CN115671325A - Ultrasonic medicine branch of academic or vocational study is with automatic degassing unit of B ultrasonic probe - Google Patents

Abstract

The invention discloses an automatic B-ultrasonic probe sterilizing device for the ultrasonic medical science, and relates to the technical field of B-ultrasonic probe sterilization. The steam sterilization box comprises a base, wherein a sterilization box is fixedly connected to the bottom of the base, a control panel is installed on the surface of the sterilization box, a steam sterilization bin is arranged on the surface of the sterilization box, a steam bin cover is installed at the top of the steam sterilization bin, a wiping sterilization bin is arranged on the surface of the sterilization box, a wiping bin cover is installed at the top of the wiping sterilization bin, a plasma sterilization bin is arranged on the surface of the sterilization box, a plasma bin cover is installed at the top of the plasma sterilization bin, clamping mechanisms are installed inside the steam sterilization bin, the wiping sterilization bin and the plasma sterilization bin, and a work indicator lamp is arranged on the surface of the sterilization box; the invention has the advantages of facilitating the medical care personnel to disinfect the B-ultrasonic probe and improving the disinfection treatment effect of the B-ultrasonic probe.

Description

Ultrasonic medicine branch of academic or vocational study is with automatic degassing unit of B ultrasonic probe

Technical Field

The invention relates to the technical field of B-ultrasonic probe disinfection, in particular to an automatic B-ultrasonic probe disinfection device for the department of ultrasonic medicine.

Background

The range of B-mode ultrasound examination is wide, and different examination parts and preparations before examination are different. (1) Abdominal examination: including the liver, gallbladder, pancreas, spleen and abdominal cavity. Generally, the examination should be performed on a fasting basis, because after eating, the stomach and intestinal tract generate gas to affect the penetration of ultrasound, and the fasting examination is the best. (2) Gynecological examination: the patient should drink water to hold the urine, and after the bladder is full, the intestinal canal is squeezed open, so that the ultrasonic waves can better penetrate into the pelvic cavity, and the normality and abnormality of the uterus and the ovary can be clearly displayed. (3) And (3) urinary system examination: more water should be taken, and stones, tumors, polyps and the like in the bladder can be better displayed after the bladder is full. (4) Body surface tumor and lesion: the inspection can be performed immediately, generally without special preparation. (5) The examination of the blood vessels of the heart and the four limbs does not need to be prepared.

Present B ultrasonic test probe need carry out disinfection and isolation processing after using, and most of medical personnel put into the immersion box after dismantling B ultrasonic probe through manual, disinfection water is washed or carries out sterilization treatment through ultraviolet lamp, this kind of processing mode influences the degree of difficulty of B ultrasonic probe disinfection work easily, influence the efficiency that B ultrasonic probe disinfection was used, influence the progress of B ultrasonic test work, it is relatively poor to the disinfection effect of B ultrasonic probe simultaneously through above-mentioned processing mode, bacterium to B ultrasonic probe that can not be fine, impurity is handled, influence the disinfection effect of B ultrasonic probe, patient's bacterium cross infection's the condition appears easily, consequently we need provide an ultrasonic medicine branch of academic or vocational study with B ultrasonic probe self-sterilizer.

