CN211911655U - Palm hydrops automatic measuring instrument - Google Patents

Abstract

The utility model discloses a palm hydrops automatic measuring instrument, which comprises a power module, a main controller connected with the power module, a transmitting unit connected with the main controller and the power module, an ultrasonic transceiving integrated probe unit connected with the transmitting unit, a high-voltage isolation filtering unit connected with the ultrasonic transceiving integrated probe unit and the transmitting unit, and a receiving unit connected with the high-voltage isolation filtering unit and the main controller; the device also comprises a storage unit, a display screen unit and a key unit which are connected with the main controller. The utility model discloses a palm hydrops automatic measuring instrument, its small, can hand-carry, or install in the white jacket, is suitable for various occasions such as disaster accident rescue scene, basis and rural medical institution such as traffic accident, earthquake, its detection image adopts the one-dimensional image, the doctor can read the hydrops depth directly according to the oscillogram; the depth of the accumulated liquid can be calculated by the main controller and displayed by the display screen, so that the use of a non-professional imaging doctor is facilitated.

Description

Palm hydrops automatic measuring instrument

Technical Field

The utility model relates to the field of medical equipment, in particular to measure instrument of hydrops in vivo.

Background

Currently, clinical detection of human effusion mainly depends on a B-type ultrasonic diagnostic apparatus and a radio examination, wherein B-type ultrasonic is that an ultrasonic doctor scans corresponding parts of a patient through an ultrasonic probe, a two-dimensional gray-scale image is obtained through computer transcoding, and the image is analyzed to obtain a diagnostic result. The radiodiagnosis is that a radiologist obtains a two-dimensional radiological image by X-ray and analyzes the image to obtain a diagnosis result.

Both the B-ultrasonic diagnostic apparatus and the radiodiagnostic apparatus need to be operated by a professional imaging doctor to obtain corresponding two-dimensional pictures. Because the images are complex, professional imaging doctors are required to analyze and diagnose; moreover, the instrument is expensive, the equipment volume is large, and the instrument is inconvenient to carry; meanwhile, the operation is complex, so that a non-professional imaging doctor is difficult to operate equipment and understand images, and the radiographic examination also has radiation, so that the non-professional imaging doctor is inconvenient to use for fetuses and pregnant women. Therefore, a clinician needs to judge whether the pleural effusion exists, the effusion depth and the maximum position point of the effusion by depending on the diagnosis result of the imaging doctor, so that the cost and time for examining the pleural effusion are increased, and the pleural effusion cannot be diagnosed in time.

The system has the advantages that no professional large-scale equipment or professional imaging doctors exist in rescue of disaster accidents such as car accidents and earthquakes, so that the effusion cannot be diagnosed in time, and even the life of a patient can be endangered.

For basic and rural medical institutions, large-scale ultrasonic diagnosis equipment is very expensive and lacks professional imaging doctors, so that diagnosis of pleural effusion, bladder effusion, pelvic effusion and other human effusion cannot be accurately judged, and timely treatment cannot be realized.

Therefore, an automatic effusion measuring instrument is urgently needed, the problem that large instruments or equipment and professional imaging doctors are needed for diagnosing human effusion such as pleural effusion, bladder effusion, pelvic effusion and the like at present is solved, and clinicians, country doctors and patients can quickly measure whether the effusion, the effusion depth and the maximum effusion position point exist.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a portable, easy operation's palm hydrops automatic measuring instrument to solve the instrument volume of diagnosing hydrops in vivo at present and be not portable, need professional image doctor operation scheduling technical problem.

The utility model discloses a palm hydrops automatic measuring instrument, which comprises a power module and a main controller connected with the power module;

the transmitting unit receives a control signal of the main controller and converts direct current high voltage from the power module into a matrix pulse high voltage signal under the action of the control signal of the main controller;

the ultrasonic receiving and transmitting integrated probe unit is connected with the transmitting unit and generates ultrasonic waves under the excitation of the matrix pulse high-voltage signals transmitted by the transmitting unit;

the ultrasonic receiving and transmitting integrated probe unit and the transmitting unit are connected with a high-voltage isolation filtering unit and a receiving unit which is connected with the high-voltage isolation filtering unit and the main controller; the high-voltage isolation filtering unit isolates the matrix pulse high-voltage signal from the transmitting unit from the receiving unit and performs band-pass filtering on the ultrasonic echo signal from the ultrasonic transceiving integrated probe unit; the receiving unit linearly amplifies the ultrasonic echo signal from the high-voltage isolation filtering unit and converts the ultrasonic echo signal into an ultrasonic echo signal within a range of 0-3.3V;

the ultrasonic echo signal processing device comprises a receiving unit, a main controller, a storage unit, a display screen unit and a key unit, wherein the storage unit, the display screen unit and the key unit are connected with the main controller, the main controller collects and processes the ultrasonic echo signal from the receiving unit, controls the display screen to display a oscillogram and an effusion depth of the ultrasonic echo signal, and receives an instruction of the key unit and executes corresponding operation.

