CN202015188U

CN202015188U - Ultrasonic hysteroscope probe

Info

Publication number: CN202015188U
Application number: CN2011200620237U
Authority: CN
Inventors: 周正帮; 沈忠
Original assignee: SUZHOU ZHONGJIA MEDICAL TECHNOLOGY Co Ltd
Current assignee: SUZHOU ZHONGJIA MEDICAL TECHNOLOGY Co Ltd
Priority date: 2011-03-10
Filing date: 2011-03-10
Publication date: 2011-10-26
Anticipated expiration: 2021-03-10

Abstract

The utility model relates to an ultrasonic hysteroscope probe, which comprises a probe head end, a cold light source, a suction tube, an image acquisition device, an ultrasonic probe and a probe hose. The ultrasonic hysteroscope probe is characterized in that the cold light source, the suction tube, the image acquisition device and the ultrasonic probe are distributed at the probe head end, the probe head end is connected with the probe hose, and the suction tube, the image acquisition device and the ultrasonic probe are externally connected through the probe hose; the ultrasonic probe is an ultrahigh-frequency single-chip probe with a silica gel water sac; the outer diameter of the probe hose is 6mm and the probe hose can be bent for 180 degrees; the image acquisition device is a super charge coupled device (CCD) image sensor; and the suction tube is a negative-pressure suction tube with diameter being 2mm. The ultrasonic hysteroscope probe has the advantages that the internal structure of a uterine cavity can be observed in real time, interference caused by bleeding in an invasive surgery can be eliminated and all kinds of uterine cavity diagnosis and treatment surgeries can be guided.

Description

A kind of ultrasonic hysteroscope probe

Technical field

This utility model relates to a kind of ultrasonic medical equipment, specifically is a kind of ultrasonic hysteroscope probe.

Background technology

Hysteroscope is new, an invasive gynecological diagnosis and treatment technology, is used for checking in the cavity of uterus and a kind of fiber light source endoscope of treatment, comprises hysteroscope, energy resource system, light-source system, perfusion system and imaging system.It is to utilize the front portion of mirror body to enter uterine cavity, and observed position is had enlarge-effect, intuitively, accurately to become the gynecology hemorrhagic disease and the first-selected inspection method of pathological changes in utero

Ultrasonic diagnosis is the good directivity and the physical characteristics such as reflection, scattering, decay and Doppler effect similar to light of main using ultrasound then, utilize its different physical parameter, use dissimilar diagnostic ultrasonic equipments, adopt various checking methods, with ultrasound emission in human body, and in tissue, propagate, when the acoustic impedance of normal structure or pathological tissue has certain difference, reflection and scattering will take place in the interface that they are formed, again this echo signal is received, after in addition detection etc. is handled, be shown as waveform, curve or image etc.

In actual applications, when carrying out intrauterine surgical, traditional hysteroscope generally adopts CCD observe to instruct, but often be accompanied by in the operation hemorrhage, thereby the image acquisition of CCD is interfered, have influence on the observation in the art, be unfavorable for carrying out visual operation.

Summary of the invention

This utility model provides situation in a kind of uterine cavity of Real Time Observation easily just in order to solve the problems of the technologies described above, and under the intraoperative hemorrhage situation, the ultrasonic hysteroscope that the uterine cavity environment is monitored is in real time popped one's head in.

This utility model is achieved through the following technical solutions:

A kind of ultrasonic hysteroscope probe, comprise probe head end, cold light source, suction catheter, image acquisition device, ultrasonic probe, probe flexible pipe, it is characterized in that cold light source, suction catheter, image acquisition device, ultrasonic probe are dispersed on the probe head end, the probe head end is hose connection with probe, and it is external that suction catheter, image acquisition device, ultrasonic probe pass through the probe flexible pipe.Ultrasonic probe adopts the hyperfrequency Single crystal probe of band silica gel water pocket.The probe hose outside diameter is 6mm, can be 180 ° of bendings.Image acquisition device adopts super ccd image sensor.It is the vacuum suction pipe of 2mm that suction catheter adopts caliber.

Description of drawings

In the accompanying drawing, Fig. 1 is a structural representation of the present utility model, and Fig. 2 is this utility model probe head end front surface sketch map, wherein:

The 1-head end of popping one's head in, 2-cold light source, 3-suction catheter, 4-image acquisition device, 5-ultrasonic probe, the 6-flexible pipe of popping one's head in.

The specific embodiment

Below in conjunction with accompanying drawing this utility model is described further:

A kind of ultrasonic hysteroscope probe, comprise probe head end 1, cold light source 2, suction catheter 3, image acquisition device 4, ultrasonic probe 5, probe flexible pipe 6, it is characterized in that cold light source 2, suction catheter 3, image acquisition device 4, ultrasonic probe 5 are dispersed on the probe head end 1, probe head end 1 is connected with probe flexible pipe 6, and suction catheter 3, image acquisition device 4, ultrasonic probe 5 flexible pipe 6 that passes through to pop one's head in is external.Ultrasonic probe 5 adopts the hyperfrequency Single crystal probe of band silica gel water pocket.Probe flexible pipe 6 external diameters are 6mm, can be 180 ° of bendings.Image acquisition device 4 adopts super ccd image sensor.It is the vacuum suction pipe of 2mm that suction catheter 3 adopts caliber.During use, the ultrasonic hysteroscope probe is connected with main frame by probe flexible pipe 6, probe head end 1 is put into the diagnosis and treatment district, observe guidance by image acquisition device 4 and carry out the uterine cavity diagnosis and treatment, when undergoing surgery, and when producing hemorrhage situation, just can observe to instruct undergoing surgery by the ultrasonic figure that ultrasonic probe 5 transmits.

The intrauterine structure of this utility model energy Real Time Observation is got rid of hemorrhage interference in invasive procedures is arranged, instruct and carry out various uterine cavity diagnosis and treatment operations.

Claims

1. a ultrasonic hysteroscope is popped one's head in, comprise probe head end, cold light source, suction catheter, image acquisition device, ultrasonic probe, probe flexible pipe, it is characterized in that cold light source, suction catheter, image acquisition device, ultrasonic probe are dispersed on the probe head end, the probe head end is hose connection with probe, and it is external that suction catheter, image acquisition device, ultrasonic probe pass through the probe flexible pipe.

2. according to the described a kind of ultrasonic hysteroscope probe of claim 1, it is characterized in that described ultrasonic probe adopts the hyperfrequency Single crystal probe of band silica gel water pocket.

3. according to the described a kind of ultrasonic hysteroscope probe of claim 1, it is characterized in that described probe hose outside diameter is 6mm, can be 180 ° of bendings.

4. according to the described a kind of ultrasonic hysteroscope probe of claim 1, it is characterized in that described image acquisition device adopts super ccd image sensor.

5. according to the described a kind of ultrasonic hysteroscope probe of claim 1, it is characterized in that it is the vacuum suction pipe of 2mm that described suction catheter adopts caliber.