Medical ultrasound probe suspension device

Abstract

The utility model discloses a medical ultrasonic probe suspension device, including mounting panel, still include set up and be used for the suspension placement assembly of auxiliary to medical ultrasonic probe suspension placement on mounting panel, the suspension placement assembly includes the suspension box of setting in the front side of mounting panel, the suspension box is rotationally connected with the mounting shaft, one end of mounting shaft is fixedly connected on mounting panel, the suspension box is opened and is used for the placement groove of medical ultrasonic probe placement, the inside of placement groove is provided with the sealing assembly for sealing after suspension placement. The utility model discloses through suspension placement assembly, the medical ultrasonic probe of after use is assisted suspension placement, and after placing, through to the rotation of suspension box, the front end of medical ultrasonic probe after suspension placement is sealed, reduces the risk of medical ultrasonic probe damage and being contaminated, and the sustained accurate examination of medical ultrasonic probe to patient is convenient.

Description

Technical Field

[0001] This utility model belongs to the field of medical device technology, specifically, it relates to a medical ultrasound probe suspension device. Background Technology

[0002] When using an ultrasound probe, multiple indicators of the patient need to be measured. During the measurement process, depending on the different measurement requirements, the ultrasound probe needs to be temporarily placed on the suspension assembly. However, the ultrasound probe is exposed when temporarily placed, which increases the risk of damage and contamination and makes it difficult to use the ultrasound probe for continuous and accurate examination of the patient.

[0003] In view of this, this utility model is proposed. Utility Model Content

[0004] To solve the above-mentioned technical problems, the basic concept of the technical solution adopted by this utility model is as follows:

[0005] A medical ultrasound probe suspension device includes a mounting plate and a suspension placement assembly disposed on the mounting plate for assisting in the suspension and placement of the medical ultrasound probe. The suspension placement assembly includes a suspension box disposed on the front side of the mounting plate, a mounting shaft rotatably connected to the suspension box, one end of the mounting shaft being fixedly connected to the mounting plate, a placement groove for placing the medical ultrasound probe on the suspension box, a sealing assembly for sealing after suspension and placement being disposed inside the placement groove, an inflation assembly for inflating the sealing assembly during rotation of the suspension box being disposed between the mounting plate and the suspension box, and a limiting assembly for limiting rotation after rotation being disposed between the suspension box and the mounting plate.

[0006] The sealing assembly includes a spiral groove formed inside the suspension box, and a spiral airbag is installed inside the spiral groove.

[0007] The inflation assembly includes a piston cylinder fixed to the outside of the suspension box, the piston cylinder being connected to the interior of the U-shaped airbag, a piston rod being slidably connected to the piston cylinder, a compression assembly for pushing the piston rod during the rotation of the suspension box being provided on the mounting plate, and a reset assembly for assisting in resetting the piston rod after compression between the piston rod and the piston cylinder.

[0008] The extrusion assembly includes an arc-shaped plate fixed to a mounting plate, the end of which has an inclined surface for abutting against the end of a piston rod.

[0009] The reset assembly includes an annular plate fixed to the outside of the piston rod, and a first spring is sleeved on the outside of the piston cylinder. The two ends of the first spring are respectively connected to the annular plate and the outside of the suspension box.

[0010] The limiting component includes an arc-shaped groove formed on the mounting plate. A friction rod is connected to the suspension box via an elastic component. The friction rod is located inside the arc-shaped groove, and the end of the friction rod abuts against the inner wall of the arc-shaped groove under the elastic force of the elastic component.

[0011] The elastic component includes a mounting cylinder fixed to the outside of the suspension box, the friction rod being slidably connected to the mounting cylinder, and a second spring for squeezing and pushing the friction rod is installed inside the mounting cylinder.

[0012] Compared with the prior art, the present invention has the following advantages:

[0013] This invention uses a suspension and placement assembly to assist in suspending and placing a used medical ultrasound probe. After placement, the front end of the suspended medical ultrasound probe is sealed by rotating the suspension box, reducing the risk of damage and contamination of the medical ultrasound probe and facilitating continuous and accurate examination of patients.

[0014] The specific embodiments of this utility model will be described in further detail below with reference to the accompanying drawings. Attached Figure Description

[0015] Figure 1 is a schematic diagram of the overall external structure of this utility model;

[0016] Figure 2 is a schematic diagram of the suspension and sealing components of this utility model;

[0017] Figure 3 is a schematic diagram of the structure of the inflation component, extrusion component, reset component, limiting component and elastic component of this utility model;

[0018] Figure 4 is a schematic diagram of the medical ultrasound probe of this utility model after placement;

[0019] Figure 5 is a schematic diagram of the state of the medical ultrasound probe of this utility model after it has been placed, rotated, and sealed.

