main screen and an auxiliary screen, wherein the main screen is only in electric signal connection with the acquisition module, the auxiliary screen is simultaneously in electric signal connection with the acquisition module, the marking module and the database, the main screen displays real-time information acquired by the acquisition module, the auxiliary screen can freely synchronize information with the main screen, reference information in the database can also be displayed according to a processing result of the retrieval module, data and images displayed by the auxiliary screen can be judged and adjusted by a doctor, the auxiliary screen is automatically synchronized with the main screen during marking, and marking content is only displayed on the auxiliary screen, so that the definition of imaging of the main screen is not influenced while the marking assistance is obtained, and the whole detection process is easier and quicker.

Furthermore, the image classification module considers the image information and also considers the conditions including the age, sex and body fat value of the detected person, the image classification module can be classified into one class which is not influenced by the factors, and the image classification module is interfered by the factors, so that the response of the retrieval module can be more rapid by increasing the classification quantity;

when no search help signal is sent out, the automatic search of the search model is limited to the above classification (the classification is character information, no image information is contained, the search is easier, the calculation power of the system is not wasted), and after the search help signal is received, the full-type deep search is carried out on the search model.

Furthermore, the content supplemented by the supplementing module is provided with the type of the corresponding image, the focus point, the focus type and the detection skill of the corresponding situation, so that the method can provide help for new doctors with insufficient experience and reduce the work difficulty of the new doctors.

Further, the acquisition module comprises an ultrasonic head, a handle and a signal wire, the connecting part of the ultrasonic head and the handle is provided with a holding part, the guiding module comprises a prompting mechanism arranged on the outer side and the top of the handle, and the prompting mechanism sends a direction guiding signal to a doctor.

Further, the prompting mechanism at the top of the handle comprises a mounting groove formed in the top of the handle, a group of signal lamps are arranged in the mounting groove in a surrounding mode, the group of signal lamps are not less than eight, one signal lamp represents one direction, when the device is used, a doctor holds the holding part in a handheld mode to wait for feedback, the signal lamp needs to move in that direction, the lamp in that direction can be lightened, a doctor tool guides to move an ultrasonic head, a doctor is guided to quickly find a specified detection point, and meanwhile the method is low in cost, small in transformation of equipment originally and small in influence on equipment use.

Further, the prompting mechanism outside the handle comprises a deflection mechanism, the deflection mechanism comprises a deflection groove arranged on the surface of the holding part, a deflection ring and a rotating ring are rotatably connected in the deflection groove, the deflection ring is positioned at the outer opening of the deflection groove, the rotating ring is positioned at the inner ring side of the deflection groove, a damping piece is arranged between the rotating ring and the inner wall of the deflection groove, the damping force is larger than the force required by the compression of the hollow spring, the surface of the rotating ring is provided with an outer interface penetrating through the inside and the outside, the inner wall of the deflection ring is embedded with a power ring which is rotatably connected with a power device, the outer side of the power ring is fixedly connected with a sleeve penetrating through the outer interface, the other end of the sleeve is slidably inserted with a push rod, the other end of the push rod is in contact with the inner side of the deflection ring, A piston is arranged between the ejector rod and the sleeve, a pushing spring is fixedly connected between the piston and the sleeve, the ejector rod is used for pushing and controlling the deflection direction of the deflection ring, after the guide module sends a direction signal, the power ring drives the sleeve and the ejector rod to rotate, the ejector rod can also push the deflection ring to deflect, after the power ring drives the ejector rod to reach a designated position, the deflection ring also deflects towards the designated position, fingers are pressed and extruded, so that a doctor can move an ultrasonic head according to the extrusion position, and the doctor can quickly find the designated detection point.

Further, the sealing piece is arranged at one end of the sleeve, which is in contact with the ejector rod, the exhaust hole is formed at the other end of the sleeve, the hollow spring penetrating into the sleeve is fixedly connected in the outer interface, the connecting point of the hollow spring and the sleeve is positioned at one side of the piston, which is close to the ejector rod, so that when the power ring drives the sleeve and the ejector rod to move, the extruded air enters the sleeve, the ejector rod is contracted to not contact with the deflection ring any more, and after reaching a designated position, the power ring loses power to reset, thus the deflection ring is reduced to make unnecessary actions, misleading doctors are avoided, and accuracy is improved.