Disclosure of Invention

The invention provides an automatic B-ultrasonic probe sterilizing device for the ultrasonic medical department, which has the advantages of being convenient for medical personnel to sterilize B-ultrasonic probes and improving the sterilizing treatment effect of the B-ultrasonic probes, thereby solving the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: ultrasonic medicine branch of academic or vocational study is with B ultrasonic probe self-sterilizer, the on-line screen storage device comprises a base, the bottom fixedly connected with disinfect box of base, the surface mounting of disinfect box has control panel, steam disinfection storehouse has been seted up on the surface of disinfect box, steam storehouse lid has been installed at the top in steam disinfection storehouse, the storehouse lid has been installed and cleaned on the top of cleaning disinfection storehouse, plasma disinfection storehouse has been seted up on the surface of disinfect box, plasma storehouse lid is installed at the top in plasma disinfection storehouse, steam disinfection storehouse, the inside of cleaning disinfection storehouse and plasma disinfection storehouse all installs fixture, the surface of disinfect box is provided with the work pilot lamp, the top of disinfect box is provided with B ultrasonic probe body, the internally mounted of disinfect box has steam disinfection mechanism, and steam disinfection mechanism uses with the cooperation of steam disinfection storehouse, the internally mounted of disinfect box has the disinfection mechanism, and clean disinfection mechanism and use with the cooperation of cleaning disinfection storehouse, the internally mounted of disinfect box has plasma disinfection mechanism, and clean disinfection storehouse lid cooperation use, and the high temperature disinfection mechanism and the high temperature disinfection storehouse lid, the high temperature disinfection mechanism place the disinfection storehouse lid and steam disinfection door, the disinfection storehouse lid, the high temperature disinfection mechanism and steam storehouse lid and steam disinfection door all install the disinfection door, the disinfection storehouse lid and steam storehouse lid are installed with the steam disinfection storehouse lid and the steam disinfection.

The automatic B-ultrasonic probe sterilizing device for the ultrasonic medicine department comprises a moving chute, a clamping plate, an electric control telescopic rod, a limiting chute, a sliding ring, a compression spring, a limiting sliding rod and a clamping controller, wherein the moving chute is arranged in a sterilizing box, the clamping plate is connected in the moving chute in a sliding mode, the electric control telescopic rod is installed in the sterilizing box, the output end of the electric control telescopic rod is fixedly connected with one side of the clamping plate, the limiting chute is arranged in the sterilizing box, the sliding ring is connected in the limiting chute in a sliding mode, the compression spring is installed between the limiting chute and the sliding ring, the limiting sliding rod is fixedly connected to the sliding ring, one end of the limiting sliding rod is connected with the clamping plate, and the clamping controller is installed at one end of the electric control telescopic rod.

As the automatic B-ultrasonic probe disinfection device for the ultrasonic medicine department, the shape of the clamping plate is consistent with that of the holding part of the B-ultrasonic probe body, the inner surface of the clamping plate is provided with anti-skid stripes, the clamping controller is matched with the control panel for use, and the limiting sliding groove and the sliding ring are cylindrical.

The automatic B-ultrasonic probe sterilizing device for the ultrasonic medicine department comprises a servo motor, a connecting rotary rod, a steam sterilizer, a steam spray head, a water storage tank, a water guide pipe, a water suction pump, a water pipe, a water feeding pipe, a steam controller and a second storage battery, wherein the servo motor is installed in a base, the connecting rotary rod is installed in the sterilizer, one end of the connecting rotary rod is fixedly connected with the output end of the servo motor, the steam sterilizer is installed on the connecting rotary rod, the steam spray head is installed on the steam sterilizer, the water storage tank is arranged in the sterilizer, the water guide pipe is communicated with the water storage tank, the water suction pump is installed in the sterilizer, the water suction pump is communicated with the water guide pipe, the water pipe is communicated with one end of the water suction pump, the water pipe is communicated with the steam sterilizer, the water feeding pipe is communicated with the water storage tank, one end of the water feeding pipe penetrates through the surface of the sterilizer, the steam controller is installed at one end of the servo motor, and the second storage battery is arranged in the base.

As the automatic B-ultrasonic probe sterilizing device for the ultrasonic medicine department, the type of the water guide pipe and the type of the water delivery pipe are both elastic metal hoses, the type of the steam sterilizer is a high-pressure steam sterilizer, and the type of the steam spray head is a fan-shaped nozzle.

