CN211834452U - Ultrasonic instrument based on smart phone - Google Patents

Abstract

The utility model provides an ultrasonograph based on smart mobile phone, includes ultrasonic transducer, data processing transmission module, its characterized in that: the ultrasonic probe is connected with the smart phone through the data processing and transmitting module; the data processing and transmission device comprises a single chip microcomputer module, a USB-to-serial port module and an OTG data line, wherein one end of the OTG data line is a mobile phone interface, and the other end of the OTG data line is a USB port; one end of the USB-to-serial port module is a serial port, and the other end of the USB-to-serial port module is a USB port; the serial port is connected with the single chip microcomputer, the OTG data line is connected with the USB-to-serial port module, and the mobile phone interface of the OTG data line is connected with the data port of the smart phone; so-called connection, the exponent word signal may propagate steadily through the interface. The utility model has the advantages that: the structure of the ultrasonic instrument is simplified, the volume is small, and the ultrasonic instrument is convenient to carry; the smart phone displays clear ultrasonic images; the intelligent mobile phone enlarges and reduces the ultrasonic image, and the human-computer interaction level is high.

Description

Ultrasonic instrument based on smart phone

Technical Field

The utility model relates to an ultrasonic apparatus for ultrasonic diagnosis.

Background

The background art is provided only to aid understanding of the technical contents and is not prior art.

Medical ultrasound is a product of the interpenetration of ultrasound physics, electronic detection techniques, and biomedicine in development. Ultrasonic diagnosis utilizes the difference of transmission and reflection characteristics of ultrasonic waves in different media in a human body, ultrasonic signals are transmitted and received, and different influences are displayed on the ultrasonic signals according to a certain mode, so that the imaging of human soft tissues is realized, and the purpose of diagnosis is achieved. The ultrasonic diagnosis has the characteristics of no damage to human bodies, no pain and various display methods, particularly has the advantage that the ultrasonic diagnosis has incomparable advantages on the exploration of human soft tissues and the hemodynamic measurement of cardiovascular organs by other methods, and becomes one of the most widely used diagnostic means in modern medicine. Ultrasound medicine has been widely used in the prevention, diagnosis, treatment, rehabilitation, monitoring and general investigation of human diseases, and its application depth and breadth are continuously expanding with the increase of health demands of people.

The conventional ultrasonic diagnostic equipment mostly adopts a floor type appearance and is placed in a special ultrasonic examination department room. The ultrasonic diagnostic apparatus has the following disadvantages: 1. most of the existing ultrasonic diagnosis depends on large-scale instruments in hospitals, the volume is heavy, the price is high, the large-scale ultrasonic diagnosis instrument is inconvenient to carry 2, the image definition of a man-machine display interface of the large-scale ultrasonic diagnosis instrument used in the hospitals at present is insufficient, the penetration force of the large-scale ultrasonic diagnosis instrument on gas organs such as lungs, gastrointestinal tracts and the like is poor, the display is limited, and doctors are difficult to obtain more detailed ultrasonic information from the large-scale ultrasonic diagnosis instrument, so that the doctors are influenced to make correct diagnosis on diseases. 3. In addition to the technical defects, the ultrasonic diagnostic apparatus in the market at present mostly uses a fixed display screen on the display, and a certain part cannot be enlarged or reduced at will in the human-computer interaction, so that the human-computer interaction is difficult to be optimized to reach the human-computer interaction level of a mobile phone end.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable shows that the image is clear, and human-computer interaction level is high based on smart mobile phone's ultrasonograph.

An ultrasonic instrument based on a smart phone comprises an ultrasonic probe and a data processing and transmitting module. The method is characterized in that: the ultrasonic probe is connected with the smart phone through the data processing and transmitting module. The data processing and transmitting module can realize data interaction between the ultrasonic probe and the smart phone. The structure of the ultrasonic instrument can be simplified, the ultrasonic instrument is convenient to carry, the image displayed by the intelligent mobile phone is clear, and the human-computer interaction level is high.

Preferably, the ultrasonic probe consists of a shell, an ultrasonic sensor and a spring. The shell is divided into an upper shell and a lower shell, two ultrasonic sensors are symmetrically fixed in the upper shell, one ultrasonic sensor receives ultrasonic signals, the other ultrasonic sensor transmits ultrasonic signals, and an opening is formed in the center of the lower box body. The ultrasonic sensor connecting wire passes through the opening and is connected with the single chip microcomputer.

Preferably, the first ultrasonic sensor and the second ultrasonic sensor are embedded in the top of the upper shell by 3 mm. Two springs are fixed on two sides, one end of each spring is embedded into the top of the upper shell, and the other end of each spring is embedded into the top of the lower shell.