Further, the offset distance of the deflection ring is smaller than the thickness of the annular wall of the deflection ring, so that an exposed gap is formed between the inner side of the deflection ring and the deflection groove when the deflection ring is offset, and the condition of meat clamping when the deflection ring is offset is prevented.

Further, when the direction given by the guiding module is the initial deflection direction of the deflection ring, the power ring drives the ejector rod to rotate for a circle and then reset, so that obvious prompt is given to doctors, and erroneous judgment is avoided.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

1. the coordinate module is used for establishing an intra-thoracic and abdominal cavity model of a detected person according to obtained data and a moving track, and the coordinate module is used as an origin according to a first touch point of the acquisition module and the human body, so that the position of the display module, which is not clear or complex in condition, can be marked when the detection is performed, the subsequent key searching and focusing and other adjustment work is convenient, and after the adjustment work is started, the guide module guides the doctor in the direction, so that the acquisition module can be quickly moved to the marking point, the intelligent degree of a system of the device is improved, the detection result is more accurate, the image is clearer, the condition of continuous repeated searching is avoided, the detection process is quicker, and convenience is provided for doctors and detectors.

2. The image classification module considers the image information and also considers the conditions including the age, sex and body fat value of the detected person, the image classification module can be classified into one class which is not influenced by the factors, and the image classification module is interfered by the factors, so that the classification quantity is increased, and the response of the retrieval module can be more rapid;

when no search help signal is sent out, the automatic search of the search model is limited to the above classification (the classification is character information, no image information is contained, the search is easier, the calculation power of the system is not wasted), and after the search help signal is received, the full-type deep search is carried out on the search model.

3. The display module is divided into a main screen and an auxiliary screen, wherein the main screen is only connected with the electric signals of the acquisition module, the auxiliary screen is simultaneously connected with the electric signals of the acquisition module, the marking module and the database, the main screen displays real-time information acquired by the acquisition module, the auxiliary screen can freely synchronize information with the main screen, reference information in the database can also be displayed according to the processing result of the retrieval module, data and images displayed by the auxiliary screen can be judged and adjusted by a doctor, the auxiliary screen is automatically synchronized with the main screen during marking, and marking content is only displayed on the auxiliary screen, so that the definition of imaging of the main screen is not influenced while the marking assistance is obtained, the whole detection process is easier and quicker, and meanwhile, the detection result is more accurate and the images are clearer.

4. The prompting mechanism comprises a mounting groove formed in the top of the handle, a group of signal lamps are arranged in the mounting groove in a surrounding mode, the group of signal lamps are not less than eight, one signal lamp represents one direction, when the device is used, a doctor holds the holding part in a handheld mode to wait for feedback, the signal lamp needs to move in that direction, the lamp in that direction can be lightened, a doctor tool guides to move an ultrasonic head, so that the doctor is guided to quickly find a designated detection point, and meanwhile, the method is low in cost, small in original transformation of equipment and small in influence on equipment use.

5. After the guide module sends a direction signal, the power ring drives the sleeve and the ejector rod to rotate, the ejector rod can push the deflection ring to deflect, when the power ring drives the ejector rod to reach a specified position, the deflection ring is also deflected towards the specified position, fingers are pressed and extruded, so that a doctor can move the ultrasonic head according to the extrusion position, and the doctor is guided to quickly find a specified detection point.

6. The sleeve is provided with a sealing element at one end contacted with the ejector rod, the other end is provided with an exhaust hole, the outer interface is internally and fixedly connected with a hollow spring penetrating into the sleeve, the connecting point of the hollow spring and the sleeve is positioned at one side of the piston close to the ejector rod, when the power ring drives the sleeve and the ejector rod to move, the extruded air enters the sleeve, so that the ejector rod is contracted to not push against the deflection ring, after reaching a designated position, the power ring loses power to reset, unnecessary actions are reduced by the deflection ring, misleading of doctors is avoided, and accuracy is improved.

7. The offset distance of the deflection ring is smaller than the thickness of the annular wall of the deflection ring, so that an exposed gap is formed between the inner side of the deflection ring and the deflection groove when the deflection ring is offset, and the condition of meat clamping when the deflection ring is offset is prevented.

