CN219323702U - Sterilizing equipment for ultrasonic probe - Google Patents

Abstract

The utility model discloses disinfection equipment for an ultrasonic probe, which comprises a disinfection platform, a lifting column and a filtering cage assembly, wherein the filtering cage assembly comprises an adsorption block, a filtering cage and a rotating pressing bar, the disinfection platform is used for containing disinfection liquid, the lifting column is used for placing the filtering cage assembly with a detection head in the disinfection liquid for disinfection treatment, and the adsorption block is convenient for installing and dismantling the filtering cage and the lifting column. When the sterilizing device is used for sterilizing the probe, the filtering cage connected to the lifting column is taken down and opened, the probe is placed in the filtering cage, the filtering cage is pressed by the rotary pressing bar, then the filtering cage is installed on the lifting column, the lifting column extends to immerse the filtering cage in sterilizing liquid in the sterilizing table, at the moment, the sterilizing liquid immerses the filtering cage to soak the probe, the probe is subjected to omnibearing sterilizing treatment, the problem that the clamping surface cannot be sterilized in place by the traditional sterilizing equipment is avoided, finally the lifting column shortens to pull the filtering cage out of the sterilizing liquid, and the sterilizing treatment on the probe is completed.

Description

Sterilizing equipment for ultrasonic probe

Technical Field

The present utility model relates to a disinfection apparatus for an ultrasonic probe.

Background

Ultrasonic inspection is a diagnostic method which applies ultrasonic detection technology to human body, finds diseases by measuring and knowing data and morphology of physiological or tissue structure, and gives prompts, and is widely used because of the advantages of no wound, no pain, convenience, intuitiveness and the like.

The utility model discloses an ultrasonic probe cleaning and disinfecting equipment of prior art CN212442470U, including the support frame and install the disinfect box in the support frame, the position that is close to disinfect box top in the support frame is installed and is convenient for ultrasonic probe dismouting centre gripping and is applicable to the adjustable centre gripping positioning mechanism of multiple size, this sterilizing equipment is in the use, make things convenient for ultrasonic probe's real-time centre gripping dismouting, make things convenient for ultrasonic probe's real-time cleaning and disinfecting work, simultaneously, also can effectively make things convenient for the dismouting fixed work of multiple dimension ultrasonic probe, in actual cleaning and disinfecting process, make the device whole can carry out convenient and efficient cleaning and disinfecting to the ultrasonic probe of various sizes of real-time use, the flexibility in the real-time cleaning and disinfecting use has effectively been improved.

However, the inspection surface clamped by the clamping and positioning mechanism is not soaked by the disinfectant, so that the ultrasonic probe is not thoroughly disinfected, and the disinfection effect is poor.

Disclosure of Invention

The utility model aims to provide a disinfection device for an ultrasonic probe, and aims to solve the problems that the existing disinfection device clamps the ultrasonic probe to clean and disinfect, the disinfection is incomplete and the disinfection is poor.

In order to achieve the above purpose, the utility model provides a disinfection device for an ultrasonic probe, which comprises a disinfection platform, a lifting column and a filter cage assembly, wherein the lifting column is fixedly connected with the disinfection platform and is positioned at one side of the disinfection platform, and the filter cage assembly comprises an adsorption block, a filter cage and a rotary pressing strip; the adsorption block is connected with the lifting column in a disassembling way, and is located away from one side of the disinfection platform, the filter cage is fixedly connected with the adsorption block, and is located away from one side of the lifting column, the rotating pressing strip is connected with the filter cage in a rotating way, and is located outside the filter cage.

The filter cage comprises a cage body and a rotary door, wherein the cage body is fixedly connected with the adsorption block and is positioned away from one side of the lifting column, and the rotary door is rotationally connected with the cage body and is positioned close to one side of the rotary pressing strip.

The rotating pressing strip comprises a rotating head and a pressing strip, the rotating head is fixedly connected with the cage body and is positioned close to one side of the rotating door, and the pressing strip is rotationally connected with the rotating head and is positioned far away from one side of the cage body.

