CN113599550A - B-ultrasonic probe sterilizer - Google Patents

Abstract

The invention relates to the technical field of medical instruments, in particular to a B-ultrasonic probe sterilizing machine which comprises a cross beam, a vertical beam, a sponge head and a speed reducing motor, wherein the sponge head is arranged on the speed reducing motor; the device is characterized by also comprising rotating arms and a leaning part, wherein the two rotating arms slide on the lower side of the vertical beam, each rotating arm is provided with a leaning part, and the two rotating arms rotate on the cross beam; can rapidly and automatically carry out all-round disinfection on the B-ultrasonic probe.

Description

B-ultrasonic probe sterilizer

Technical Field

The invention relates to the technical field of medical instruments, in particular to a B-ultrasonic probe sterilizing machine.

Background

B ultrasonic probe is the medical equipment who uses when diagnosing the patient, but because the patient is different, so all need disinfect clean the processing after every use, avoid the bacterial infection, but all only clean with soft cloth or paper handkerchief when disinfecting clean to B ultrasonic probe now, not only extravagant paper handkerchief or cloth, but also need medical personnel to clean manually, so required time is longer, and it is not comprehensive to appear disinfecting easily, the potential safety hazard appears.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the B-ultrasonic probe sterilizing machine which can automatically sterilize the B-ultrasonic probe in all directions.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a B-ultrasonic probe sterilizer comprises a cross beam, a vertical beam, a sponge head and a speed reduction motor, wherein the sponge head is arranged on the speed reduction motor, the speed reduction motor is fixedly connected to the vertical beam, the vertical beam slides on the cross beam, and a spring is arranged between the vertical beam and the cross beam.

Further still include rotor arm and subsides portion, two rotor arms all slide and erect the roof beam downside, all be provided with a subsides portion on every rotor arm, two rotor arms all rotate on the crossbeam.

Furthermore, the leaning part is of an arc-shaped structure, and the leaning part and the sponge head are externally tangent on the same horizontal plane.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of a vertical beam and a sponge head according to the present invention;

FIG. 2 is a schematic view of the structure of the rotating arm and the abutting portion in the present invention;

FIG. 3 is a schematic view of the structure of the slide tube and the cleaning wipe of the present invention;

FIG. 4 is a schematic view of the structure of the rotary sleeve and the gear of the present invention;

FIG. 5 is a schematic view of the construction of the gear and rack of the present invention;

FIG. 6 is a schematic view of the cross-beam and rack structure of the present invention;

FIG. 7 is a schematic view of the outer casing and inner casing of the present invention;

FIG. 8 is a schematic view of the construction of the vertical plate and cleaning sleeve of the present invention;

FIG. 9 is a schematic view showing the arrangement of vertical plates according to the present invention;

FIG. 10 is a schematic structural view of a B-ultrasonic probe sterilizer of the present invention.

Detailed Description

Referring to FIGS. 1 and 2, one exemplary procedure by which the bottom end of a B-mode ultrasound probe may be sterilized is shown:

when the bottom end of the B ultrasonic probe is disinfected, the bottom end of the B ultrasonic probe is not only disinfected comprehensively, but also protected, so that the B ultrasonic probe comprises a cross beam 008, a vertical beam 009, a sponge head 012 and a speed reducing motor 013, the sponge head 012 is fixedly connected to an output shaft of the speed reducing motor 013, the speed reducing motor 013 is fixedly connected to the upper end of the vertical beam 009, the vertical beam 009 is connected to the cross beam 008 in a sliding manner, a spring is arranged between the vertical beam 009 and the cross beam 008, at the moment, the spring belongs to a normal state, during disinfection, only a medical worker needs to hold the B ultrasonic probe and press the probe downwards on the sponge head 012, the sponge head 012 is made of a sponge material, and can change correspondingly according to the shape of the bottom end of the B ultrasonic probe, so that the surface of the bottom end of the B ultrasonic probe is completely wrapped by the sponge head 012, then the speed reducing motor is used for driving the sponge head 012 to rotate, and the sponge head 012 can clean the bottom end of the B ultrasonic probe, and can add disinfection gel in the sponge head 012 to make the sponge head 012 can be constantly clean the bottom of B ultrasonic probe and disinfect, the sponge head 012 texture is soft moreover, can not cause harm such as fish tail to the bottom of B ultrasonic probe.