Drawings

FIG. 1 is a block diagram of a boot function of the present invention;

FIG. 2 is a block diagram of a data processing module according to the present invention;

FIG. 3 is a block diagram of the display of the present invention;

fig. 4 is a signal lamp guidance display diagram of the present invention;

FIG. 5 is a diagram showing the guiding of the offset mechanism of the present invention;

FIG. 6 is an illustration of an offset mechanism of the present invention;

FIG. 7 is an enlarged view of FIG. 6A in accordance with the present invention;

FIG. 8 is a diagram of a deflection yoke projection state of the present invention;

FIG. 9 is a deflection yoke deflection state diagram of the present invention;

FIG. 10 is a push rod pushing state diagram of the present invention;

fig. 11 is a diagram showing the state of the offset of the jack according to the present invention.

The reference numerals in the figures illustrate:

1. an ultrasonic head; 2. a handle; 3. a signal line; 4. a mounting groove; 5. a signal lamp; 6. a grip portion; 7. an offset mechanism; 71. a deflection tank; 72. a deflection ring; 73. a rotating ring; 74. an external interface; 75. a power ring; 76. a sleeve; 77. a push rod; 78. a pushing spring; 79. a hollow spring.

Detailed Description

The technical scheme of the embodiment is clearly and completely described by combining the disclosed drawings, so that the purposes, technical scheme and beneficial effects of the embodiment of the disclosure are more clear. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Unless otherwise defined, technical or scientific terms used in this disclosure should be given the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure pertains. The terms "first," "second," and the like, as used in this disclosure, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" and the like means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof without precluding other elements or items. "upper", "lower", "inner", "outer", etc. are used merely to denote relative positional relationships, which may also change accordingly when the absolute position of the object to be described changes.

Example 1:

referring to fig. 1-3, a medical processing system of a high-precision ultrasonic image processing probe comprises an information end, a control end and a database, wherein the information end comprises an acquisition module for receiving information and a display module for displaying information, the control end comprises a signal receiving module, an image processing module, a retrieval module, an image classification module, a supplementing module, a labeling module, a coordinate module, a marking module and a guiding module, the acquisition module is connected with the display module through electric signals of the control end, the marking module is connected with the electric signals of the coordinate module, the guiding module is arranged on the acquisition module, the signal receiving module is connected with the electric signals of the image processing module, the image processing module is connected with the electric signals of the image classification module, and the image classification module, the supplementing module and the retrieval module are all connected with the electric signals of the database.

The acquisition module and the human body contact with each other, the internal tissue information of the human body is probed through ultrasonic waves, the information is then sent to the signal receiving module, the signal receiving module transmits the obtained electric signals to the image processing module, the image processing module converts the electric signals into readable data units (the data units are divided into image data and text data), the data units are displayed on the display module, a doctor marks a special part (an unclear, or suspected part with health problems) of the image quickly when checking, analysis and observation are convenient, so that the data units are gradually perfected, and after one-time detection is finished, the data units are correspondingly classified according to the information provided by the data units (and classification standards include but are not limited to human tissue types, tissue expression states and text data types) and are stored in the database;

the image classification module considers the image information and also considers the conditions including the age, sex and body fat value of the detected person, the image classification module can be classified into one class which is not influenced by the factors, and the image classification module is interfered by the factors, so that the classification quantity is increased, and the response of the retrieval module can be more rapid;

when no search help signal is sent out, the automatic search of the search model is limited to the above classification (the classification is character information, does not contain image information, is easier to search, and does not waste the calculation power of the system), and after the search help signal is received, the search model performs full-type deep search;

the display module is divided into a main screen and an auxiliary screen, wherein the main screen is only connected with the electric signals of the acquisition module, the auxiliary screen is simultaneously connected with the electric signals of the acquisition module, the marking module and the database, the main screen displays real-time information acquired by the acquisition module, the auxiliary screen can freely synchronize information with the main screen, reference information in the database can also be displayed according to the processing result of the retrieval module, data and images displayed by the auxiliary screen can be judged and adjusted by a doctor, the auxiliary screen is automatically synchronized with the main screen during marking, and marking content is only displayed on the auxiliary screen, so that the definition of imaging of the main screen is not influenced while the marking assistance is obtained, and the whole detection process is easier and quicker.

When the acquisition module continuously detects the movement of the surface of a human body, the coordinate module establishes an intra-thoracic and abdominal cavity model of the detected person according to the obtained data and the movement track, and establishes coordinates according to the initial contact point of the acquisition module and the human body as an origin, so that the unclear image or complex situation of the display module can be marked during the examination, the subsequent key searching, focusing and other adjustment work is convenient, and after the adjustment work is started, the guiding module guides the doctor in the direction, so that the doctor can quickly move the acquisition module to the marking point.