Furthermore, the automatic handheld effusion measuring instrument further comprises a communication module unit connected with the main controller and a portable printer connected with the communication module unit.

Furthermore, the automatic handheld effusion measuring instrument is also provided with a power indicator light and an effusion indicator light which are connected with the main controller.

Further, the power module consists of a battery pack and a booster circuit, and the battery pack is connected with the transmitting unit and the main controller through the booster circuit;

the high-voltage isolation filtering unit consists of an MD0100 high-voltage isolation circuit and a band-pass filter connected with the MD0100 high-voltage isolation circuit;

the receiving unit is a variable gain amplifying circuit, and a chip of the variable gain amplifying circuit is AD 8311;

the model of the main controller is STM32F405RGT 6.

Further, the communication module unit is an MC20 module.

The utility model has the advantages that:

1. the utility model discloses in palm hydrops automatic measuring instrument, its is small, can hand-carry, or adorn in the white jacket, be suitable for various occasions such as disaster accident rescue scene, basis and rural medical institution such as traffic accident, earthquakes to use.

2. The utility model discloses a palm hydrops automatic measuring instrument, the detection image of which adopts one-dimensional image (A ultrasonic oscillography) display, the doctor can directly read the depth of the hydrops according to the oscillogram; the depth of the accumulated liquid can be calculated by the main controller and displayed by the display screen, so that the use of a non-professional imaging doctor is facilitated.

3. The utility model discloses well palm hydrops automatic measuring instrument, its easy operation, and be applicable to and detect various hydrops in vivo such as pleural effusion, peritoneal cavity hydrops, bladder hydrops, application scope is wide.

4. The utility model discloses well palm hydrops automatic measuring instrument, it is furnished with LED pleural effusion pilot lamp, can glimmer in succession when discovering the pleural effusion, reminds the doctor to diagnose, guarantees simultaneously that the doctor diagnosis also can be indicateed under the condition that open-air first aid does not have light.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of an automatic measuring instrument for effusion.

FIG. 2 is a power supply voltage boosting circuit diagram of the effusion automatic measurement instrument in the embodiment.

FIG. 3 is a circuit diagram of an ultrasonic emission circuit of the automatic measuring instrument for effusion in the embodiment.

FIG. 4 is a circuit diagram of a high-voltage isolation filter unit of the automatic effusion measurement instrument in the embodiment.

Fig. 5 is a circuit diagram of an ultrasonic echo receiving unit of the automatic effusion measuring instrument in the embodiment.

Fig. 6 is a circuit connection diagram of the main controller of the automatic effusion measurement instrument in the embodiment.

Detailed Description

The invention is further described with reference to the following figures and examples.

The palm effusion automatic measuring instrument of this embodiment includes power module 1 and main control unit 2 who is connected with power module. In this embodiment, the power module 1 is composed of a battery pack 101 and a booster circuit 102, and the booster circuit is configured as shown in fig. 2, and adopts an MC34064 booster circuit. The model of the main controller is STM32F405RGT6, and the connection structure of the main controller and other units is shown in FIG. 6.

The palm effusion automatic measuring instrument of this embodiment still includes the transmitting element 3 with main control unit and power module connection, and the circuit of transmitting element 3 is shown in fig. 3, the controlling signal of main control unit is received to the transmitting element and the direct current high voltage that will come from power module is transformed into matrix pulse high voltage signal under the control signal effect of main control unit.

The palm effusion automatic measuring instrument of this embodiment still includes the integrative probe unit 4 of supersound receiving and dispatching that is connected with the transmitting element, the integrative probe unit of supersound receiving and dispatching produces the ultrasonic wave under the matrix pulse high voltage signal excitation that the transmitting element transmitted.