Preferably, the distance between the bottom edge of the upper shell and the bottom edge of the lower shell is 3mm, the bottom edge of the upper shell and the bottom edge of the lower shell are connected through a soft leather material, and the soft leather material is folded and has a length larger than 3 mm.

Preferably, a data processing and transmitting module is arranged in the handle, the handle is a shell with a cavity inside, and the shell and the lower shell of the ultrasonic probe are integrated.

Preferably, a winding box is attached to one side of the handle, the winding box and the handle are integrated, a box cover is arranged on the winding box, and a cavity is formed inside the winding box and provided with a winding type channel. The OTG data line can be wound along the channel and stored in the winding box. The other side is provided with a red LED. And the ultrasonic instrument is lightened when being connected with the smart phone.

Furthermore, a buckle is arranged at the joint of the box cover and the winding box. Preventing the box cover from being automatically opened.

Preferably, the data processing and transmitting module comprises a single chip microcomputer module, a USB-to-serial port module and an OTG data line, wherein one end of the OTG data line is a mobile phone interface, and the other end of the OTG data line is a USB port; one end of the USB-to-serial port module is a serial port, and the other end of the USB-to-serial port module is a USB port; the serial port is connected with the single chip microcomputer, the OTG data line is connected with the USB-to-serial port module, and the OTG data line mobile phone interface is connected with the smart phone data port. So-called connection, the exponent word signal may propagate steadily through the interface.

Preferably, the OTG data line length is 400mm, and the data line material is the PVC material, perhaps is the TPE material, perhaps is the nylon wire material, environmental protection and wear-resisting.

Preferably, the OTG data line mobile phone interface is a micro usb interface, or a Mini usb interface, or a type-c interface, or a lighting interface.

Preferably, OTG data line kneck sets up the size and is long 15mm, wide 15mm, high 5 mm's fillet structure, sets up an handstand length of side and is formed with the data line and be connected for 15 mm's regular triangle in fillet structure below, and the USB mouth is wrapped up by the fillet structure. Convenient for manual plug and prevent the data line from dragging and breaking.

The utility model has the advantages that:

1. simplify the structure of ultrasonic apparatus, small, portable.

2. The smart phone displays clear ultrasonic images.

3. The intelligent mobile phone enlarges and reduces the ultrasonic image, and the human-computer interaction level is high.

Drawings

Fig. 1 is a schematic view of the ultrasonic probe of the present invention.

Fig. 2 is a schematic view of the ultrasonic probe sensor of the present invention.

Fig. 3 is a schematic view of the handle of the present invention.

Fig. 4 is the utility model discloses an OTG data line schematic diagram.

Fig. 5 is a schematic view of the position of the buckle according to the present invention.

Detailed Description

The ultrasonic probe is connected with the smart phone through the data processing and transmitting module. The data processing and transmitting module can realize data interaction between the ultrasonic probe and the smart phone. The structure of the ultrasonic instrument can be simplified, the ultrasonic instrument is convenient to carry, the image displayed by the intelligent mobile phone is clear, and the human-computer interaction level is high.

The ultrasonic probe consists of a shell, an ultrasonic sensor 1-0 and a spring 1-2. The shell is divided into an upper shell 1-1 and a lower shell 1-3, two ultrasonic sensors 2-0 and 2-1 are symmetrically fixed in the upper shell, one ultrasonic sensor receives ultrasonic signals, the other sensor transmits ultrasonic signals, and an opening is formed in the center of the lower box. The ultrasonic sensor connecting wire passes through the opening and is connected with the single chip microcomputer.

The first ultrasonic sensor and the second ultrasonic sensor are embedded in the top of the upper shell by 3 mm. Two springs are fixed on both sides, one end of each spring 1-2 is embedded into the top of the upper shell, and the other end is embedded into the top of the lower shell.

The distance between the bottom edge of the upper shell and the bottom edge of the lower shell is 3mm, the bottom edge of the upper shell and the bottom edge of the lower shell are connected through soft leather, and the soft leather is folded and has a length larger than 3 mm.

The handle is internally provided with a data line, the handle is a shell with a cavity inside, and the shell and the lower shell of the ultrasonic probe are integrated.

A winding box 4-3 is attached to one side of the handle, the winding box and the handle are integrated, a box cover is arranged on the winding box, and a cavity is formed inside the winding box and provided with a winding type channel. The OTG data line can be wound along the channel and stored in the winding box. The other side is provided with a red LED 4-2. And the ultrasonic instrument is lightened when being connected with the smart phone.

The joint of the box cover and the winding box is provided with a buckle 5-0. Preventing the box cover from being automatically opened.