The sterilizing equipment of the ultrasonic probe comprises an air drying assembly, and the air drying assembly is arranged on one side, close to the cage body, of the sterilizing table.

The air drying assembly comprises an air guide pipe and a fan, wherein the fan is fixedly connected with the disinfection platform and is positioned on one side of the disinfection platform, and the air guide pipe is communicated with the fan and is positioned close to one side of the cage body.

The utility model relates to a disinfection device for an ultrasonic probe, when the probe is disinfected, medical staff takes down a filter cage connected with a lifting column by utilizing hands, opens the filter cage, puts the probe into the filter cage, closes the filter cage, rotates the rotating pressing bar to press the filter cage, then installs the filter cage on the lifting column, stretches the lifting column to immerse the filter cage in disinfectant in a disinfection table, immerses the disinfectant in the filter cage to soak the probe at the moment, and performs omnibearing disinfection treatment on the probe, thereby effectively avoiding the problem that the traditional disinfection device cannot disinfect a clamping surface in place, improving the disinfection effect on the probe, finally shortening the lifting column to extract disinfectant from the filter cage, and completing the disinfection treatment on the probe, and solving the problems that the traditional disinfection device clamps the ultrasonic probe to clean and disinfect, and the disinfection is not thorough and worse.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural view of a first embodiment of a sterilizing apparatus for an ultrasonic probe according to the present utility model.

Fig. 2 is an enlarged view of detail a of fig. 1.

Fig. 3 is a schematic structural view of a second embodiment of a sterilizing apparatus for ultrasonic probes according to the present utility model.

In the figure: 101-disinfection platform, 102-lifting column, 103-adsorption block, 104-cage, 105-rotary door, 106-rotary head, 107-layering, 201-air duct and 202-fan.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the application is as follows:

referring to fig. 1-2, fig. 1 is a schematic view of the structure of the present utility model, and fig. 2 is an enlarged view of detail a in fig. 1, including a sterilizing table 101, a lifting column 102, and a filter cage assembly including an adsorption block 103, a filter cage including a cage body 104 and a rotary door 105, and a rotary pressing bar 107 including a rotary head 106 and a pressing bar. The problems of incomplete cleaning and disinfection, poor disinfection and poor disinfection of the ultrasonic probe clamped by the prior disinfection equipment are solved by the scheme, and the problem that the probe falls into disinfectant can be solved as well in the medical instrument disinfection scene of the scheme.

In this embodiment, the lifting column 102 is fixedly connected with the disinfection platform 101 and is located at one side of the disinfection platform 101, the disinfection platform 101 is used for containing disinfectant, and the lifting column 102 is placed down with the filter cage assembly with the probe placed therein and immersed in the disinfectant for disinfection treatment.

The utility model provides a disinfection device, including disinfection platform 101, lifting column 102, adsorption block 103, lifting column 102, filter the cage, wherein, adsorption block 103 with lifting column 102 dismantles and connects, and is located keep away from disinfection platform 101 one side, filter the cage with adsorption block 103 fixed connection, and be located keep away from lifting column 102 one side, rotate the layering with filter the cage and rotate to be connected, and be located filter the cage outside, adsorption block 103 is made for magnet, is convenient for filter the cage with lifting column 102's installation and dismantlement, when the probe disinfection, medical personnel utilize the hand to take down the filter the cage that is connected on lifting column 102, open filter the cage and put into wherein the probe back and close, rotate the layering is pressed filter the cage, will filter the cage and install on lifting column 102, lifting column 102 extension will filter the cage immersion in the disinfection liquid in the disinfection platform 101, the disinfection liquid immersion probe at this moment, carry out the omnidirectional disinfection to the probe, effectually avoided traditional disinfection device to the problem that the grip face is not in place, improved the probe disinfection device has shortened the disinfection device, has solved the disinfection thoroughly, has solved the disinfection device to the disinfection device has been thoroughly disinfected to the disinfection.

The cage 104 with adsorption block 103 fixed connection just is located and keeps away from lifting column 102 one side, the rotation door 105 with the cage 104 rotates to be connected, and is located to be close to rotate layering one side, the cage 104 need not the centre gripping fixed probe for the antiseptic solution can all-round soak the probe, has improved the disinfection effect to the probe, the rotation door 105 is used for opening or closing the cage 104.