As the automatic B-ultrasonic probe disinfection device for the ultrasonic medicine department, the wiping disinfection mechanism comprises a wiping component, a liquid storage box, a liquid pumping pump, a liquid pumping controller, a liquid guide pipe, a third storage battery and a limit square groove, the wiping component is installed in the disinfection box, the liquid storage box is arranged in the disinfection box, the liquid pumping pump is communicated with the liquid storage box, the liquid pumping controller is installed in the disinfection box and is electrically connected with the liquid pumping pump, the liquid guide pipe is communicated with the output end of the liquid pumping pump, the third storage battery is arranged in the disinfection box, and the limit square groove is formed in the disinfection box;

clean the subassembly including reciprocal slide, rotation motor, drive gear, driven rack, deposit the liquid box and clean the disinfection pad, reciprocal slide sliding connection is in spacing square groove, it installs in the disinfect box to rotate the motor, drive gear installs in the disinfect box, and drive gear's one end and the output fixed connection who rotates the motor, driven rack installs on reciprocal slide, deposit liquid box fixed connection in the top of reciprocal slide, it installs in depositing the liquid box to clean the disinfection pad.

As the automatic disinfection device for the B-ultrasonic probe for the ultrasonic medicine department, the liquid pumping controller is matched with the control panel for use, the liquid guide pipe is an elastic metal hose, the transmission gear is a half gear and is meshed with the driven rack for use, one end of the photocatalyst component penetrates into the liquid storage box, one end of the photocatalyst component is communicated with the wiping disinfection pad, the wiping disinfection pad is a liquid suction disinfection wiping sponge and is matched with the detection end of the B-ultrasonic probe body for use.

As the automatic B-ultrasonic probe sterilizing device for the ultrasonic medicine department, the plasma sterilizing mechanism comprises a sterilizing cavity, a filter, an air guide pipe, a plasma sterilizer, a photocatalyst component, an anion generator, a circulating air pipe, an intelligent controller, a fourth storage battery and a circulating fan, wherein the sterilizing cavity is arranged in the sterilizing box, the filter is arranged in the sterilizing box, the circulating fan is communicated with one end of the filter, the air guide pipe is communicated with one end of the circulating fan, the plasma sterilizer is arranged in the sterilizing cavity and is communicated with the air guide pipe, the photocatalyst component is arranged on the sterilizing cavity and is communicated with the air guide pipe, the anion generator is arranged at one end of the sterilizing cavity and is communicated with the air guide pipe, the circulating air pipe is communicated in the sterilizing cavity and is communicated with the filter at one end of the circulating air pipe, the intelligent controller is arranged in the sterilizing box, and the fourth storage battery is arranged in the base.

As the automatic B-ultrasonic probe disinfection device for the ultrasonic medicine department, which is disclosed by the invention, the filter is an antibacterial and mildewproof filter, the intelligent controller is matched with the filter, the plasma disinfector, the photocatalyst component, the anion generator and the circulating fan for use, and the intelligent controller is matched with the control panel for use.

As the automatic B-ultrasonic probe disinfection device for the ultrasonic medicine department, the high-temperature disinfection mechanism comprises a placing groove, an adjusting groove, a fixed pressing plate, a high-temperature sterilizer, a dust screen, a high-temperature controller, a first storage battery and an electric telescopic rod, the placing groove is formed in a disinfection box, the adjusting groove is formed in the disinfection box, the fixed pressing plate is connected in the adjusting groove in a sliding mode, the high-temperature sterilizer is arranged on one side of the placing groove, the dust screen is arranged on one side of the high-temperature sterilizer, the high-temperature controller is arranged in the disinfection box, the high-temperature controller is electrically connected with the high-temperature sterilizer and used in a matching mode, the first storage battery is arranged in the disinfection box, the electric telescopic rod is arranged in the disinfection box, the output end of the electric telescopic rod is fixedly connected with the fixed pressing plate, and the electric telescopic rod is used in a matching mode with the control panel.

The invention provides an automatic disinfection device for a B-ultrasonic probe for an ultrasonic medicine department. The method has the following beneficial effects:

this ultrasonic medicine branch of academic or vocational study is with B ultrasonic probe automatic disinfection device, the on-line screen storage device comprises a base, the disinfect box, control panel, steam disinfection storehouse, steam storehouse cover, clean disinfection storehouse, clean storehouse cover, plasma disinfection storehouse, plasma storehouse cover, fixture, the work pilot lamp, the B ultrasonic probe body, steam disinfection mechanism, clean disinfection mechanism, plasma disinfection mechanism, place the storehouse, high temperature disinfection mechanism, the access door, the wire casing, the setting of support column and buckle, can be better disinfect the B ultrasonic probe position, be favorable to disinfecting through steam, the disinfection is cleaned to the antiseptic solution, plasma air disinfection and the disinfection of high temperature drying disinfection multiple mode are disinfected the B ultrasonic probe, the sterile effect of B ultrasonic detection is improved, reduce the probability that cross infection appears in the repetitious usage of B ultrasonic probe, can make things convenient for medical personnel to disinfect the B ultrasonic probe simultaneously through the device, reduce medical personnel's manual number of times to B ultrasonic probe washing, facilitate medical personnel, save operating time, improve the progress of the follow-up use of B ultrasonic probe.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a perspective view of a first partial structure of the present invention;

FIG. 3 is a cross-sectional view of a first partial structure of the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 3A in accordance with the present invention;

FIG. 5 is a perspective view of a second partial structure of the present invention;

FIG. 6 is a cross-sectional view of a second partial structure of the present invention;

FIG. 7 is a perspective view of a third partial structure of the present invention;

FIG. 8 is a cross-sectional view of a third partial structure of the present invention;

FIG. 9 is a cross-sectional view of a fourth partial structure of the present invention;

FIG. 10 is an enlarged view of the structure of FIG. 9 at B in accordance with the present invention.

In the figure: 1. a base; 2. a sterilizing box; 3. a control panel; 4. a steam disinfection bin; 5. a steam chamber cover; 6. wiping the disinfection bin; 7. wiping the bin cover; 8. a plasma disinfection chamber; 9. a plasma chamber cover; 10. a clamping mechanism; 1001. a moving chute; 1002. a clamping plate; 1003. an electric control telescopic rod; 1004. a limiting chute; 1005. a slip ring; 1006. a compression spring; 1007. a limiting slide bar; 1008. a clamp controller; 11. a work indicator light; 12. a B-ultrasonic probe body; 13. placing a bin; 14. a wire slot; 15. a support column; 16. an access door; 17. a high temperature disinfection mechanism; 1701. placing a groove; 1702. adjusting the groove; 1703. fixing the pressing plate; 1704. a high temperature sterilizer; 1705. a dust screen; 1706. a high temperature controller; 1707. a first battery; 1708. an electric telescopic rod; 18. buckling the plate; 19. a steam sterilizing mechanism; 1901. a servo motor; 1902. connecting the rotating rod; 1903. a steam sterilizer; 1904. a steam spray head; 1905. a water storage tank; 1906. a water conduit; 1907. a water pump; 1908. a water delivery pipe; 1909. a water feeding pipe; 1910. a steam controller; 1911. a second storage battery; 20. wiping the disinfection mechanism; 2001. a wiping component; 200101, a reciprocating slide seat; 200102, a rotating motor; 200103, transmission gear; 200104, driven rack; 200105, a liquid storage box; 200106, wiping disinfection pad; 2002. a liquid storage tank; 2003. a liquid pump; 2004. a liquid pumping controller; 2005. a catheter; 2006. a third storage battery; 2007. a limiting square groove; 21. a plasma disinfection mechanism; 2101. sterilizing the cavity; 2102. a filter; 2103. an air guide pipe; 2104. a plasma sterilizer; 2105. a photocatalyst component; 2106. an anion generator; 2107. a circulating air duct; 2108. an intelligent controller; 2109. a fourth storage battery; 2110. and a circulating fan.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-10, the present invention provides a technical solution: including base 1, base 1's bottom fixedly connected with disinfect box 2, disinfect box 2's surface mounting has control panel 3, steam disinfection storehouse 4 has been seted up on disinfect box 2's surface, steam storehouse lid 5 is installed at steam disinfection storehouse 4's top, disinfect box 2's surface has been seted up and has been cleaned disinfection storehouse 6, the top of cleaning disinfection storehouse 6 is installed and is cleaned storehouse lid 7, disinfect box 2's surface has been seted up plasma disinfection storehouse 8, plasma storehouse lid 9 is installed at plasma disinfection storehouse 8's top, steam disinfection storehouse 4, clean disinfection storehouse 6 and plasma disinfection storehouse 8's inside and all install fixture 10, disinfect box 2's surface is provided with work pilot lamp 11, disinfect box 2's top is provided with B super probe body 12, disinfect box 2's internally mounted has steam disinfection mechanism 19, and steam disinfection mechanism 19 uses with steam disinfection storehouse 4 cooperation, disinfect box 2's internally mounted has cleans disinfection mechanism 20, and clean disinfection mechanism 20 uses with the cooperation of disinfection storehouse 6, and clean disinfection mechanism 2's internally mounted has plasma disinfection mechanism 21, and plasma disinfection mechanism 21 uses with the cooperation of disinfection storehouse lid 13, and the equal four corners of disinfection storehouse lid 17, the equal four corners of disinfection storehouse lid is installed to clean disinfection storehouse lid 13, the high temperature disinfection mechanism 17, the high temperature disinfection storehouse lid is placed to the equal four corners of disinfection storehouse lid 16, disinfect box 17, the disinfection storehouse lid is installed to clean disinfection storehouse lid 16, the equal side of disinfection storehouse lid 13.

