CN109199455A - A kind of optional Transvaginal Ultrasound probe of scanning array - Google Patents

Abstract

The invention discloses a kind of optional Transvaginal Ultrasound probes of scanning array, including probing shell, two and two or more supersonic arrays, supersonic array selection circuit, array select button and probe connector, the head of probing shell is equipped with cambered surface mounting structure, supersonic array is set in turn on cambered surface mounting structure along the arc length direction of cambered surface mounting structure, supersonic array selection circuit is set in probe connector and its output end is electrically connected for the arc length direction successively switch operating by supersonic array according to cambered surface mounting structure with the input terminal of supersonic array, array select button is set on probing shell and its output end is electrically connected with supersonic array selection circuit for starting supersonic array selection circuit.Operation of the present invention is simple, does not need to adjust probe repeatedly, as long as manipulation scanning array select button can clearly show two sides palace angle residual condition, uterus position is very clear, greatly shortens operating time, saves operation cost.

Description

A kind of optional Transvaginal Ultrasound probe of scanning array

Technical field

The invention belongs to the field of medical instrument technology, and in particular to a kind of optional Transvaginal Ultrasound probe of scanning array.

Background technique

Female B ultrasound is a kind of endo-luminal ultrasound, is a kind of method that ultrasonic probe is directly placed into vagina and carries out ultrasonic examination. It has become gynemetrics in gynemetrics field and checks essential important means.

Traditional female B ultrasound scanning technology due to probe array element negligible amounts and scanning array fix, cause scanning scope by Limitation clinically needs the different adjustment transvaginal probe directions according to uterus position, and there are three types of types for uterus position: preceding Position, horizontal position, rear position.Probe is parallel to uterus posterior fornix and can see that the uterus of horizontal position, scanning lean forward uterus or after Incline uterus palace bottom when, the hunting range of probe head is restricted, and the lateral right side of the head that needs to pop one's head in or left direction are mobile.Uterus The left side or right side or more inclined of position are biased in position, and probe will receive the obstruction of posterior fornix wall in the amplitude that posterior fornix is swung Influence scanning scope.Probe transmitting angle of release and the hypsokinesis uterus angle that leans forward are inconsistent, and leaning forward can not be super with hypsokinesis uterus image It is shown in acoustic image.It can be more than 7.5cm in pregnant week phase uterus length, for Enlarged uteri early pregnancy patient uterine bottom scanning, image It is incomplete or even lose completely.

Traditional transvaginal probe is put into intravaginal and carries out in operating process, and sonographer needs constantly to manually adjust probe hair Position is penetrated to position target, reduces inspection and procedure efficiency, and since doctor's manual operation power is uncertain, is easily caused The discomfort of patient's check point, cause it is nervous to influence inspection result to a certain extent, for vagina have lesion or It will lead to the risk for aggravating infection there are this blindly adjustment of the patient of infection.

Summary of the invention

In order to solve the above-mentioned technical problems, the present invention provides a kind of optional Transvaginal Ultrasound probes of scanning array.

In order to achieve the above object, technical scheme is as follows:

The present invention provides a kind of scanning array optional Transvaginal Ultrasound probe, including probing shell, two and two or more Pacify equipped with cambered surface on the head of supersonic array, supersonic array selection circuit, array select button and probe connector, probing shell Assembling structure, supersonic array are set in turn on cambered surface mounting structure along the arc length direction of cambered surface mounting structure, supersonic array choosing Select circuit be set in probe connector and its output end be electrically connected with the input terminal of supersonic array for by supersonic array according to The arc length direction of cambered surface mounting structure successively switch operating, array select button is set on probing shell and its output end and super Acoustic matrix column select circuit is electrically connected for starting supersonic array selection circuit.

As a preferred option, it is 135 ° -270 ° that cambered surface mounting structure, which is located at the curved angle in its arc length direction,.

As a preferred option, supersonic array is divided into 0.1 mm between being located at each array element of cambered surface mounting structure arc wide direction -0.3mm。

As a preferred option, it is 3 mm -8mm that supersonic array, which is located at the array element width of cambered surface mounting structure arc wide direction,.

As a preferred option, the array element quantity of supersonic array is B, and B is positioned at cambered surface mounting structure arc length direction The quantity of each array element, and 80≤B≤352.

As a preferred option, probing shell includes the first support arm, second support arm and head being sequentially connected, array selection Button is set on the surface of first support arm, and the size of second support arm is less than the size of first support arm and is equipped with arc therebetween Transition part.

The invention has the following advantages: operation of the present invention is simple, do not need to adjust probe repeatedly, as long as manipulation array Select button can clearly show two sides palace angle residual condition, and uterus position is very clear, greatly shorten operating time, save hand Art cost.