In addition, the rotating head 106 is fixedly connected with the cage 104, and is located at one side close to the rotating door 105, the pressing strip 107 is rotatably connected with the rotating head 106, and is located at one side far away from the cage 104, and the rotating head 106 is arranged, so that the pressing strip 107 can rotate to press the rotating door 105, when the probe is prevented from being soaked, the rotating door 105 is opened, and the probe flows out and falls into the disinfection table 101.

When the probe is sterilized, medical staff takes down the cage 104 connected to the lifting column 102 by hands, rotates the rotary door 105 to open the cage 104 and put the probe into the cage 104, reversely rotates the cage 104, rotates the pressing strip 107 to press the rotary door 105, then installs the cage 104 on the lifting column 102, the lifting column 102 stretches to immerse the cage 104 in sterilizing liquid in the sterilizing table 101, and at the moment, the sterilizing liquid immerses the cage 104 to soak the probe, so that the probe is subjected to omnibearing sterilization treatment, the problem that the traditional sterilizing equipment cannot sterilize the clamping surface in place is effectively avoided, the sterilizing effect on the probe is improved, and finally the lifting column 102 shortens to extract the sterilizing liquid from the cage 104, and the sterilization treatment on the probe is completed.

The second embodiment of the present application is:

referring to fig. 3, fig. 3 is a schematic structural diagram of the present utility model, and the disinfection apparatus for an ultrasonic probe according to the present embodiment includes an air drying assembly, which includes an air guiding pipe 201 and a fan 202.

In this embodiment, the air-drying component is disposed on one side of the disinfection platform 101 near the cage 104, and the air-drying component is used for fast drying the residual disinfection solution on the probe, so as to avoid the probe from adhering to dust and dirt.

The fan 202 is fixedly connected with the disinfection platform 101 and is located on one side of the disinfection platform 101, the air guide pipe 201 is communicated with the fan 202 and is located on one side close to the cage body 104, the fan 202 blows air into the air guide pipe 201, and the air guide pipe 201 guides the air to act on one side of the cage body 104, so that the probe in the air guide pipe is quickly dried.

When the air drying assembly is used, the air is blown into the air guide pipe 201 through the fan 202, and the air guide pipe 201 guides out the air to act on one side of the cage 104, so that the probe in the air drying assembly is quickly dried.

The foregoing disclosure is merely illustrative of one sterilization apparatus or various preferred embodiments for an ultrasound probe, and is not intended to limit the scope of the claims herein, as a person of ordinary skill in the art would understand that all or part of the procedures for implementing the embodiments described above are equivalent and still fall within the scope of the claims herein.

Claims (5)

1. The sterilizing equipment for the ultrasonic probe comprises a sterilizing table and a lifting column, wherein the lifting column is fixedly connected with the sterilizing table; the adsorption block is connected with the lifting column in a disassembling way, and is located away from one side of the disinfection platform, the filter cage is fixedly connected with the adsorption block and is located away from one side of the lifting column, and the rotary pressing strip is rotationally connected with the filter cage and is located outside the filter cage.

2. The sterilizing apparatus for an ultrasonic probe according to claim 1, wherein the filter cage includes a cage body fixedly connected to the adsorption block and located at a side away from the elevating column, and a rotary door rotatably connected to the cage body and located at a side close to the rotary pressing bar.

3. A sterilizing apparatus for an ultrasonic probe according to claim 2, wherein said rotary bead includes a rotary head fixedly connected to said cage and located on a side closer to said rotary door, and a bead rotatably connected to said rotary head and located on a side farther from said cage.

4. A sterilizing apparatus for an ultrasonic probe according to claim 2, wherein the sterilizing apparatus for an ultrasonic probe includes an air-drying assembly provided at a side of the sterilizing table adjacent to the cage.

5. The apparatus of claim 4, wherein the air drying assembly comprises an air duct and a blower, the blower is fixedly connected to the disinfection station and located on one side of the disinfection station, and the air duct is in communication with the blower and located on a side of the cage.

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