In this embodiment, through base 1, disinfect box 2, control panel 3, steam disinfection storehouse 4, steam storehouse lid 5, clean disinfection storehouse 6, clean storehouse lid 7, plasma disinfection storehouse 8, plasma storehouse lid 9, fixture 10, work pilot lamp 11, ultrasonic B probe body 12, steam disinfection mechanism 19, clean disinfection mechanism 20, plasma disinfection mechanism 21, place storehouse 13, high temperature disinfection mechanism 17, access door 16, wire casing 14, support column 15 and buckle 18's setting, can be better carry out disinfection treatment to ultrasonic B probe position, be favorable to disinfecting through steam, the antiseptic solution is cleaned the disinfection, plasma air disinfection and high temperature drying disinfection multiple mode disinfect the ultrasonic B probe, the sterile effect of ultrasonic B probe is surveyed to improvement, reduce the probability that cross infection appears in ultrasonic B probe repetitious usage, can make things convenient for medical personnel to disinfect treatment ultrasonic B probe simultaneously through the device, reduce medical personnel's manual the ultrasonic B probe cleaning number, for medical personnel provide convenience, save operating time, improve the follow-up progress that uses of ultrasonic B probe.

Specifically, fixture 10 is including removing spout 1001, grip block 1002, automatically controlled telescopic link 1003, spacing spout 1004, sliding ring 1005, compression spring 1006, spacing slide bar 1007 and clamp controller 1008, remove spout 1001 and offer in disinfect box 2, grip block 1002 sliding connection is in removing spout 1001, automatically controlled telescopic link 1003 is installed in disinfect box 2, and one side fixed connection of output and grip block 1002 of automatically controlled telescopic link 1003, spacing spout 1004 is offered in disinfect box 2, sliding ring 1005 sliding connection is in spacing spout 1004, compression spring 1006 installs between spacing spout 1004 and sliding ring 1005, spacing slide bar 1007 fixed connection is on sliding ring 1005, and the one end of spacing slide bar 1007 is connected with grip block 1002, clamp controller 1008 installs the one end in automatically controlled telescopic link 1003.

In this embodiment, through the setting of removing spout 1001, grip block 1002, automatically controlled telescopic link 1003, spacing spout 1004, sliding ring 1005, compression spring 1006, spacing slide bar 1007 and clamp controller 1008, can carry out the centre gripping steadily to needs sterile B ultrasonic probe body 12, be favorable to fixing sterile B ultrasonic probe body 12, make things convenient for medical personnel to carry out disinfection treatment to B ultrasonic probe body 12, improve the efficiency of disinfection work, save operating time.

Specifically, the shape of the clamping plate 1002 is consistent with the shape of the holding part of the B-ultrasonic probe body 12, the inner surface of the clamping plate 1002 is provided with anti-slip stripes, the clamping controller 1008 is used in match with the control panel 3, and the limiting sliding groove 1004 and the sliding ring 1005 are both cylindrical.