Referring to fig. 1 and 2, one exemplary process by which the addition of a sanitizing gel may be achieved is shown:

because the disinfection gel is easy to volatilize when exposed to the outside, the disinfection gel cannot be added into the sponge head 012 in advance so as to prevent the disinfection gel from volatilizing too early to play a disinfection role, the disinfection gel disinfection device further comprises rotating arms 010 and clinging parts 011, the two rotating arms 010 slide at the front and rear ends of the lower side of the vertical beam 009 respectively, the two rotating arms 010 are fixedly connected with the clinging parts 011, the middle parts of the two rotating arms 010 rotate at the front and rear sides of the cross beam 008 respectively, a space for storing the disinfection gel is arranged in the clinging parts 011, the disinfection gel is only added into the clinging parts 011, when a B ultrasonic probe presses the upper end of the sponge head 012, the vertical beam 009 can slide downwards on the cross beam 008, the vertical beam 009 can press a spring to enable the spring to go out of a compression state, the vertical beam 009 can drive the two rotating arms 010 to rotate at the front and rear sides of the cross beam 008, make two rotor arms 010 drive two subsides portion 011 respectively and contact both sides around the sponge head 012 respectively, this moment because the disinfection gel in the portion 011 of pasting can be inhaled to the characteristic of sponge head 012 self, thereby make the disinfection gel shift to the middle of the sponge head 012, thereby come to add the disinfection gel in the sponge head 012 through such a method, just can make the disinfection gel expose in the external world during the disinfection, avoid preparing the disinfection gel in advance and make it volatilize, also need not artifical manual interpolation simultaneously, realize adding the disinfection gel in automatic the sponge head 012, it is simple and fast.

Referring to fig. 1 and 2, an exemplary operation process for extending the service life of the sponge head 012 is shown as follows:

because the sponge head 012 is rotated when absorbing the sterilizing gel from the abutment portion 011, the sponge head 012 can be abraded by the contact friction with the abutting portion 011, if the abutting portion 011 is of a planar structure at the corners, however, the leaning part 011 is of an arc structure, the leaning part 011 and the sponge head 012 are circumscribed on the same horizontal plane, the sponge head 012 and the leaning part 011 are circumscribed where they contact, and the leaning part 011 is made of plastic material, which can ensure light material and smooth surface, therefore, when the abutting portion 011 contacts the sponge head 012 at this time, the sponge head 012 can avoid the corner portion due to the arc structure of the abutting portion 011, meanwhile, the smooth and plastic-made leaning part 011 can reduce the friction between the sponge head 012 and the sponge head, thereby preventing the sponge head 012 from being damaged by friction and prolonging the service life of the sponge head 012.

Referring to fig. 7 and 10, one exemplary procedure by which the stored sanitizing gel can be obtained is according to the figures:

the ultrasonic diagnosis device also comprises a shell 001 and an inner box 002, the bottom end inside the shell 001 is provided with the inner box 002, the inner box 002 is connected and communicated with the two attached parts 011 through a hose, the inner box 002 is communicated with the outside through a valve, a pressure pump is arranged inside the inner box 002, disinfection gel can be conveyed into the two attached parts 011 through the hose, enough disinfection gel only needs to be added into the inner box 002 before use, the upper end of the shell 001 is provided with an opening, medical personnel can vertically insert the B ultrasonic probe through the opening, and a sponge head 012 in the shell 001 can clean and disinfect the bottom end of the B ultrasonic probe.

Referring to fig. 3 and 9, one exemplary procedure for sterilizing the left and right sides of a B-mode ultrasound probe is shown:

the B-ultrasonic probe is required to be disinfected comprehensively, so the B-ultrasonic probe also comprises rotary sleeves 003, sliding tubes 004 and cleaning wipers 005, wherein one sliding tube 004 is connected in each rotary sleeve 003 in a sliding manner, the two cleaning wipers 005 are fixedly connected to the two sliding tubes 004 respectively, a spring is sleeved between each sliding tube 004 and each rotary sleeve 003, the two sliding tubes 004 are connected and communicated with the inner box 002 through hoses, the two rotary sleeves 003 are respectively positioned at the left side and the right side of an opening at the upper end of the shell 001, in operation, the B-ultrasonic probe is required to vertically enter the opening, the left side and the right side of the B-ultrasonic probe can be contacted with the two cleaning wipers 005, in addition, the two cleaning wipers 005 are thrust in the horizontal direction when continuing to descend, the two sliding tubes 004 respectively slide on the two rotary sleeves 003, the elasticity of the spring is utilized to ensure that the whole B-ultrasonic probe can pass through and be contacted with the two cleaning wipers 005, and the same two sliding tubes 004 can convey disinfection gel in the inner box 002 to the two cleaning wipers 005, the two cleaning wipers 005 are used for disinfecting the side surface of the B ultrasonic probe;

simultaneously two change the cover 003 and all rotate the top at shell 001 inner wall, so when receiving the decurrent effort of B ultrasonic probe, can make two change the cover 003 and rotate downwards to make two slide tubes 004 take place the slope, with making two clean wipes 005 of crowding open of B ultrasonic probe easily in the slope, thereby avoid B ultrasonic probe card to wipe on two clean wipes 005 or need very big strength just can crowd two clean wipes 005, save medical personnel's physical power.

