CN204092020U - Ultrasound probe and ultrasonic diagnostic system - Google Patents

Abstract

This utility model provide a kind of can change more simply oscillator towards ultrasound probe and ultrasonic diagnostic system, this ultrasound probe possesses: handle portion, is gripped by operator; Insertion section, is connected with this handle portion, the peripheral surface near front end at least partially on have send and receive hyperacoustic oscillator; And rotating operation portion, can be configured at rotationally near this handle portion, and have to this handle portion lateral buckling or bending multiple lobe, rotating according to the rotation in this rotating operation portion at least partially of the described oscillator of described insertion section.

Description

Ultrasound probe and ultrasonic diagnostic system

Technical field

This utility model relates to a kind of ultrasound probe and ultrasonic diagnostic system, the ultrasound probe of diagnosis when particularly relating to laparoscopic surgery and use when carrying out paracentesis and ultrasonic diagnostic system.

Background technology

In the past, in ultrasonic diagnosis, the zonule of the surface of subject is cut, from cut-away portions, a part for ultrasound probe is inserted the inside (body cavity) of subject, directly ultrasonic scanning is carried out to endoceliac internal organs.

Usually, the ultrasound probe used in the method has: the handle portion gripped by operator; And be connected with this handle portion, and a part for peripheral surface near front end has oscillator, and insert the elongated insertion portion of body cavity.In actual use, insertion portion inserts body cavity from the cut-away portions of subject, and the oscillator in insertion portion sends ultrasound wave with the state contacted with the internal organs of body cavity to oscillator and receives ultrasound wave from oscillator.Then, the signal obtained by this hyperacoustic transmission and reception is processed, generate and show the image corresponding with hyperacoustic transmission and range of receiving.

In order to make oscillator safety and accurately with in body cavity desired by position contact, this is very difficult.

In order to hyperacoustic both transmit and receive direction (oscillator towards) more freely can be changed, as an example, known to the rotating disk of rotary setting in the side of handle portion, make the structure that a part for insertion section bends.

In addition, operator, when carrying out ultrasonic diagnosis, holds ultrasound probe, while carry out the various operation such as operation and shown image confirming of diagnostic ultrasound equipment.Therefore also wish can change oscillator towards, better oscillator is contacted with the internal organs of body cavity.

Utility model content

Ultrasound probe involved by an embodiment of the present utility model, is characterized in that possessing:

Handle portion, is gripped by operator;

Insertion section, is connected with this handle portion, the peripheral surface near front end at least partially on have send and receive hyperacoustic oscillator; And

Rotating operation portion, can be configured near this handle portion rotationally, and has to this handle portion lateral buckling or bending multiple lobe, rotating according to the rotation in this rotating operation portion at least partially of the described oscillator of described insertion section.

Ultrasonic diagnostic system involved by an embodiment of the present utility model, is characterized in that possessing:

Ultrasound probe, described ultrasound probe has: handle portion, is gripped by operator; Insertion section, is connected with described handle portion, and peripheral surface near front end at least partially on have and send and receive hyperacoustic oscillator; Rotating operation portion, can be configured near described handle portion rotationally, and has to described handle portion lateral buckling or bending multiple lobe; And

Ultrasonic Treatment portion, receives and dispatches according to above-mentioned oscillator the Received signal strength obtained and makes ultrasonography,

Comprise rotating according to the rotation in described rotating operation portion at least partially of the described oscillator of described insertion section.

This utility model ultrasound probe be provided with near the handle portion gripped by operator can change oscillator towards rotating operation portion.Therefore, for ultrasound probe of the present utility model, such as, when by operator to be hold by one hand handle portion time, by carrying out the operation of the finger of the hands gripped, just can operate rotating operation portion, can realize simply thus oscillator towards change.

Accompanying drawing explanation

Fig. 1 is the perspective view with the ultrasonic diagnostic system of ultrasonic probe representing that this utility model relates to.