The palm effusion automatic measuring instrument further comprises a high-voltage isolation filtering unit 5 connected with the ultrasonic transceiving integrated probe unit and the transmitting unit, and a receiving unit 6 connected with the high-voltage isolation filtering unit and the main controller; the high-voltage isolation filtering unit isolates the matrix pulse high-voltage signal from the transmitting unit from the receiving unit and performs band-pass filtering on the ultrasonic echo signal from the ultrasonic transceiving integrated probe unit; the receiving unit linearly amplifies the ultrasonic echo signals from the high-voltage isolation filtering unit and converts the ultrasonic echo signals into ultrasonic echo signals within the range of 0-3.3V. In this embodiment, the high-voltage isolation filtering unit is composed of an MD0100 high-voltage isolation circuit and a band-pass filter connected to the MD0100 high-voltage isolation circuit, and the circuit structure thereof is as shown in fig. 4; the receiving unit is a variable gain amplifying circuit, a chip of the variable gain amplifying circuit is AD8311, and a circuit structure of the variable gain amplifying circuit is shown in FIG. 5.

Of course, in different embodiments, the chip models of the high-voltage isolation filter unit, the variable gain amplification circuit and the main controller can also adopt other types.

The palm effusion automatic measuring instrument of this embodiment still includes memory cell, display screen unit 7 and the button unit 8 that is connected with main control unit, and the ultrasonic echo signal that comes from the receiving element is gathered and handled to main control unit, and the oscillogram and the effusion degree of depth that control display screen shows ultrasonic echo signal receive the instruction of button unit and carry out corresponding operation. In a specific implementation, the key unit 8 may adopt a mechanical key or a touch screen key, and the function keys may be set according to detection requirements, where the function keys of the key unit 8 in this embodiment include an on/off key for sending a power-on and power-off instruction to the main controller, an inspection/pause key for sending an inspection and pause detection instruction to the main controller, a save/print key for sending a save and print instruction to the main controller, a left-turn key for sending a left-turn instruction to the main controller, and a right-turn key for sending a right-turn instruction to the main controller.

As an improvement to the above embodiment, the automatic measuring instrument for effusion further comprises a communication module unit 9 connected with the main controller and a portable printer 10 connected with the communication module unit. The communication module unit in this embodiment is an MC20 module, which integrates multiple functions such as GPRS, positioning, bluetooth, and the like. Of course, in different embodiments, the communication module unit 9 may be of other types. This improvement makes the testing result can send through communication module unit 9 and print for portable printer 10, has further improved hydrops automatic measuring instrument's convenient to use.

As an improvement to the above embodiment, the automatic handheld effusion measuring instrument further comprises a power indicator lamp 11 and an effusion indicator lamp 12 which are connected with the main controller. When the machine is started, whether the equipment is normal can be judged through the power indicator lamp, and a doctor can be reminded when effusion is detected through the effusion indicator lamp.

The palm hydrops automatic measuring instrument can be used for detecting the depth of pleural effusion and also can be used for detecting the depth of the hydrops in the body under other conditions such as the depth of the hydrops in the abdominal cavity, the depth of the hydrops in the bladder and the like.

The method for measuring the depth of the pleural effusion by using the automatic handheld effusion measuring instrument in the embodiment comprises the following steps:

step 1, opening an accumulated liquid automatic measuring instrument;

step 2, smearing a coupling agent 13 on the probe position of the ultrasonic transceiving integrated probe unit;

step 3, beginning to check the pleural effusion, and enabling the checked person to be in a sitting posture, wherein the pleural effusion 14 is positioned between a lung 15 and a chest wall 16, and ribs 17 are arranged in the chest wall 16 at intervals as shown in a pleural model in fig. 1; the probe position of the ultrasonic transmitting-receiving integrated probe unit coated with the coupling agent is tightly attached to the axillary midline or the axillary posttrary line, and the rib gap is scanned from bottom to top along the axillary midline or the axillary posttrary line; and observing the oscillogram on the display screen in the scanning process, storing the oscillogram meeting the inspection requirement in a storage unit, and obtaining the depth of the pleural effusion according to the oscillogram after scanning the whole pleural cavity from bottom to top along the axillary midline or the axillary posterior line.

The controller automatically calculates the depth of the effusion according to the echo signal in the detection process, and the depth is displayed by the display screen, thereby being convenient for non-professional imaging doctors to use. And because the detection image is displayed by adopting a one-dimensional image (an ultrasonic oscillography), a doctor can also directly read the depth of the effusion according to the oscillogram.