Referring to fig. 4-6, an exemplary procedure for simultaneously sterilizing the left and right sides and bottom of a B-mode ultrasound probe is shown:

if the left side, the right side and the bottom end of the B ultrasonic probe are disinfected in sequence, the operation is complex and time-consuming, the B ultrasonic probe further comprises a gear 006 and racks 007, the two rotating sleeves 003 are fixedly connected with the gear 006, the two gears 006 are respectively meshed with the two racks 007 for transmission, the two racks 007 respectively slide on the inner walls of the left side and the right side of the shell 001, and the cross beam 008 is fixedly connected with the bottom ends of the two racks 007, so that the two rotating sleeves 003 can rotate and drive the two gears 006 to rotate when the B ultrasonic probe passes through the two cleaning wipers 005, the two gears 006 respectively drive the two racks 007 to slide upwards on the inner walls of the left side and the right side of the shell 001, and the cross beam 008 can be driven to ascend, so that the sponge head 012 can automatically approach the bottom end of the B ultrasonic probe, and the left side, the right side and the bottom end of the B ultrasonic probe can be disinfected simultaneously only by inserting the B ultrasonic probe into an opening at the upper end of the shell 001, the operation is simple, the time is saved, and the disinfection efficiency can be greatly accelerated.

Referring to fig. 8 and 9, an exemplary procedure for cleaning the front and back sides of a B-mode ultrasonic probe is shown:

still include support 014, vertical board 016 and cleaning sleeve 017, two vertical board 016 are fixed connection respectively on two supports 014, two cleaning sleeve 017 overlaps respectively on two vertical board 016, two supports 014 are sliding connection respectively on the front and back inner wall of shell 001, and be provided with the spring between the inner wall of support 014 and shell 001, when B ultrasonic probe passes through two cleaning eraser 005 downwards, the front and back both sides terminal surface of B ultrasonic probe can contact with two cleaning sleeve 017, thereby make two cleaning sleeve 017 be clean and disinfected to the front and back both sides terminal surface of B ultrasonic probe, make two supports 014 drive two cleaning sleeve 017 tightly to paste on the front and back both sides terminal surface of B ultrasonic probe all the time under the effect of spring simultaneously, can also clear up the disinfection to the front and back both sides unevenness's terminal surface of B ultrasonic probe.

Referring to fig. 8 and 9, another exemplary procedure for cleaning the front and back sides of a B-mode ultrasonic probe is shown:

the cleaning sleeve 017 can slide on the vertical plane on the vertical plate 016, a plurality of protrusions are arranged on the cleaning sleeve 017, the protrusions are arc-shaped in the vertical direction, the arc-shaped direction is upward, as shown in fig. 8, and the cleaning sleeve 017 is made of sponge materials, so that when the B ultrasonic probe moves downwards, because the moving direction of the B ultrasonic probe is opposite to the arc-shaped direction of the protrusions, the friction force between the end surfaces of the front side and the rear side of the B ultrasonic probe and the plurality of protrusions is increased, so that the end surfaces of the front side and the rear side of the B ultrasonic probe drive the two cleaning sleeves 017 to rotate inwards, and when the B ultrasonic probe moves upwards, the plurality of protrusions are attached to the vertical plate 016 because of elasticity, so that the friction force between the B ultrasonic probe and the plurality of protrusions is reduced, the B ultrasonic probe is convenient to be taken out smoothly, and the cleaning sleeve 017 cannot reversely rotate on the vertical plate 016 at this time, the plurality of bulges can simultaneously wipe and clean the end surfaces of the front side and the rear side of the B-ultrasonic probe.

