CN112057108A - High-frequency ultrasonic diagnostic apparatus - Google Patents

Abstract

The invention relates to the technical field of ultrasonic diagnostic instruments and discloses a high-frequency ultrasonic diagnostic instrument which comprises an instrument body and a high-frequency convex array probe, wherein a control panel is arranged in the instrument body, and the high-frequency convex array probe is electrically connected with the control panel; the rear part of the machine body is provided with a hand-holding section for a user to hold, the middle part of the machine body is protruded outwards to form a step ring body positioned at the front end part of the hand-holding section, the step ring body is arranged around the periphery of the machine body, the front part of the machine body is provided with a butting section, the rear end of the butting section is butted with the step ring body, and the high-frequency convex array probe is arranged at the front end of the butting section; when the high-frequency ultrasonic diagnostic apparatus provided by the invention needs to be used, a user directly holds the hand-holding section, the hand is abutted against the step ring body, and the high-frequency convex array probe on the abutting section is abutted against the part to be ultrasonically scanned, so that the high-frequency ultrasonic diagnostic apparatus can be ultrasonically scanned, the user can conveniently hold the high-frequency convex array probe by hand for operation, and the problems of unstable hand holding and the like are avoided in the ultrasonic scanning process.

Description

High-frequency ultrasonic diagnostic apparatus

Technical Field

The invention relates to the technical field of ultrasonic scanning, in particular to a high-frequency ultrasonic diagnostic apparatus.

Background

Ultrasonic scanning is to scan a human body by using ultrasonic waves, and then internal images of the scanned human body are formed on a display screen, so that a doctor can conveniently watch the internal images of the human body.

At present, there are many portable ultrasonic diagnostic apparatuses in the market, which include an apparatus body, a probe is arranged on the apparatus body, and a user can scan and image the inside of a human body by holding the apparatus body by hand and pressing the probe against the human body.

In the prior art, a user holds the machine body by hand, and pushes the probe against a part to be ultrasonically scanned, so that ultrasonic scanning is realized, and in the process, the machine body needs to be moved, so that the probe is moved on the part to be ultrasonically scanned, but the defects that the user cannot conveniently hold the machine body by hand and cannot stably hold the machine body by hand exist.

Disclosure of Invention

The invention aims to provide a high-frequency ultrasonic diagnostic apparatus, and aims to solve the problems that the ultrasonic diagnostic apparatus is inconvenient to operate and unstable to hold in the prior art.

The high-frequency ultrasonic diagnostic apparatus comprises an apparatus body and a high-frequency convex array probe, wherein a control panel is arranged in the apparatus body, and the high-frequency convex array probe is electrically connected with the control panel; the rear portion of the machine body is provided with a hand-holding section for a user to hold, the middle portion of the machine body protrudes outwards to form a step ring body located at the front end portion of the hand-holding section, the step ring body is arranged around the periphery of the machine body, the front portion of the machine body is provided with a butt-joint section, the rear end of the butt-joint section is butted with the step ring body, and the high-frequency convex array probe is arranged at the front end of the butt-joint section.

Further, along the direction from back to front of the machine body, the outer diameter of the abutting section is gradually reduced.

Further, the step ring body is provided with a rear ring surface facing the hand holding section, and the rear ring surface is arranged around the periphery of the machine body; along the extending direction from the handheld section to the step ring body, the rear ring surface is obliquely arranged forwards.

Furthermore, a groove for embedding a thumb of a user is formed in the rear annular surface, the front end of the groove penetrates through the front edge of the rear annular surface to form a front end opening, and the rear end of the groove extends to the handheld section to form a rear end region located on the handheld section.

Furthermore, a rolling control key is arranged at the rear end region of the groove and electrically connected with the control panel, and the high-frequency convex array probe is controlled to work by operating the rolling of the rolling control key.

Further, be provided with the depressed area that supplies the finger embedding on the handheld section, the depressed area with the recess sets up separately.

Furthermore, a pressure switch is convexly arranged in the concave area and is connected between the rolling control key and the control panel; when the pressure exerted on the pressure switch exceeds a set value, the control panel is in conduction connection with the rolling control key, and when the pressure exerted on the pressure switch is lower than the set value, the control panel is disconnected with the rolling control key.

Furthermore, a silica gel layer covers the concave area, and the pressure switch is embedded in the silica gel layer.

Furthermore, a plurality of parallel arranged strip grooves for fingers to be embedded are arranged on the silica gel layer, a spacing strip is arranged between the adjacent strip grooves, the spacing strip separates the adjacent strip grooves, and the pressure switch is arranged in the strip grooves.

