CN105011967A - Accurate positioner suitable for high-frequency ultrasonic probe - Google Patents

Abstract

The invention discloses a precise locator suitable for high-frequency ultrasonic probes, which is simple in structure, easy to use, and can quickly locate lesions; in order to solve the above technical problems, the technical solution adopted in the present invention is: suitable for high-frequency ultrasonic probes An accurate locator, including an ultrasonic high-frequency probe loading frame, a fixed frame, a positioning frame, a rotating shaft, a lateral positioning groove, and a longitudinal positioning groove. The ultrasonic high-frequency probe loading frame is a closed frame structure for inserting high-frequency An ultrasonic probe, the two sides of the loading frame of the ultrasonic high-frequency probe are respectively provided with a fixed frame and a positioning frame, and the fixed frame and the positioning frame are hinged on the loading frame of the ultrasonic high-frequency probe through a rotating shaft. A horizontal positioning groove and a vertical positioning groove are provided, and the horizontal positioning groove and the longitudinal positioning groove are vertically arranged in the positioning frame for marking the center of the lesion; the present invention can be widely used in the field of ultrasonic examination.

Description

Precise positioner for high frequency ultrasound probes

technical field

The invention is suitable for a precise locator used by a high-frequency ultrasonic probe, and belongs to the technical field of ultrasonic inspection.

Background technique

Ultrasonic examination equipment, as an important equipment in modern medicine, is widely used in various hospitals as one of the three routine examinations for patients, especially for breast, thyroid and other small organs with small tumors. Considering the beauty of the breast and neck skin, the surgical incision As small as possible, accurate positioning of the body surface is required before surgery, but there is no fast and accurate positioning tool at present

Contents of the invention

The invention overcomes the shortcomings of the prior art, and provides a precise locator suitable for high-frequency ultrasonic probes, which is simple in structure, easy to use, and capable of quickly locating lesions.

In order to solve the above-mentioned technical problems, the technical solution adopted by the present invention is: an accurate locator suitable for high-frequency ultrasonic probes, including a loading frame for high-frequency ultrasonic probes, a fixed frame, a positioning frame, a rotating shaft, a lateral positioning groove and a longitudinal positioning groove , the loading frame of the ultrasonic high-frequency probe is a closed frame-shaped structure for inserting a high-frequency ultrasonic probe, the two sides of the loading frame of the ultrasonic high-frequency probe are respectively provided with a fixed frame and a positioning frame, and the fixed frame and the positioning frame The positioning frames are all hinged on the loading frame of the ultrasonic high-frequency probe through the rotating shaft, and the positioning frames are respectively provided with horizontal positioning grooves and longitudinal positioning grooves, and the horizontal positioning grooves and the longitudinal positioning grooves are arranged vertically in the positioning frame. at the center of the calibrated lesion.

The horizontal positioning groove is horizontally arranged at the horizontal centerline position of the positioning frame, the longitudinal positioning groove is vertically arranged at the longitudinal centerline position of the positioning frame, and the two sides of the horizontal positioning groove or/and the longitudinal positioning groove are provided with scales, and the scale is 0 The bit line is located at the inner side of the frame of the positioning frame, and is used to mark the size of the lesion and the distance between the edge of the lesion and the inner side of the frame.

The outer shape and size of the positioning frame match the inner shape and size of the ultrasonic high-frequency probe loading frame, and the positioning frame can be matched and embedded in the ultrasonic high-frequency probe loading frame around the rotation axis.

The fixed frame is a closed frame structure, the inner shape and size of the fixed frame match the outer shape and size of the ultrasonic high-frequency probe loading frame, and the fixed frame can be matched and sleeved on the ultrasonic high-frequency probe loading frame around the rotation axis outside.

The thickness of the loading frame, the fixing frame and the positioning frame of the ultrasonic high-frequency probe are equal, so that the upper and lower sides of the loading frame, the fixing frame and the positioning frame of the ultrasonic high-frequency probe are aligned after being rotated and folded around the rotation axis.

Compared with the prior art, the present invention has the beneficial effects that: the present invention uses a high-frequency probe set on the ultrasonic high-frequency probe loading frame to perform ultrasonic detection, and the lesion is displayed in the middle of the image or the distance between the lesion and the entire image is determined. After a distance of one side (left or right), fix the ultrasonic high-frequency probe loading frame, remove the high-frequency probe, clean the couplant on the skin surface of the lesion area, and then turn the positioning frame to the ultrasonic high-frequency probe loading frame Inside, the center of the lesion is marked and the size of the lesion is calibrated. The present invention is simple in structure, practical and convenient, can quickly determine the body surface position and size of the lesion, and has strong practicability.

Description of drawings

The present invention will be further described below in conjunction with the accompanying drawings.

FIG. 1 is a schematic structural diagram of the present invention, that is, a diagram of the unfolded state of the present invention.

Fig. 2 is a state diagram of the present invention when a lesion is calibrated.

Fig. 3 is a state diagram of the present invention after being folded.

In the figure: 1 is the ultrasonic high-frequency probe loading frame, 2 is the fixed frame, 3 is the positioning frame, 4 is the rotation axis, 5 is the horizontal positioning groove, and 6 is the longitudinal positioning groove.

Detailed ways

As shown in Figures 1 to 3, the present invention is applicable to a precise locator for high-frequency ultrasonic probes, including an ultrasonic high-frequency probe loading frame 1, a fixed frame 2, a positioning frame 3, a rotating shaft 4, a lateral positioning groove 5 and a longitudinal Positioning slot 6, the ultrasonic high-frequency probe loading frame 1 is a closed frame structure for inserting high-frequency ultrasonic probes, the two sides of the ultrasonic high-frequency probe loading frame 1 are respectively provided with a fixed frame 2 and a positioning frame 3. Both the fixed frame 2 and the positioning frame 3 are hinged on the ultrasonic high-frequency probe loading frame 1 through the rotating shaft 4, and the positioning frame 3 is respectively provided with a horizontal positioning groove 5 and a longitudinal positioning groove 6, and the horizontal positioning The groove 5 and the longitudinal positioning groove 6 are vertically arranged in the positioning frame 3 for marking the center of the lesion.