The data processing and transmission device comprises a single chip microcomputer module, a USB-to-serial port module and an OTG data line, wherein one end of the OTG data line is a mobile phone interface, and the other end of the OTG data line is a USB port; one end of the USB-to-serial port module is a serial port, and the other end of the USB-to-serial port module is a USB port; the serial port is connected with the single chip microcomputer, the OTG data line is connected with the USB-to-serial port module, and the OTG data line mobile phone interface is connected with the smart phone data port. So-called connection, the exponent word signal may propagate steadily through the interface.

The length of the OTG data line 3-3 is 400mm, the data line material is PVC material, or TPE material, or nylon wire material, environmental protection and wear resistance.

The OTG data line mobile phone interface 3-1 can be a micro usb interface, or a Mini usb interface, or a type-c interface, or a lighting interface.

The data line port 3-1 of the OTG is provided with fillet structures 3-2 and 3-4 with the length of 15mm, the width of 15mm and the height of 5mm, an inverted right triangle 3-5 and 3-6 with the side length of 15mm are arranged below the fillet structures and are connected with the data line, and the USB port is wrapped by the fillet structures. Convenient for manual plug and prevent the data line from dragging and breaking.

During diagnosis and test, the ultrasonic instrument and the smart phone are connected by using the OTG data line 3-3, the red LED on the device can be lightened, and the APP matched with the device in the smart phone is automatically awakened.

When ultrasonic diagnosis is carried out, the smart phone is held by one hand, the handle is held by the other hand, the ultrasonic sensor is in contact with the skin of a detection part and slides on the surface of the skin, and the target organ is found for detection.

The mobile phone APP counts down one minute to finish detection, real-time data of the ultrasonic instrument and a display test result are displayed on the mobile phone APP, and the test is finished.

Claims (10)

1. The utility model provides an ultrasonograph based on smart mobile phone, includes ultrasonic transducer, data processing transmission module, its characterized in that: the ultrasonic probe is connected with the smart phone through the data processing and transmitting module; the data processing and transmission device comprises a single chip microcomputer module, a USB-to-serial port module and an OTG data line, wherein one end of the OTG data line is a mobile phone interface, and the other end of the OTG data line is a USB port; one end of the USB-to-serial port module is a serial port, and the other end of the USB-to-serial port module is a USB port; the serial port is connected with the single chip microcomputer, the OTG data line is connected with the USB-to-serial port module, and the mobile phone interface of the OTG data line is connected with the data port of the smart phone; so-called connection, the exponent word signal may propagate steadily through the interface.

2. The smartphone-based sonographer of claim 1, wherein: the ultrasonic probe consists of a shell, an ultrasonic sensor and a spring; the shell is divided into an upper shell and a lower shell, two ultrasonic sensors are symmetrically fixed in the upper shell, one ultrasonic sensor receives an ultrasonic signal, the other ultrasonic sensor transmits an ultrasonic signal, and an opening is formed in the center of the lower box body; the ultrasonic sensor connecting wire passes through the opening and is connected with the single chip microcomputer.

3. The smartphone-based sonicator of claim 2, wherein: the first ultrasonic sensor and the second ultrasonic sensor are embedded into the top of the upper shell by 3 mm; two springs are fixed on two sides, one end of each spring is embedded into the top of the upper shell, and the other end of each spring is embedded into the top of the lower shell.

4. The smartphone-based sonicator of claim 3, wherein: the distance between the bottom edge of the upper shell and the bottom edge of the lower shell is 3mm, the bottom edge of the upper shell and the bottom edge of the lower shell are connected through soft leather, and the soft leather is folded and has a length larger than 3 mm.

5. The smartphone-based sonographer of claim 1, wherein: the ultrasonic instrument is also provided with a handle, a data line is arranged in the handle, the handle is a shell with a cavity inside, and the shell and the lower shell of the ultrasonic probe are integrated.

6. The smartphone-based sonicator of claim 5, wherein: a winding box is attached to one side of the handle, the winding box and the handle are integrated, a box cover is arranged on the winding box, a cavity is formed inside the winding box, a winding type channel is formed in the cavity, and a red LED is arranged on the other side of the winding box.

7. The smartphone-based sonicator of claim 6, wherein: the junction of the box cover and the winding box is provided with a buckle.

8. The smartphone-based ultrasound machine of claim 1, wherein: the OTG data line length is 400mm, and the data line material is the PVC material, or is the TPE material, or is the nylon line material.

9. The smartphone-based sonographer of claim 1, wherein: the OTG data line mobile phone interface is a micro usb interface, or a Mini usb interface, or a type-c interface, or a lighting interface.

10. The smartphone-based sonographer of claim 1, wherein: the size is set up to length 15mm, wide 15mm, high 5 mm's fillet structure at OTG data line kneck, sets up an handstand length of side and is formed with the data line and be connected for 15 mm's regular triangle in fillet structure below, and the USB mouth is wrapped up by the fillet structure.

Images