Detailed description of the invention

Fig. 1 is a kind of using state structure diagram of the optional Transvaginal Ultrasound probe of scanning array of the present invention.

Fig. 2 is a kind of overall structure diagram of the optional Transvaginal Ultrasound probe of scanning array of the present invention.

Fig. 3 is a kind of structural block diagram of the optional Transvaginal Ultrasound probe of scanning array of the present invention.

Wherein, 1. probing shell, 2. supersonic arrays, 3. array select buttons, 4. probe connectors.

Specific embodiment

The preferred embodiment that the invention will now be described in detail with reference to the accompanying drawings.

In order to reach the purpose of the present invention, as shown in Figure 1 to Figure 3, provided in one of embodiment of the invention A kind of optional Transvaginal Ultrasound probe of scanning array, including 1,6 supersonic array 2 of probing shell, supersonic array selection circuit, The head of array select button 3 and probe connector 4, probing shell 1 is equipped with cambered surface mounting structure, and supersonic array 2 is along arc The arc length direction of face mounting structure is set in turn on cambered surface mounting structure, and supersonic array selection circuit is set to probe connector In 4 and its output end is electrically connected for the arc length direction by supersonic array according to cambered surface mounting structure with the input terminal of supersonic array Successively switch operating, array select button 3 is set on probing shell 1 and its output end is electrically connected with supersonic array selection circuit For starting supersonic array selection circuit.

Operation of the present invention is simple, does not need to adjust probe repeatedly, as long as manipulation array select button can clearly show two Side palace angle residual condition, uterus position is very clear, greatly shortens operating time, saves operation cost.

In order to further optimize implementation result of the invention, in another embodiment of the invention, aforementioned interior On the basis of appearance, the curved angle that above-mentioned cambered surface mounting structure is located at its arc length direction is 135 ° -270 °, and present embodiment can Select 135 °, 147 ° or 270 °.

Specifically, supersonic array is divided into 0.1mm -0.3mm between being located at each array element of cambered surface mounting structure arc wide direction, In present embodiment supersonic array be located between each array element of cambered surface mounting structure arc wide direction be divided into optional 0.1 mm, 0.134mm or 0.3mm.

Specifically, it is 3 mm -8mm, this embodiment party that supersonic array, which is located at the array element width of cambered surface mounting structure arc wide direction, Supersonic array is located at array element width optional 3 mm, 6mm or 8mm of cambered surface mounting structure arc wide direction in formula.

Specifically, the array element quantity of supersonic array is B, and B is each array element positioned at cambered surface mounting structure arc length direction Quantity and 80≤B≤352, array element quantity optional 80,192 or 352 of supersonic array in present embodiment.

Specifically, probing shell includes the first support arm, second support arm and head being sequentially connected, the setting of array select button In on the surface of first support arm, the size of second support arm is less than the size of first support arm and is equipped with curved transition sections therebetween.

What has been described above is only a preferred embodiment of the present invention, it is noted that for those of ordinary skill in the art For, without departing from the concept of the premise of the invention, various modifications and improvements can be made, these belong to the present invention Protection scope.

Claims (6)

1. a kind of optional Transvaginal Ultrasound probe of scanning array, which is characterized in that including probing shell, two and two with The head of upper supersonic array, supersonic array selection circuit, array select button and probe connector, probing shell is equipped with cambered surface Mounting structure, supersonic array are set in turn on cambered surface mounting structure along the arc length direction of cambered surface mounting structure, supersonic array Selection circuit is set in probe connector and its output end be electrically connected with the input terminal of supersonic array for by supersonic array by According to the arc length direction successively switch operating of cambered surface mounting structure, array select button be set on probing shell and its output end with Supersonic array selection circuit is electrically connected for starting supersonic array selection circuit.

2. the optional Transvaginal Ultrasound probe of scanning array according to claim 1, which is characterized in that cambered surface mounting structure Curved angle positioned at its arc length direction is 135 ° -270 °.

3. the optional Transvaginal Ultrasound probe of scanning array according to claim 1, which is characterized in that supersonic array is located at 0.1 mm -0.3mm is divided between each array element of cambered surface mounting structure arc wide direction.

4. the optional Transvaginal Ultrasound probe of scanning array according to claim 1, which is characterized in that supersonic array is located at The array element width of cambered surface mounting structure arc wide direction is 3 mm -8mm.

5. the optional Transvaginal Ultrasound probe of scanning array according to claim 1, which is characterized in that the battle array of supersonic array First quantity is B, and B is the quantity of each array element positioned at cambered surface mounting structure arc length direction, and 80≤B≤352.

6. the optional Transvaginal Ultrasound probe of scanning array according to claim 1, which is characterized in that probing shell includes First support arm, second support arm and the head being sequentially connected, array select button are set on the surface of first support arm, second support arm Size be less than first support arm size and therebetween be equipped with curved transition sections.