The supplementary module supplements the content with the type of the corresponding image, the focus point, the focus type and the detection skill of the corresponding situation, thereby providing help for new doctors with insufficient experience and reducing the work difficulty of the new doctors.

Example 2:

referring to fig. 4, the collection module includes an ultrasonic head 1, a handle 2 and a signal line 3, the connection part of the ultrasonic head 1 and the handle 2 is provided with a holding part 6, the guiding module includes a prompting mechanism at the top of the handle 2, the prompting mechanism sends a direction guiding signal to a doctor, the prompting mechanism includes a mounting groove 4 arranged at the top of the handle 2, a group of signal lamps 5 are arranged around the inside of the mounting groove 4, one signal lamp 5 is not less than eight, one signal lamp 5 represents one direction, when in use, the doctor holds the holding part 6 to wait for feedback, the lamp in that direction needs to be moved, the lamp in that direction can be turned on, and the doctor tool guides to move the ultrasonic head 1, so that the doctor is guided to quickly find a designated detection point.

Example 3:

referring to fig. 5-11, the acquisition module comprises an ultrasonic head 1, a handle 2 and a signal wire 3, a holding part 6 is arranged at the connecting part of the ultrasonic head 1 and the handle 2, the guiding module comprises a prompting mechanism at the outer side of the handle 2, the prompting mechanism sends a direction guiding signal to a doctor, the prompting mechanism comprises a shifting mechanism 7, the shifting mechanism 7 comprises a deflecting groove 71 arranged on the surface of the holding part 6, a deflecting ring 72 and a rotating ring 73 are rotatably connected in the deflecting groove 71, the deflecting ring 72 is positioned at the opening at the outer side of the deflecting groove 71, the rotating ring 73 is positioned at the inner ring side of the deflecting groove 71, a damping piece is arranged between the rotating ring 73 and the inner wall of the deflecting groove 71, the damping force is larger than the force required by compression of a hollow spring 79, an outer interface 74 penetrating inside and outside is arranged on the surface of the rotating ring 73, a power ring 75 is rotatably connected with a power ring 75 in an embedded manner, the inner wall of the deflecting ring 72 is externally connected with a power device, the power equipment has no self-locking function (no limiting capacity is provided after the power equipment stops working), the outer side of the power ring 75 is fixedly connected with a sleeve pipe 76 penetrating through the outer interface 74, the other end of the sleeve pipe 76 is in sliding connection with a push rod 77, the other end of the push rod 77 is propped against the inner side of the deflection ring 72, a piston is arranged between the push rod 77 and the sleeve pipe 76, a pushing spring 78 is fixedly connected between the piston and the sleeve pipe 76, one end of the sleeve pipe 76, which is contacted with the push rod 77, is provided with a sealing element, the other end is provided with an exhaust hole, a hollow spring 79 penetrating into the sleeve pipe 76 is fixedly connected in the outer interface 74, the connecting point of the hollow spring 79 and the sleeve pipe 76 is positioned at one side of the piston, which is close to the push rod 77, after a direction signal is sent by the guiding module, the power ring 75 drives the sleeve pipe 76 and the push rod 77 to rotate, the rotating ring 73 is temporarily static under the action of damping force, the sleeve pipe 76 slides in the outer interface 74 to compress the hollow spring 79, as shown in fig. 11, after the hollow spring 79 is compressed, the internal air enters the sleeve 76, the ejector rod 77 is pushed to the deep of the sleeve 76 by the piston, the ejector rod 77 is separated from the deflection ring 72, so that the deflection ring 72 is not influenced in the rotation process of the deflection ring 72 along with the power ring 75, the deflection ring 72 continues to rotate, the force exerted by the sleeve 76 on the rotation ring 73 after the hollow spring 79 is completely compressed is larger than the damping force, the rotation ring 73 follows rotation, after the power equipment does not provide power any more, the hollow spring 79 starts to reset, the rotation ring 73 does not move, the sleeve 76 is provided by the hollow spring 79 to push the power ring 75 to rotate reversely, the ejector rod 77 follows the direction reaching the deflection direction, the hollow spring 79 extracts the air in the sleeve 76, and the ejector rod 77 resets to push the deflection ring 72 out, as shown in fig. 10.