Referring to fig. 8 and 9, another exemplary procedure for sterilizing the front and back sides of a B-mode ultrasound probe is shown:

after the end faces of the front side and the rear side of the B ultrasonic probe are cleaned, disinfection is needed, so the B ultrasonic probe further comprises gel boxes 015, the two gel boxes 015 are fixedly connected to the two supports 014 respectively, the two cleaning sleeves 017 penetrate through the two gel boxes 015 respectively, cotton layers are arranged in the two gel boxes 015, the two gel boxes 015 are connected and communicated with the inner box 002 through hoses, the disinfection gel in the inner box 002 enters the two gel boxes 015 through the hoses to soak the cotton layers, when the two cleaning sleeves 017 are acted by the B ultrasonic probe, the two cleaning sleeves 015 can pass through the two gel boxes 015 circularly, when the two cleaning sleeves 017 pass through the two gel boxes, the cleaning sleeves 017 can be in contact with the corresponding cotton layers to suck the disinfection gel in the cotton layers, so the cleaning sleeves 017 are disinfected when in contact with the B ultrasonic probe, and when the B ultrasonic probe moves downwards to contact with the cleaning sleeves 017, the disinfection gel in the cleaning sleeve 017 at the contact part is easy to volatilize due to being exposed to the air, so the disinfection effect is poor, and after the downward movement of the B ultrasonic probe is stopped, the cleaning sleeve 017 rotates, so the part of the cleaning sleeve 017 rotating out of the gel box 015 just absorbs the disinfection gel again, and the front side and the rear side of the B ultrasonic probe can be disinfected when the B ultrasonic probe moves upwards;

can provide medical personnel simultaneously and use in the B ultrasonic room, only need medical personnel to hold B ultrasonic probe and insert the shell 001 downwards, then take out it after the disinfection, so simple "one inserts and gets" and just accomplished the disinfection, so can disinfect immediately after finishing using to a patient, use when preparing to next patient diagnosis, not only accelerated sterile efficiency, more improved medical personnel's efficiency of using.

Claims (10)

1. The utility model provides a B ultrasonic probe sterilizing machine, includes crossbeam (008), perpendicular roof beam (009), sponge head (012) and gear motor (013), its characterized in that: the sponge head (012) is arranged on the reducing motor (013), the reducing motor (013) is fixedly connected on the vertical beam (009), the vertical beam (009) slides on the cross beam (008), and a spring is arranged between the vertical beam (009) and the cross beam (008).

2. The B-ultrasonic probe sterilizer of claim 1, wherein: still include rotor arm (010) and subsides portion (011), two rotor arms (010) all slide and erect roof beam (009) downside, all be provided with one on every rotor arm (010) and paste portion (011), two rotor arms (010) all rotate on crossbeam (008).

3. The B-ultrasonic probe sterilizer of claim 1, wherein: the attaching part (011) is of an arc-shaped structure, and the attaching part (011) and the sponge head (012) are externally tangent on the same horizontal plane.

4. The B-ultrasonic probe sterilizer of any one of claims 2 or 3, wherein: the inside of the attaching part (011) is provided with a space for preserving the disinfection gel.

5. The B-ultrasonic probe sterilizer of claim 4, wherein: still include shell (001) and inner box (002), inner box (002) sets up inside shell (001), inner box (002) are connected and are communicate with two subsides of pasting portion (011) through the hose.

6. The B-ultrasonic probe sterilizer of claim 5, wherein: still including changeing cover (003), slide tube (004) and clean wiping (005), two slide tubes (004) slide respectively in two commentaries on classics cover (003), all be provided with on every slide tube (004) clean wiping (005), the cover is equipped with the spring between slide tube (004) and commentaries on classics cover (003), two slide tubes (004) all pass through hose connection and intercommunication with inner box (002), two change cover (003) and all rotate in shell (001).

7. The B-ultrasonic probe sterilizer of claim 6, wherein: still include gear (006) and rack (007), two gear (006) rigid couplings respectively are on two commentaries on classics cover (003), two gear (006) respectively with two rack (007) meshing transmission, two rack (007) all slide in shell (001), crossbeam (008) rigid coupling is on two rack (007).

8. The B-ultrasonic probe sterilizer of claim 7, wherein: the multifunctional cleaning device is characterized by further comprising supports (014), vertical plates (016) and cleaning sleeves (017), wherein the vertical plates (016) are arranged on the two supports (014), the two cleaning sleeves (017) are respectively arranged on the two vertical plates (016), and the two supports (014) slide in the shell (001).

9. The B-ultrasonic probe sterilizer of claim 8, wherein: the cleaning sleeve (017) can slide on a vertical plane on the vertical plate (016), a plurality of protrusions are arranged on the cleaning sleeve (017), and the protrusions are arc-shaped in the vertical direction.

10. The B-ultrasonic probe sterilizer of claim 9, wherein: still include gel case (015), two gel cases (015) set up respectively on two supports (014), two clean cover (017) pass respectively in two gel cases (015), two gel cases (015) all pass through hose connection and intercommunication with inner box (002).

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