Furthermore, the spacing bar is provided with an outer side wall facing the bar groove, a bar-shaped protrusion is convexly arranged on the outer side wall of the spacing bar, and the bar-shaped protrusion extends along the length direction of the bar groove and is arranged in parallel with the pressure switch.

Compared with the prior art, when the high-frequency ultrasonic diagnostic apparatus needs to be used, a user directly holds the hand-holding section, the hand is abutted to the step ring body, the high-frequency convex array probe on the abutting section is abutted to the part to be ultrasonically scanned, ultrasonic scanning can be performed, the user can conveniently hold the high-frequency convex array probe, and the problems that the hand is not stably held and the like are solved in the ultrasonic scanning process.

Drawings

Fig. 1 is a schematic front view of a high-frequency ultrasonic diagnostic apparatus according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The following describes the implementation of the present invention in detail with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only used for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1, a preferred embodiment of the present invention is shown.

The high-frequency ultrasonic diagnostic apparatus provided by the embodiment is suitable for ultrasonic scanning of skin or superficial tissues close to the skin, such as skin surface, bones, skin blood vessels and the like.

The high-frequency ultrasonic diagnostic apparatus comprises an organism and a high-frequency convex array probe 400, wherein the high-frequency convex array probe 400 is specially used for ultrasonic scanning of superficial body surfaces and bones. The inside control panel that is provided with of organism, the control panel is as the control center of whole high frequency ultrasonic diagnostic apparatus, high frequency convex array probe 400 and control panel electric connection.

The rear portion of the machine body forms a hand-holding section 100 for a user to hold, the middle portion of the machine body protrudes outwards to form a step ring body 200 positioned at the front end portion of the hand-holding section 100, the step ring body 200 is arranged around the periphery of the machine body, when the user uses the high-frequency ultrasonic diagnostic apparatus, the user directly holds the hand-holding section 100, and the hand abuts against the step ring. The front part of the body forms an abutting section 300, the rear end of the abutting section 300 abuts against the step ring body 200, and the high-frequency convex array probe 400 is arranged at the front end of the abutting section 300.

Above-mentioned high frequency ultrasonic diagnostic apparatus who provides, when needs use high frequency ultrasonic diagnostic apparatus, the user is directly holding and is holding section 100, and the hand butt is holding step ring body 200, with the high frequency convex array probe 400 butt on the butt section 300 treating the ultrasonic scanning position, then can ultrasonic scanning work, the user of being convenient for holds the operation, at ultrasonic scanning in-process, avoids appearing holding the scheduling problem unstably.

The outer diameter of the abutting section 300 is gradually reduced along the direction from the back to the front of the body, so that when the high-frequency convex array probe 400 abuts against the part to be ultrasonically scanned, the high-frequency ultrasonic diagnostic apparatus can move conveniently, and the part to be ultrasonically scanned of the high-frequency convex array probe 400 can be pushed to move conveniently.

The stepped ring body 200 has a rear ring surface facing the hand grip section 100, the rear ring surface being disposed around the outer circumference of the body; along the extending direction from the handheld section to the stepped ring body 200, the rear ring surface is obliquely arranged forward. This facilitates the user's hand to abut the posterior annulus when holding the grip 100.

The rear ring surface is provided with a groove 201 for embedding a thumb of a user, the front end of the groove 201 penetrates through the front edge of the rear ring surface to form a front end opening, and the rear end of the groove 201 extends to the handheld section to form a rear end region located on the handheld section. When a user holds the hand-held section 100, a thumb can be inserted into the groove 201, so that the thumb can be placed conveniently, and when the high-frequency convex array probe 400 needs to be pushed to move, the hand of the user can exert force conveniently.

The rear end region of the groove 201 is provided with a rolling control key 500, the rolling control key 500 is electrically connected with the control panel, and the high-frequency convex array probe 400 is controlled to work by operating the rolling of the rolling control key 500. Thus, when the high-frequency ultrasonic diagnostic apparatus is in a working state, the thumb of the user is placed in the groove 201, so that the scroll of the scroll control key 500 can be conveniently operated by the thumb, and further the working state of the high-frequency convex array probe 400 can be controlled, such as amplification or reduction, and the like, and the scroll control key 500 is arranged in the rear end region of the groove 201, so that when the scroll control key 500 does not need to be operated, the user is prevented from performing misoperation on the scroll control key 500 in the process of moving the high-frequency ultrasonic diagnostic apparatus.

Be provided with the depressed area that supplies the finger embedding on the handheld section, the depressed area sets up with recess 201 is carried on the back. Thus, the recess 201 is disposed away from the recessed area to facilitate gripping of the grip section 100 by the user's entire hand.

A pressure switch is convexly arranged in the concave area and is connected between the rolling control key 500 and the control panel; the control board is electrically connected to the scroll control key 500 when the pressure applied to the pressure switch exceeds a set value, and is electrically disconnected from the scroll control key 500 when the pressure applied to the pressure switch is lower than the set value.

