CN104434204A - Intelligent wireless ultrasonic detection system capable of achieving probe switching by photoelectric sensing - Google Patents

Abstract

The invention discloses an intelligent wireless ultrasonic detection system capable of achieving probe switching by photoelectric sensing. The intelligent wireless ultrasonic detection system comprises a host portion, B-ultrasonic probes and probe supports. The host portion comprises a host and a displayer connected to the output end of the host, and each B-ultrasonic probe comprises a wireless transmission unit. A photoelectric sensor, a recognition signal generation unit and a power component are disposed on the surface of each B-ultrasonic probe, wherein the photoelectric sensor is connected to the input end of a control unit, and the recognition signal generation unit is connected with the corresponding wireless transmission unit. A plug is connected with the host, the host portion further comprises a recognition signal processing unit connected between the plug and the host, and a reflector is arranged on the sidewall of an inner cavity of each probe support. The intelligent wireless ultrasonic detection system is capable of achieving automatic and quick switching among the different probes, so that medical detection efficiency is improved; meanwhile, cable twisting is avoided, and service time of equipment is prolonged.

Description

Intelligent opto-electrical induction switches the wireless ultrasound detection system of probe

Technical field

The present invention relates to medical instruments field, particularly relate to B ultrasonic checkout and diagnosis equipment.

Background technology

B ultrasonic checkout gear is the diagnostic device that medical industry is commonly used, and routine use frequency is quite high.Existing B ultrasonic checkout gear is equipped with multiple different probe usually to meet different detection needs; When needs switch probe, all to arrange on keyboard each time, complex operation, have a strong impact on the detection efficiency of doctor; The cable of multiple probe is easily intertwined simultaneously, uses inconvenience, also can damage cable and cause any property loss time serious.

Summary of the invention

The applicant switches inconvenience for existing B ultrasonic checkout gear, probe cable easily stirs bad problem, carry out Improvement, there is provided a kind of intelligent opto-electrical to respond to the wireless ultrasound detection system switching probe, realize automatically, fast switching between different probe, improve medical detection efficiency; Avoid cable winds, extension device service time simultaneously.

Technical scheme of the present invention is as follows:

Intelligent opto-electrical induction switches a wireless ultrasound detection system for probe, comprises host machine part, Ultrasonic-B probe and probe bracket, and host machine part comprises main frame and is connected to the display on described host output end,

Described Ultrasonic-B probe comprises supersonic generator and ultrasonic receiver, and supersonic generator and ultrasonic receiver are connected with the first outfan of control unit and the second outfan respectively; Described ultrasonic receiver also by signal processing unit, is connected with the first input end of wireless transmission unit; Described Ultrasonic-B probe is in-built is equipped with the photoelectric sensor be connected on described control unit input, the identification signal generating unit being connected to the second input of described wireless transmission unit and power supply module;

First outfan of plug is connected with the first input end of described main frame, and described host machine part also comprises identification signal processing unit, and identification signal processing unit is connected between the second outfan of described plug and the second input of described main frame;

B ultrasonic signal passes through radio receiving unit, through described plug, is transferred to described main frame; Identification signal by described radio receiving unit, described plug and described identification signal processing unit, is transferred to described main frame successively;

The side wall arrangement of the inner chamber of described probe bracket has reflecting mirror.

Further technical scheme of the present invention is as follows:

Described power supply module comprises battery unit, charhing unit and power conversion unit, and the outfan of described charhing unit is connected with battery unit, and the outfan of battery unit is outwards powered by power conversion unit.

Described radio receiving unit can connect multiple described Ultrasonic-B probe simultaneously.

Beneficial effect of the present invention is:

1, when described Ultrasonic-B probe is positioned in probe bracket, the photosignal that reflecting mirror meeting retroreflective photoelectric sensor sends; When doctor takes out Ultrasonic-B probe, photoelectric sensor in Ultrasonic-B probe cannot receive the signal be reflected back, thus signal can be sent to control unit, to be automatically switched described Ultrasonic-B probe by described control unit again, eliminate the selection operation of doctor on keyboard, time saving and energy saving, the efficiency that medical treatment detects can be improved;

2, in described Ultrasonic-B probe, device has identification signal generating unit, makes main frame automatically can identify the probe that doctor picks up, and reduces the operation of doctor, alleviates working doctor burden, ensures that medical examination is accurately carried out simultaneously, avoids accountability malpractice to occur.

3, the present invention adopts wireless transmission method, effectively can avoid the property loss occurred because of cable winds, extension device service life, reduces the long-term investment of medical institutions.

Accompanying drawing explanation

Fig. 1 is functional schematic block diagram of the present invention.

Fig. 2 is catenation principle block diagram of the present invention.

Fig. 3 is the three-dimensional view of the specific embodiment of the invention.