Fig. 2 is the perspective view of ultrasound probe in Fig. 1.

Fig. 3 is the main TV structure schematic diagram of the ultrasound probe of Fig. 2.

Fig. 4 is the left TV structure schematic diagram of the ultrasound probe of Fig. 3.

Fig. 5 is that the A-A of the ultrasound probe of Fig. 4 is to the profile eliminating internal mechanism.

Detailed description of the invention

Below, embodiment this utility model being related to ultrasound probe 1 is described in detail with reference to accompanying drawing.

Fig. 1 is the schematic diagram with the outline of the ultrasonic diagnostic system of ultrasound probe 1 representing that this utility model relates to.As shown in Figure 1, the ultrasonic diagnostic system of present embodiment possesses: ultrasonic Treatment portion 2, makes ultrasonography for transmission and reception ultrasound wave; Ultrasound probe 1, be connected with ultrasonic Treatment portion 2 by adapter 26a, 26b and cable 5, Diagnostic Ultrasonic Wave is sent to organisms such as subjects, and received on the border of bio-tissue as echo-signal by the echo reflected, and echo-signal is sent to ultrasonic treatment unit 2; Guidance panel 3; And as the monitor unit 4 of display unit.

Fig. 2 is the perspective view of ultrasound probe in Fig. 1.Fig. 3 is the main TV structure schematic diagram of the ultrasound probe of Fig. 2.Fig. 4 is the left TV structure schematic diagram of the ultrasound probe of Fig. 3.Fig. 5 is that the A-A of the ultrasound probe of Fig. 4 is to the profile eliminating internal mechanism.

As shown in Figure 2 and Figure 3, this ultrasound probe 1 has handle portion 6, insertion section 7, rotating operation portion 11 and cable connecting part 12.Insertion section 7 is connected with handle portion 6, and the peripheral surface near front end is provided with transmission and receives hyperacoustic oscillator.

Handle portion 6 is provided with and can controls the limited slip piece 13 that the bending knob (bar) 10 of bending section (deformation mechanism) 14 and convenient operation person hold handle portion 6.

Insertion section 7 has the bar-shaped probe portion 8 of the oscillator carrying out hyperacoustic transmission and reception, instruction probe portion 8 bending section 14 that can bend and keeps the base portion 9 of bending section 14.Probe portion 8 also has puncture guide groove 15 and lens 16.

As shown in Figure 5, base portion 9 is the pipe be connected with handle portion 6 along an axle.One end of pipe is arranged on handle portion 6 by rotary part is rotatable.

Rotation process portion 11 is arranged on the position of the close handle portion 6 of base portion 9, and rotation process portion 11 is provided with to handle portion 6 lateral buckling or bending multiple lobe 111.

In this utility model embodiment, listing lobe 111 is 4, as shown in Figure 4, but is not limited thereto, and such as, lobe 111 also can be 2,3 or other quantity.

In addition, the shape of lobe 111 can be taper, can convenient operation person utilize finger to control lobe 111 like this.

The position that rotation process portion 11 is arranged on the close handle portion 6 of base portion 9 be for the ease of operator dominated by hand live handle portion 6 time, rotation process portion 11 can be controlled rotate conveniently by pointing, and then base portion 9 is rotated.

When by operator to be hold by one hand handle portion 6 time, by carrying out the operation of the finger of the hands gripped, just can operate rotation process portion 11, and then control the rotation of base portion 9.This makes it possible to change simply oscillator towards, thus make oscillator safety and accurately with in body cavity desired by position contact.

In addition, arrange multiple lobe 111, even if rotation process portion 11 rotates to arbitrary turned position (angle), finger can touch any one lobe 111.Like this, the operation in the rotation process portion 11 undertaken by finger contact lobe 111 can just be realized more simply.