In this embodiment, can improve the result of use of grip block 1002, increase grip block 1002 and the stability of B ultrasonic probe body 12 surface contact to promote the spacing effect of B ultrasonic probe body 12, improve the sterile effect of B ultrasonic probe body 12 in disinfect box 2.

Specifically, the steam sterilizing mechanism 19 includes a servo motor 1901, a connecting rotating rod 1902, a steam sterilizer 1903, a steam spray nozzle 1904, a water storage tank 1905, a water conduit 1906, a water pump 1907, a water conduit 1908, a water adding pipe 1909, a steam controller 1910 and a second storage battery 1911, wherein the servo motor 1901 is installed in the base 1, the connecting rotating rod 1902 is installed in the sterilizing tank 2, one end of the connecting rotating rod 1902 is fixedly connected with an output end of the servo motor 1901, the steam sterilizer 1903 is installed on the connecting rotating rod 1902, the steam spray nozzle 1904 is installed on the steam sterilizer 1903, the water storage tank 1905 is installed in the sterilizing tank 2, the water conduit 1906 is communicated with the water storage tank 1905, the water pump 1907 is installed in the sterilizing tank 2, the water pump 1907 is communicated with the water conduit 1906, the water conduit 1908 is communicated with one end of the water pump 1907, the water conduit 1908 is communicated with the steam sterilizer 1903, the water adding pipe 1909 is communicated with the water storage tank 1905, one end of the water adding pipe 1909 penetrates through the surface of the steam sterilizer 1902, and the second storage battery 1911 is installed in the base of the steam sterilizer 1901.

In this embodiment, through servo motor 1901, connect bull stick 1902, steam sterilizer 1903, steam spray 1904, water storage tank 1905, aqueduct 1906, suction pump 1907, raceway 1908, filler pipe 1909, steam controller 1910 and second battery 1911's setting, can carry out steam sterilization to type-B ultrasonic probe body 12, heat penetrability through steam is strong, the improvement is to type-B ultrasonic probe body 12's sterilization efficiency, shorten type-B ultrasonic probe body 12's sterilization time, simultaneously can not produce any chemical physics pollution at type-B ultrasonic probe body 12's sterilization process, guarantee type-B ultrasonic probe body 12 disinfection job run's stability.

Specifically, the water conduit 1906 and the water conduit 1908 are both made of elastic metal hoses, the steam sterilizer 1903 is made of a high-pressure steam sterilizer, and the steam spray head 1904 is made of a fan-shaped nozzle.

In this embodiment, practicality through promoting aqueduct 1906 and raceway 1908 to better rotate according to servo motor 1901 and use, servo motor 1901 comes and goes the turned angle through steam controller 1910 and sets for 30 with servo motor 1901, thereby drives steam sterilizer 1903 and steam shower nozzle 1904 and reciprocates and disinfect ultrasonic probe body 12, improves ultrasonic probe body 12 disinfection's comprehensiveness.

Specifically, the wiping and disinfecting mechanism 20 includes a wiping assembly 2001, a liquid storage tank 2002, a liquid pumping pump 2003, a liquid pumping controller 2004, a liquid guide pipe 2005, a third storage battery 2006 and a limit square groove 2007, the wiping assembly 2001 is installed in the disinfection tank 2, the liquid storage tank 2002 is arranged in the disinfection tank 2, the liquid pumping pump 2003 is communicated with the liquid storage tank 2002, the liquid pumping controller 2004 is installed in the disinfection tank 2, the liquid pumping controller 2004 is electrically connected with the liquid pumping pump 2003, the liquid guide pipe 2005 is communicated with an output end of the liquid pumping pump 2003, the third storage battery 2006 is arranged in the disinfection tank 2, and the limit square groove 2007 is opened in the disinfection tank 2;

the wiping component 2001 comprises a reciprocating sliding seat 200101, a rotating motor 200102, a transmission gear 200103, a driven rack 200104, a liquid storage box 200105 and a wiping disinfection pad 200106, the reciprocating sliding seat 200101 is connected in a limiting square groove 2007 in a sliding mode, the rotating motor 200102 is installed in the disinfection box 2, the transmission gear 200103 is installed in the disinfection box 2, one end of the transmission gear 200103 is fixedly connected with the output end of the rotating motor 200102, the driven rack 200104 is installed on the reciprocating sliding seat 200101, the liquid storage box 200105 is fixedly connected to the top of the reciprocating sliding seat 200101, and the wiping disinfection pad 200106 is installed in the liquid storage box 200105.