[0020] In the diagram: 1-Mounting plate; 201-Suspension box; 202-Placement groove; 203-Mounting shaft; 301-U-shaped groove; 302-U-shaped airbag; 401-Piston cylinder; 402-Piston rod; 501-Arc plate; 502-Inclined surface; 601-Annular plate; 602-First spring; 701-Arc groove; 702-Friction rod; 801-Mounting cylinder; 802-Second spring. Detailed Implementation

[0021] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings.

[0022] The following examples illustrate the present invention.

[0023] As shown in Figures 1 to 5, a medical ultrasound probe suspension device includes a mounting plate 1 and a suspension placement assembly disposed on the mounting plate 1 for assisting in the suspension and placement of the medical ultrasound probe. The suspension placement assembly includes a suspension box 201 disposed on the front side of the mounting plate 1, a mounting shaft 203 rotatably connected to the suspension box 201, one end of the mounting shaft 203 being fixedly connected to the mounting plate 1, a placement groove 202 for placing the medical ultrasound probe being provided on the suspension box 201, a sealing assembly for sealing after suspension and placement being disposed inside the placement groove 202, an inflation assembly for inflating the sealing assembly during the rotation of the suspension box 201 being disposed between the mounting plate 1 and the suspension box 201, and a limiting assembly for limiting the position after rotation being disposed between the suspension box 201 and the mounting plate 1.

[0024] The sealing assembly includes a loop groove 301 formed inside the suspension box 201, and a loop airbag 302 is installed inside the loop groove 301;

[0025] The suspended placement assembly assists in suspending and placing the used medical ultrasound probe. After placement, the front end of the suspended medical ultrasound probe is sealed by rotating the suspension box 201, reducing the risk of damage and contamination to the medical ultrasound probe and facilitating continuous and accurate examination of patients.

[0026] It should be noted that the initial state of the loop-shaped airbag 302 is partially filled with gas, which facilitates more efficient inflation and sealing later.

[0027] The inflation assembly includes a piston cylinder 401 fixed to the outside of the suspension box 201. The piston cylinder 401 communicates with the interior of the U-shaped airbag 302. A piston rod 402 is slidably connected to the piston cylinder 401. A compression assembly is provided on the mounting plate 1 for pushing the piston rod 402 during the rotation of the suspension box 201. A reset assembly is provided between the piston rod 402 and the piston cylinder 401 to assist in resetting the piston rod 402 after compression. The compression assembly includes an arc-shaped plate 501 fixed to the mounting plate 1. The end of the arc-shaped plate 501 has an inclined surface 502 for abutting and driving against the end of the piston rod 402. After the front end of the medical ultrasound probe is placed inside the placement slot 202, the suspension box 201 is pushed by the medical ultrasound probe, causing the suspension box 201 to rotate around the mounting shaft 203. During the rotation of the suspension box 201, the piston cylinder 401 moves synchronously. During the movement of the piston cylinder 401, the piston rod 402... The front end of the piston rod 402 abuts against the inclined surface 502 on the arc plate 501. During the abutment process, the piston rod 402 is pushed toward the inside of the piston cylinder 401. Through the movement of the piston rod 402, some of the gas inside the piston cylinder 401 is pushed into the inside of the loop-shaped airbag 302 to inflate the inside of the loop-shaped airbag 302.

[0028] The reset assembly includes an annular plate 601 fixed to the outside of the piston rod 402, and a first spring 602 sleeved on the outside of the piston cylinder 401. The two ends of the first spring 602 are respectively connected to the annular plate 601 and the outside of the suspension box 201. The annular plate 601 and the first spring 602 facilitate the reset movement of the piston rod 402 after it has been squeezed.

[0029] The limiting component includes an arc-shaped groove 701 formed on the mounting plate 1. A friction rod 702 is connected to the suspension box 201 via a spring assembly. The friction rod 702 is located inside the arc-shaped groove 701, and the end of the friction rod 702 abuts against the inner wall of the arc-shaped groove 701 under the elastic force of the spring assembly. After the suspension box 201 is rotated, the front end of the friction rod 702 is pushed against the inner wall of the arc-shaped groove 701 by the spring assembly, thereby limiting the rotation of the suspension box 201 and facilitating the maintenance of the state of the suspension box 201 after rotation.

[0030] The elastic component includes a mounting cylinder 801 fixed to the outside of the suspension box 201, a friction rod 702 slidably connected to the mounting cylinder 801, and a second spring 802 for squeezing and pushing the friction rod 702 is installed inside the mounting cylinder 801; the friction rod 702 is easily squeezed and pushed through the mounting cylinder 801 and the second spring 802 inside the mounting cylinder 801.