The method for measuring the depth of the effusion in the abdominal cavity by using the automatic measuring instrument for the effusion in the embodiment comprises the following steps:

step 1, opening an accumulated liquid automatic measuring instrument;

step 2, smearing coupling agent on the probe position of the ultrasonic transceiving integrated probe unit;

step 3, beginning to check the effusion in the abdominal cavity, keeping the checked person in a supine posture, tightly attaching the probe position of the ultrasonic transceiving integrated probe unit coated with the coupling agent to the outer side of the lower abdominal part, and then scanning from the outer side of the lower abdominal part to the middle of the lower abdominal part; and observing the oscillogram on the display screen in the scanning process, storing the oscillogram meeting the inspection requirement in a storage unit, and obtaining the depth of the effusion of the abdominal cavity according to the oscillogram after the middle scanning from the outer side of the lower abdominal part to the lower abdominal part is finished.

The steps of measuring the depth of the hydrops in the bladder by using the automatic handheld hydrops measuring instrument in the embodiment are as follows:

step 1, opening an accumulated liquid automatic measuring instrument;

step 2, smearing coupling agent on the probe position of the ultrasonic transceiving integrated probe unit;

step 3, beginning to check the bladder effusion, keeping the checked person in a supine posture, tightly attaching the probe position of the ultrasonic transceiving integrated probe unit coated with the coupling agent to the navel part, and then scanning from the navel part to the urethra direction; and observing the oscillogram on the display screen in the scanning process, storing the oscillogram meeting the inspection requirement in a storage unit, and obtaining the depth of the bladder effusion according to the oscillogram after the scanning from the navel part to the urethra direction is finished.

The automatic handheld hydrops measuring instrument in the embodiment has a small volume, can be carried about or installed in a white gown, is suitable for being used in various occasions such as disaster accident rescue sites of car accidents, earthquakes and the like, foundations, rural medical institutions and the like, is suitable for non-professional imaging doctors, can detect various hydrops in the body such as pleural effusion, abdominal effusion, bladder hydrops and the like, and has a wide application range.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (5)

1. The utility model provides a palm hydrops automatic measuring instrument which characterized in that: the device comprises a power module and a main controller connected with the power module;

the transmitting unit receives a control signal of the main controller and converts direct current high voltage from the power module into a matrix pulse high voltage signal under the action of the control signal of the main controller;

the ultrasonic receiving and transmitting integrated probe unit is connected with the transmitting unit and generates ultrasonic waves under the excitation of the matrix pulse high-voltage signals transmitted by the transmitting unit;

the ultrasonic receiving and transmitting integrated probe unit and the transmitting unit are connected with a high-voltage isolation filtering unit and a receiving unit which is connected with the high-voltage isolation filtering unit and the main controller; the high-voltage isolation filtering unit isolates the matrix pulse high-voltage signal from the transmitting unit from the receiving unit and performs band-pass filtering on the ultrasonic echo signal from the ultrasonic transceiving integrated probe unit; the receiving unit linearly amplifies the ultrasonic echo signal from the high-voltage isolation filtering unit and converts the ultrasonic echo signal into an ultrasonic echo signal within a range of 0-3.3V;

the ultrasonic echo signal processing device comprises a receiving unit, a main controller, a storage unit, a display screen unit and a key unit, wherein the storage unit, the display screen unit and the key unit are connected with the main controller, the main controller collects and processes the ultrasonic echo signal from the receiving unit, controls the display screen to display a oscillogram and an effusion depth of the ultrasonic echo signal, and receives an instruction of the key unit and executes corresponding operation.

2. The palm effusion automatic measuring instrument according to claim 1, characterized in that: the printer also comprises a communication module unit connected with the main controller and a portable printer connected with the communication module unit.

3. The palm effusion automatic measuring instrument according to claim 1 or 2, characterized in that: still power indicator and hydrops pilot lamp be connected with main control unit.

4. The palm effusion automatic measuring instrument according to claim 1 or 2, characterized in that: the power module consists of a battery pack and a booster circuit, and the battery pack is connected with the transmitting unit and the main controller through the booster circuit;

the high-voltage isolation filtering unit consists of an MD0100 high-voltage isolation circuit and a band-pass filter connected with the MD0100 high-voltage isolation circuit;

the receiving unit is a variable gain amplifying circuit, and a chip of the variable gain amplifying circuit is AD 8311;

the model of the main controller is STM32F405RGT 6.

5. The palm effusion automatic measuring instrument according to claim 2, characterized in that: the communication module unit is an MC20 module.

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