In addition, by lobe 111 to handle portion 6 lateral buckling or bending, the hands of lobe 111 just from operator is nearer, points like this and just more easily touches lobe 111.In addition, lobe 111 is formed as the shape of taper, so the contact area of finger and lobe 111 can be made to become large.Thereby, it is possible to realize the operation in rotation process portion 11 more simply.

Operator is when carrying out ultrasonic diagnosis operation, be hold by one hand handle portion 6, probe portion 8 is reached the internal organs position to be checked of the body cavity of subject, control bending section 14 by rotary knob 10 to bend, or stirring lobe 111 by finger rotates, make the oscillator being positioned at probe portion 8 towards can more easily be controlled by the user, thus enable operator carry out ultrasonic diagnosis to subject more freely.

In addition, control according to the rotation direction of described operating portion 11 direction bending or bend described insertion section 7 by deformation mechanism, in other words the bending direction of bending section 14 can be controlled according to the rotation direction of described operating portion 11, such as, when operating portion 11 right direction rotates, bending section 14 bends towards right direction, when operating portion 11 left direction rotates, bending section 14 bends towards left direction, make to be positioned at insertion section 7 (oscillator in probe portion 8) towards the direction that more easily can be controlled by the user insertion section 7 tip, thus enable operator carry out ultrasonic diagnosis to subject more freely.

Above, although the description of several embodiment of the present utility model, but these embodiments just propose as an example, are not intended to limit scope of the present utility model.For the embodiment that these are new, can implement in other various modes, in the scope not departing from main idea of the present utility model, various omission, displacement can be carried out and change.These embodiments and its distortion, while being contained in scope of the present utility model and main idea, be also contained in the utility model and equivalency range thereof recorded in claims.

Claims (10)

1. a ultrasound probe, is characterized in that, possesses:

Handle portion, is gripped by operator;

Insertion section, is connected with described handle portion, and peripheral surface near front end at least partially on have and send and receive hyperacoustic oscillator; And

Rotating operation portion, can be configured near described handle portion rotationally, and has to described handle portion lateral buckling or bending multiple lobe,

Comprise rotating according to the rotation in described rotating operation portion at least partially of the described oscillator of described insertion section.

2. ultrasound probe according to claim 1, is characterized in that, at least one lobe in described multiple lobe has the shape different from the lobe beyond at least one lobe described.

3. ultrasound probe according to claim 1, is characterized in that, described multiple lobe has the part of taper respectively.

4. ultrasound probe according to claim 1, is characterized in that, described multiple lobe is four.

5. ultrasound probe according to claim 1, is characterized in that, possesses:

Deformation mechanism, controls the direction of bending or bending described insertion section according to the rotation direction of described operating portion.

6. ultrasound probe according to claim 1, is characterized in that, possesses:

Bar, is arranged on described handle portion, can by towards changing into different both directions; And

Deformation mechanism, according to described bar towards change, make that at least one of the described insertion section between described oscillator and described handle portion is local bend or bend.

7. ultrasound probe according to claim 1, is characterized in that,

A part for described insertion section is connected along an axle with described handle portion,

Described rotating operation portion be placed in described insertion section around the part of described axle, and to rotate along the peripheral direction of described axle.

8. ultrasound probe according to claim 7, is characterized in that, described multiple lobe arranges along the peripheral direction of described axle.

9. ultrasound probe according to claim 7, is characterized in that, described insertion section is in the tubulose along described axle.

10. a ultrasonic diagnosis assembling system, is characterized in that, possesses:

Ultrasound probe, described ultrasound probe has: handle portion, is gripped by operator; Insertion section, is connected with described handle portion, and peripheral surface near front end at least partially on have and send and receive hyperacoustic oscillator; Rotating operation portion, can be configured near described handle portion rotationally, and has to described handle portion lateral buckling or bending multiple lobe; And

Ultrasonic Treatment portion, receives and dispatches according to above-mentioned oscillator the Received signal strength obtained and makes ultrasonography,

Comprise rotating according to the rotation in described rotating operation portion at least partially of the described oscillator of described insertion section.