[0031] When using a medical ultrasound probe, during the process of suspending and placing the medical ultrasound probe, the front end of the medical ultrasound probe is pushed and placed into the placement slot 202 of the suspension box 201. During the process of pushing and placing the medical ultrasound probe, the loop-shaped airbag 302 inside the loop-shaped slot 301 is located on the outside of the medical ultrasound probe.

[0032] After placing the front end of the medical ultrasound probe inside the placement slot 202, the medical ultrasound probe pushes the suspension box 201, causing it to rotate around the mounting shaft 203. During the rotation of the suspension box 201, the piston cylinder 401 moves synchronously. As the piston cylinder 401 moves, the front end of the piston rod 402 abuts against the inclined surface 502 on the arc-shaped plate 501. During this abutment, the piston rod 402 is pushed towards the interior of the piston cylinder 401. Through the movement of the piston rod 402, some of the gas inside the piston cylinder 401 is forced into the spiral-shaped airbag 302, inflating the spiral-shaped airbag 302. Under the action of inflation, the spiral-shaped airbag 302... During the expansion process, the loop-shaped airbag 302 abuts against the periphery of the medical ultrasound probe. Through this abutment, the front end of the suspended medical ultrasound probe is sealed, reducing the risk of damage and contamination to the medical ultrasound probe and facilitating continuous and accurate examination of patients.

[0033] After the suspension box 201 is rotated, the elastic component pushes the front end of the friction rod 702 to abut against the inner wall of the arc groove 701, thereby limiting the rotation of the suspension box 201 and making it easier to maintain the state of the suspension box 201 after rotation.

Claims

1. A medical ultrasound probe suspension device, comprising: Mounting plate (1); characterized in that it further includes: a suspension placement assembly disposed on the mounting plate (1) for assisting in the suspension placement of a medical ultrasound probe, the suspension placement assembly including a suspension box (201) disposed on the front side of the mounting plate (1), a mounting shaft (203) rotatably connected to the suspension box (201), one end of the mounting shaft (203) being fixedly connected to the mounting plate (1), a placement groove (202) for placing the medical ultrasound probe being opened on the suspension box (201), a sealing assembly for sealing after suspension placement being disposed inside the placement groove (202), an inflation assembly for inflating the inside of the sealing assembly during the rotation of the suspension box (201) being disposed between the mounting plate (1) and the suspension box (201), and a limiting assembly for limiting the rotation after the suspension box (201) is disposed between the suspension box (201) and the mounting plate (1).

2. The medical ultrasound probe suspension device according to claim 1, characterized in that, The sealing assembly includes a spiral groove (301) formed inside the suspension box (201), and a spiral airbag (302) is installed inside the spiral groove (301).

3. A medical ultrasound probe suspension device according to claim 2, characterized in that, The inflation assembly includes a piston cylinder (401) fixed to the outside of the suspension box (201). The piston cylinder (401) is connected to the interior of the loop airbag (302). A piston rod (402) is slidably connected to the piston cylinder (401). A compression assembly for pushing the piston rod (402) during the rotation of the suspension box (201) is provided on the mounting plate (1). A reset assembly for assisting the piston rod (402) to reset after being compressed is provided between the piston rod (402) and the piston cylinder (401).

4. A medical ultrasound probe suspension device according to claim 3, characterized in that, The extrusion assembly includes an arc-shaped plate (501) fixed on the mounting plate (1), and the end of the arc-shaped plate (501) is provided with an inclined surface (502) for abutting against the end of the piston rod (402).

5. A medical ultrasound probe suspension device according to claim 3, characterized in that, The reset assembly includes an annular plate (601) fixed to the outside of the piston rod (402), and a first spring (602) is sleeved on the outside of the piston cylinder (401). The two ends of the first spring (602) are respectively connected to the annular plate (601) and the outside of the suspension box (201).

6. A medical ultrasound probe suspension device according to claim 1, characterized in that, The limiting component includes an arc-shaped groove (701) opened on the mounting plate (1), and a friction rod (702) is connected to the suspension box (201) by an elastic component. The friction rod (702) is located inside the arc-shaped groove (701), and the end of the friction rod (702) abuts against the inner wall of the arc-shaped groove (701) under the elastic force of the elastic component.

7. A medical ultrasound probe suspension device according to claim 6, characterized in that, The elastic component includes a mounting cylinder (801) fixed to the outside of the suspension box (201), the friction rod (702) is slidably connected to the mounting cylinder (801), and a second spring (802) for squeezing and pushing the friction rod (702) is installed inside the mounting cylinder (801).

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