Fig. 4 is the axonometric charts of apparatus of the present invention in probe bracket.

Fig. 5 is the front sectional view of probe bracket.

Detailed description of the invention

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

As shown in Figure 1, the present invention includes host machine part 13, Ultrasonic-B probe 15 and probe bracket 16, the display 11 that host machine part 13 comprises main frame 12 and is connected on main frame 12 outfan;

Ultrasonic-B probe 15 comprises supersonic generator 4 and ultrasonic receiver 5, and supersonic generator 4 and ultrasonic receiver 5 are connected with the first outfan of control unit 2 and the second outfan respectively; Ultrasonic receiver 5 also by signal processing unit 6, is connected with the first input end of wireless transmission unit 7; Ultrasonic-B probe 15 is in-built is equipped with the photoelectric sensor 1 be connected on control unit 2 input, the identification signal generating unit 14 being connected to the second input of wireless transmission unit 7 and power supply module 3;

First outfan of plug 9 is connected with the first input end of main frame 12, and host machine part 13 also comprises identification signal processing unit 10, and identification signal processing unit 10 is connected between the second outfan of plug 9 and the second input of main frame 12;

B ultrasonic signal is by being installed on radio receiving unit 8 on plug 9, through plug 9, being transferred to main frame 12; Identification signal by radio receiving unit 8, plug 9 and identification signal processing unit 10, is transferred to main frame 12 successively; Main frame 12, according to the identification signal processed through identification signal processing unit 10, shows on the signal switching of the Ultrasonic-B probe 15 of correspondence to display screen 11;

As one embodiment of the present of invention, power supply module 3 comprises battery unit, charhing unit and power conversion unit, and the outfan of described charhing unit is connected with battery unit, and the outfan of battery unit is outwards powered by power conversion unit.

As shown in Fig. 1 to Fig. 3, the afterbody of the first Ultrasonic-B probe 15-1, the second Ultrasonic-B probe 15-2, the 3rd Ultrasonic-B probe 15-3 and the 4th Ultrasonic-B probe 15-4 respectively device has wireless transmission unit 7, and radio receiving unit 8 can connect described four Ultrasonic-B probes simultaneously.

As shown in Figure 4, Figure 5, on the sidewall of inner chamber 18, device has reflecting mirror 17; When Ultrasonic-B probe 15 is positioned in probe bracket 16, the light that reflecting mirror 17 is sent by retroreflective photoelectric sensor 1 and make photoelectric sensor 1 produce photosignal; When doctor takes out Ultrasonic-B probe 15, the photoelectric sensor 1 in Ultrasonic-B probe 15 cannot receive the signal be reflected back, and thus can send signal to control unit 2, then to be automatically switched Ultrasonic-B probe 15 by control unit 2.

The present invention can realize automatically, fast switching between different probe, improves medical detection efficiency; Avoid cable winds, extension device service time simultaneously.

Claims (3)

1. an intelligent opto-electrical induction switches the wireless ultrasound detection system of popping one's head in, comprise host machine part (13), Ultrasonic-B probe (15) and probe bracket (16), host machine part (13) comprises main frame (12) and is connected to the display (11) on host output end, it is characterized in that:

Ultrasonic-B probe (15) comprises supersonic generator (4) and ultrasonic receiver (5), and supersonic generator (4) and ultrasonic receiver (5) are connected with the first outfan of control unit (2) and the second outfan respectively; Ultrasonic receiver (5) also by signal processing unit (6), is connected with the first input end of wireless transmission unit (7); Ultrasonic-B probe (15) is in-built is equipped with the photoelectric sensor (1) be connected on control unit (2) input, the identification signal generating unit (14) being connected to the second input of wireless transmission unit (7) and power supply module (3);

First outfan of plug (9) is connected with the first input end of main frame (12), host machine part also comprises identification signal processing unit (10), and identification signal processing unit (10) is connected between the second outfan of plug (9) and the second input of main frame (12);

B ultrasonic signal passes through radio receiving unit (8), through plug (9), is transferred to main frame (12); Identification signal by radio receiving unit (8), plug (9) and identification signal processing unit (10), is transferred to main frame (12) successively;

The side wall arrangement of the inner chamber (18) of probe bracket (16) has reflecting mirror (17).

2. intelligent opto-electrical induction switches the wireless ultrasound detection system of probe as claimed in claim 1, it is characterized in that: power supply module (3) comprises battery unit, charhing unit and power conversion unit, the outfan of described charhing unit is connected with battery unit, and the outfan of battery unit is outwards powered by power conversion unit.

3. intelligent opto-electrical induction switches the wireless ultrasound detection system of probe as claimed in claim 1, it is characterized in that: radio receiving unit (8) can connect multiple Ultrasonic-B probe (15) simultaneously.