Thus, the start of the scroll control key 500 can be controlled, the misoperation of the scroll control key 500 by the thumb is avoided, and the user controls the conduction between the scroll control key 500 and the control panel by the pressure operation of holding the hand-holding section 100, so that the operation is convenient.

Sunken area coats and is stamped the silica gel layer, and pressure switch imbeds in the silica gel layer, like this, through holding the silica gel layer, extrudees the deformation on silica gel layer, and then realizes exerting pressure to pressure switch's extrusion deformation, avoids directly hard to hard the operation, increases the comfort level of operation.

The silicon gel layer is provided with a plurality of strip grooves 101 which are arranged in parallel and are used for fingers to be embedded in, a spacing strip 102 is arranged between every two adjacent strip grooves 101, the adjacent strip grooves 101 are separated by the spacing strip 102, and the pressure switch is arranged in the strip grooves 101. In this way, the problem that the user needs to press the spacer bar 102 by the adjacent fingers to press the pressure switch by the erroneous pressing operation of the pressure switch when the user holds the hand-holding section 100 can be further avoided.

The spacing bar 102 is provided with an outer side wall facing the bar groove 101, a bar-shaped protrusion is convexly arranged on the outer side wall of the spacing bar 102, and the bar-shaped protrusion extends along the length direction of the bar groove 101 and is arranged in parallel with the pressure switch. Like this, through setting up the bar arch, be convenient for user's hand perception to exert the position etc. of adding pressure.

In this embodiment, the control board is provided with a communication element and a processor, so that the scanning data can be directly processed in the processor and then wirelessly transmitted to an external display terminal through the communication element for display; or, the data line can be connected to the body, the data line is connected to an external processor, and the scanning data is directly transmitted to the external processor for processing and displaying.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The high-frequency ultrasonic diagnostic apparatus is characterized by comprising an apparatus body and a high-frequency convex array probe, wherein a control panel is arranged in the apparatus body, and the high-frequency convex array probe is electrically connected with the control panel; the rear portion of the machine body is provided with a hand-holding section for a user to hold, the middle portion of the machine body protrudes outwards to form a step ring body located at the front end portion of the hand-holding section, the step ring body is arranged around the periphery of the machine body, the front portion of the machine body is provided with a butt-joint section, the rear end of the butt-joint section is butted with the step ring body, and the high-frequency convex array probe is arranged at the front end of the butt-joint section.

2. The apparatus according to claim 1, wherein the outer diameter of the abutting section is gradually reduced in a direction from the rear to the front of the body.

3. The high frequency ultrasonic diagnostic apparatus according to claim 1 or 2, wherein the stepped ring has a rear ring surface facing the hand grip section, the rear ring surface being disposed around an outer circumference of the body; along the extending direction from the handheld section to the step ring body, the rear ring surface is obliquely arranged forwards.

4. The apparatus according to claim 3, wherein the rear ring surface is provided with a groove for a thumb of a user to insert into, a front end of the groove penetrates through a front edge of the rear ring surface to form a front end opening, and a rear end of the groove extends to the handheld section to form a rear end region on the handheld section.

5. The high-frequency ultrasonic diagnostic apparatus according to claim 4, wherein a rolling control key is provided in a rear end region of the groove, the rolling control key is electrically connected to a control board, and the operation of the high-frequency convex array probe is controlled by operating the rolling of the rolling control key.

6. The apparatus according to claim 5, wherein the hand-held section has a recessed area for fingers to be inserted therein, and the recessed area is located away from the groove.

7. The high-frequency ultrasonic diagnostic apparatus according to claim 6, wherein a pressure switch is convexly provided in the recessed area, and the pressure switch is connected between the scroll control key and a control board; when the pressure exerted on the pressure switch exceeds a set value, the control panel is in conduction connection with the rolling control key, and when the pressure exerted on the pressure switch is lower than the set value, the control panel is disconnected with the rolling control key.

8. The high-frequency ultrasonic diagnostic apparatus according to claim 7, wherein the recessed region is covered with a silicone layer, and the pressure switch is embedded in the silicone layer.

9. The apparatus according to claim 8, wherein the silicone rubber layer has a plurality of parallel grooves for fingers to insert into, and a spacer is provided between adjacent grooves to separate the adjacent grooves, and the pressure switch is disposed in the groove.

10. The apparatus according to claim 9, wherein the spacer bar has an outer sidewall facing the bar groove, and a bar-shaped protrusion is protruded from the outer sidewall of the spacer bar, and the bar-shaped protrusion extends along the length direction of the bar groove and is arranged in parallel with the pressure switch.

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