The transverse positioning groove 5 is horizontally arranged at the transverse centerline position of the positioning frame 3, and the longitudinal positioning groove 6 is longitudinally arranged at the longitudinal centerline position of the positioning frame 3, and both sides of the transverse positioning groove 5 or/and the longitudinal positioning groove 6 A scale is provided, and the 0-bit line of the scale is located at the inner side of the frame of the positioning frame 3, and is used to mark the size of the lesion and the distance between the edge of the lesion and the inner side of the frame.

The outer shape and size of the positioning frame 3 matches the inner shape and size of the ultrasonic high-frequency probe loading frame 1 , and the positioning frame 3 can be matched and embedded in the ultrasonic high-frequency probe loading frame 1 around the rotation axis 4 .

The fixed frame 2 is a closed frame structure, the inner shape and size of the fixed frame 2 match the outer shape and size of the ultrasonic high-frequency probe loading frame 1, and the fixed frame 2 can be matched around the rotation axis 4 in the ultrasonic The high-frequency probe is loaded on the outside of frame 1.

The thicknesses of the ultrasonic high-frequency probe loading frame 1, fixed frame 2 and positioning frame 3 are equal, so that the ultrasonic high-frequency probe loading frame 1, fixed frame 2 and positioning frame 3 are rotated and folded around the rotation axis 4, and the upper and lower sides are flush.

Operation method of the present invention:

1. Unfold the fixed frame 2 and the positioning frame 3 from the ultrasonic high-frequency probe loading frame 1 around the rotation axis 4 in sequence, nest the high-frequency probe on the ultrasonic high-frequency probe loading frame 1, and perform ultrasonic inspection.

2. After finding the lesion that needs surgery, align the center of the high-frequency probe with the center of the lesion, press the fixed frame 2 with one hand to fix the ultrasonic high-frequency probe loading frame 1, remove the ultrasonic high-frequency probe, and clean the skin On the surface, the positioning frame 3 is folded and nested into the ultrasonic high-frequency probe loading frame 1 through the rotating shaft 4, and positioned along the horizontal positioning groove 5 and the longitudinal positioning groove 6 with a marking pen. At the same time, according to the distance between the lesion and the two sides (left or right) of the image in the ultrasonic image, the position and size of the lesion on the body surface can be accurately positioned through the scales on both sides of the horizontal positioning groove 5 and/or the longitudinal positioning groove 6 in the positioning frame 3.

The embodiments of the present invention have been described in detail above in conjunction with the accompanying drawings, but the present invention is not limited to the above embodiments. Within the scope of knowledge of those of ordinary skill in the art, various modifications can be made without departing from the gist of the present invention. kind of change.

Claims (6)

1. be applicable to the precise localizer that high frequency ultrasound probe uses, it is characterized in that: comprise ultrasonic high frequency probe and load frame (1), fixed frame (2), posting (3), rotating shaft (4), located lateral groove (5) and longitudinal register groove (6), it is the frame-shaped construction closed that described ultrasonic high frequency probe loads frame (1), for plug-in mounting high frequency ultrasound probe, the both sides that described ultrasonic high frequency probe loads frame (1) are respectively arranged with fixed frame (2) and posting (3), described fixed frame (2) and posting (3) are all hinged on ultrasonic high frequency probe by rotating shaft (4) and load on frame (1), located lateral groove (5) and longitudinal register groove (6) is respectively arranged with in described posting (3), described located lateral groove (5) and longitudinal register groove (6) are vertically set in posting (3) mutually, for demarcating lesion center.

2. the precise localizer being applicable to high frequency ultrasound probe and using according to claim 1, it is characterized in that: described located lateral groove (5) is horizontally installed in posting (3), described longitudinal register groove (6) is longitudinally arranged in posting (3), described located lateral groove (5) is or/and the both sides of longitudinal register groove (6) are provided with scale, for demarcating size of tumor.

3. the precise localizer being applicable to high frequency ultrasound probe and using according to claim 2, it is characterized in that: described located lateral groove (5) is horizontally installed on posting (3) transverse center position, described longitudinal register groove (6) is longitudinally arranged on posting (3) longitudinal center line position, 0 bit line of described scale is positioned at the scuncheon place of posting (3), for demarcating size of tumor and the focus edge distance far from scuncheon.

4. the precise localizer being applicable to high frequency ultrasound probe use according to any one of claim 1 or 2 or 3, it is characterized in that: the inner shape size that the outer shape size of described posting (3) and ultrasonic high frequency probe load frame (1) matches, described posting (3) can embed ultrasonic high frequency probe around rotating shaft (4) coupling and load in frame (1).

5. the precise localizer being applicable to high frequency ultrasound probe and using according to claim 4, it is characterized in that: described fixed frame (2) is the frame-shaped construction closed, the outer shape size that the inner shape size of described fixed frame (2) and ultrasonic high frequency probe load frame (1) matches, and described fixed frame (2) can be enclosed within ultrasonic high frequency probe around rotating shaft (4) coupling and load frame (1) outside.

6. the precise localizer being applicable to high frequency ultrasound probe and using according to claim 5, it is characterized in that: the thickness that described ultrasonic high frequency probe loads frame (1), fixed frame (2) and posting (3) is equal, make ultrasonic high frequency probe load frame (1), fixed frame (2) and posting (3) upper and lower sides after rotating shaft (4) rotary folding and flush.