CN203458404U - Wireless photoelectric induction and automatic dormancy type B ultrasonic detection system - Google Patents

Abstract

The utility model discloses a wireless photoelectric induction and automatic dormancy type B ultrasonic detection system which comprises a probe, a host machine and a probe support, wherein a photoelectric sensor is mounted on the probe and connected to an input end of a control unit; a first output end and a second output end of the control unit are connected with a power supply module and a wireless output unit respectively; an input end and an output end of the host machine are connected with a wireless receiving unit and a display respectively; a signal of the probe is transmitted to the wireless receiving unit through the wireless transmission unit; and reflecting mirrors are mounted on the inner walls of the probe support. According to the wireless photoelectric induction and automatic dormancy type B ultrasonic detection system, the probe can be switched into a dormant state automatically when not used, energy conservation and environment protection are realized, power consumption is reduced, the battery service time of the probe is prolonged, loss of an electronic device is reduced simultaneously, and the service life of the probe is prolonged.

Description

B ultrasonic detection system that photoelectric induction type auto sleep type is wireless

Technical field

This utility model relates to medical instruments field, relates in particular to B ultrasonic and detects diagnostic device.

Background technology

B ultrasonic detection system is the conventional diagnostic device of medical industry, and routine use frequency is quite high.Probe is the critical component of B ultrasonic detection system.At present, the probe of B ultrasonic detection system is generally connected on main frame by cable, the length restriction of cable the detection range of probe, and cable easily damages, it changes inconvenient; And probe in use needs repeatedly to open, and the precise parts such as inner wafer of popping one's head in can the quick aging owing to repeatedly contacting conducting and disconnection, and then affects its service life, if probe is kept to opening always, its power consumption is larger.

Utility model content

The applicant is large for the probe power consumption of existing B ultrasonic detection system, the serious problem of energising loss, carry out Improvement, provide a kind of photoelectric induction type auto sleep type wireless B ultrasonic detection system, thereby make the not probe in using state automatically enter resting state, energy-conserving and environment-protective, minimizing power consumption, the service time of battery that increases probe alleviates electronic device loss simultaneously, extends the service life of probe.

The technical solution of the utility model is as follows:

A B ultrasonic detection system that photoelectric induction type auto sleep type is wireless, comprises probe, main frame and probe bracket; On probe, device has photoelectric sensor, and described photoelectric sensor is connected to the input of control unit, and the first outfan of described control unit is connected with wireless output unit with power supply module respectively with the second outfan; The input of described main frame is connected with display with radio receiving unit respectively with outfan; The signal of described probe sends to radio receiving unit by wireless transmission unit; The inner wall device of described probe bracket has reflecting mirror.

Its further technical scheme is: the inwall symmetrical mounting of described probe bracket has reflecting mirror.

The beneficial effects of the utility model are as follows:

This utility model arranges photoelectric sensor on probe, described probe is put back to after probe bracket, photoelectric sensor can receive the optical signal that self sends, reflects through described reflecting mirror, and by this signal feedback to control unit, control unit sends to main frame by signal by wireless transmission unit and radio receiving unit, and shows on display; Control unit makes probe enter resting state simultaneously, thereby realizes the function of energy-conserving and environment-protective, minimizing power consumption, increases the service time of battery of probe, alleviates electronic device loss simultaneously, extends the service life of probe.

Accompanying drawing explanation

Fig. 1 is functional schematic block diagram of the present utility model.

Fig. 2 is the axonometric chart of this utility model specific embodiment.

Fig. 3 is the axonometric chart of probe.

Fig. 4 is the cutaway view of probe bracket of the present utility model.

The specific embodiment

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

As shown in Figures 1 to 4, this utility model comprises probe 2, main frame 8 and probe bracket 9; On probe 2, device has photoelectric sensor 1, and photoelectric sensor 1 is connected to the input of control unit 3, and the first outfan of control unit 3 is connected with wireless output unit 5 with power supply module 4 respectively with the second outfan; The input of main frame 8 is connected with display 7 with radio receiving unit 6 respectively with outfan; The signal of probe 2 is delivered to radio receiving unit 6 by wireless transmission unit 5; The inwall symmetrical mounting of probe bracket 9 is useful on the reflection of light mirror 10 that photoelectric sensor 1 sends.

During this utility model work, probe 2 is put back to after probe bracket 9, the optical signal that photoelectric sensor 1 can receive and self send, reflect through described reflecting mirror 10, and by this signal feedback to control unit 3, control unit 3 sends to main frame 8 by signal by wireless transmission unit 5 and radio receiving unit 6, and shows on display 7; Control unit 3 makes wireless type B probe 2 enter resting state simultaneously, thereby realizes the function of energy-conserving and environment-protective, minimizing power consumption, increases the service time of battery of probe 2, alleviates electronic device loss simultaneously, extends the service life of probe.

More than describing is to explanation of the present utility model, is not to restriction of the present utility model, and this utility model limited range is referring to claim.Without prejudice to this utility model basic structure in the situation that, this utility model can be done any type of modification.

Claims (2)

1. the wireless B ultrasonic detection system of photoelectric induction type auto sleep type, comprise probe (2), main frame (8) and probe bracket (9), it is characterized in that: the upper device of probe (2) has photoelectric sensor (1), photoelectric sensor (1) is connected to the input of control unit (3), and the first outfan of control unit (3) is connected with wireless output unit (5) with power supply module (4) respectively with the second outfan; The input of main frame (8) is connected with display (7) with radio receiving unit (6) respectively with outfan; The signal of probe (2) is delivered to radio receiving unit (6) by wireless transmission unit (5); The inner wall device of probe bracket (9) has reflecting mirror (10).

2. the wireless B ultrasonic detection system of photoelectric induction type auto sleep type as claimed in claim 1, is characterized in that: the inwall symmetrical mounting of probe bracket (9) has reflecting mirror (10).

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