The offset distance of the deflection ring 72 is smaller than the thickness of the annular wall of the deflection ring 72, so that an exposed gap is formed between the inner side of the deflection ring 72 and the deflection groove 71 when the deflection ring 72 is offset, and the condition of meat clamping when the deflection ring 72 is offset is prevented; when the direction given by the guiding module is the initial deflection direction of the deflection ring 72, the power ring 75 drives the ejector rod 77 to rotate for one circle and then reset, so that obvious prompt is given to doctors, and erroneous judgment is avoided.

The above description is only of the preferred embodiments of the present invention; the scope of the invention is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims (10)

1. The utility model provides a medical processing system of high accuracy ultrasonic image processing probe, includes information end, control end and database, the information end includes the collection module of receipt information and the display module of display information, the control end then includes signal receiving module, image processing module, retrieval module, image classification module, supplementary module, mark module, coordinate module, mark module and guide module, its characterized in that: the system comprises a collecting module, a display module, a marking module, a guiding module, a signal receiving module, an image processing module, an image classifying module, a database electric signal connection, a display module, a marking module, a signal receiving module, an image processing module, a supplementing module and a searching module.

2. The high-precision ultrasonic image processing probe medical processing system according to claim 1, wherein: the display module is divided into a main screen and an auxiliary screen, wherein the main screen is only in electric signal connection with the acquisition module, and the auxiliary screen is simultaneously in electric signal connection with the acquisition module, the marking module and the database.

3. The high-precision ultrasonic image processing probe medical processing system according to claim 1, wherein: the image processing module converts the signals into readable data units, and the data units are divided into image data and text data.

4. The high-precision ultrasonic image processing probe medical processing system according to claim 1, wherein: the image classification module considers the image information and also considers the conditions including the age, sex and body fat value of the testee, and can be classified into one type which is not influenced by the factors and is singly classified by the factors.

5. The high-precision ultrasonic image processing probe medical processing system according to claim 1, wherein: the content supplemented by the supplementing module is provided with detection skills corresponding to the type of the image, the focus point, the focus type and the corresponding situation.

6. The high-precision ultrasonic image processing probe medical processing system according to claim 1, wherein: the acquisition module comprises an ultrasonic head (1), a handle (2) and a signal wire (3), a holding part (6) is arranged at the connecting part of the ultrasonic head (1) and the handle (2), and the guiding module comprises a prompting mechanism at the outer side of the handle (2).

7. The high-precision ultrasonic image processing probe medical processing system according to claim 6, wherein: the prompting mechanism comprises a mounting groove (4) formed in the top of the handle (2), a group of signal lamps (5) are arranged in the mounting groove (4) in a surrounding mode, one group of signal lamps (5) is not less than eight, and one signal lamp (5) represents one direction.

8. The high-precision ultrasonic image processing probe medical processing system according to claim 6, wherein: the prompting mechanism comprises a deflection mechanism (7), the deflection mechanism (7) comprises a deflection groove (71) formed in the surface of a holding part (6), a deflection ring (72) and a rotating ring (73) are rotatably connected to the inside of the deflection groove (71), the deflection ring (72) is located at an outer opening of the deflection groove (71), the rotating ring (73) is located at the inner ring side of the deflection groove (71), a damping piece is arranged between the rotating ring (73) and the inner wall of the deflection groove (71), the damping force is larger than the force required by compression of a hollow spring (79), an inner interface (74) penetrating through the inside and the outside is formed in the surface of the rotating ring (73), a power ring (75) is rotatably connected to the inner wall of the deflection ring (72), a sleeve (76) penetrating through the outer interface (74) is fixedly connected to the outer side of the power ring (75), the other end of the sleeve (76) is slidably inserted with a damping piece, the other end of the sleeve (77) is propped against the inner side of the deflection ring (72), and a pushing piston (76) is fixedly connected between the sleeve (78) and the piston (76).

9. The high-precision ultrasonic image processing probe medical processing system according to claim 8, wherein: one end of the sleeve (76) is contacted with the ejector rod (77) is provided with a sealing piece, the other end is provided with an exhaust hole, a hollow spring (79) penetrating into the sleeve (76) is fixedly connected in the outer interface (74), and the connecting point of the hollow spring (79) and the sleeve (76) is positioned at one side of the piston close to the ejector rod (77).

10. The high-precision ultrasonic image processing probe medical processing system according to claim 8, wherein: the deflection ring (72) is offset by a distance less than the annular wall thickness of the deflection ring (72).

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