In this embodiment, the wiping assembly 2001, the liquid storage tank 2002, the liquid drawing pump 2003, the liquid drawing controller 2004, the liquid guide tube 2005, the third storage battery 2006, the limiting square groove 2007, the reciprocating slide seat 200101, the rotating motor 200102, the transmission gear 200103, the driven rack 200104, the liquid storage box 200105 and the wiping disinfection pad 200106 are arranged, so that the detection part of the B-ultrasonic probe body 12 can be wiped in a reciprocating manner through a disinfection solution, the B-ultrasonic probe body 12 is sterilized and disinfected through the disinfection solution, and the cleaning effect of the detection part of the B-ultrasonic probe body 12 is improved.

Specifically, the liquid pumping controller 2004 is used in pair with the control panel 3, the type of the liquid guide tube 2005 is an elastic metal hose, the type of the transmission gear 200103 is a half gear, the transmission gear 200103 is engaged with the driven rack 200104 for use, one end of the photocatalyst component 2105 penetrates into the liquid storage box 200105, one end of the photocatalyst component 2105 is communicated with the wiping disinfection pad 200106, the type of the wiping disinfection pad 200106 is a liquid absorbing disinfection wiping cotton, and the wiping disinfection pad 200106 is matched with the detection end of the B-ultrasonic probe body 12 for use.

In this embodiment, the B-ultrasonic probe body 12 can be better cleaned and disinfected, so that the cleaning and disinfecting efficiency of the B-ultrasonic probe body 12 is improved, the cleaning and disinfecting time is saved, and the disinfecting effect of the B-ultrasonic probe body 12 is improved.

Specifically, the plasma disinfection mechanism 21 includes a disinfection cavity 2101, a filter 2102, an air guide tube 2103, a plasma sterilizer 2104, a photocatalyst assembly 2105, a negative ion generator 2106, a circulating air tube 2107, an intelligent controller 2108, a fourth storage battery 2109 and a circulating fan 2110, the disinfection cavity 2101 is arranged in the disinfection box 2, the filter 2102 is arranged in the disinfection box 2, the circulating fan 2110 is communicated with one end of the filter 2102, the air guide tube 2103 is communicated with one end of the circulating fan 2110, the plasma sterilizer 2104 is arranged in the disinfection cavity 2101, the plasma sterilizer 2104 is communicated with the air guide tube 2103, the photocatalyst assembly 2105 is arranged on the disinfection cavity 2101, the photocatalyst assembly 2105 is communicated with the air guide tube 2103, the negative ion generator 2106 is arranged at one end of the disinfection cavity 2101, the negative ion generator 2106 is communicated with the air guide tube 2103, the circulating air tube 2107 is communicated in the disinfection cavity 2101, one end of the air tube 2107 is communicated with the filter 2102, the intelligent controller 2108 is arranged in the intelligent storage battery box 2102, and the fourth storage battery 2101 is arranged in the base 2101.

In this embodiment, through the arrangement of the disinfection cavity 2101, the filter 2102, the air guide pipe 2103, the plasma sterilizer 2104, the photocatalyst component 2105, the anion generator 2106, the circulating air pipe 2107, the intelligent controller 2108, the fourth storage battery 2109 and the circulating fan 2110, the B-ultrasonic probe body 12 can be disinfected through various sterilization components, which is beneficial to eliminating stubborn germs attached to the surface of the B-ultrasonic probe body 12 and improves the disinfection effect of the B-ultrasonic probe body 12.

Specifically, the filter 2102 is an antibacterial and mildewproof filter, the intelligent controller 2108 is used in cooperation with the filter 2102, the plasma sterilizer 2104, the photocatalyst assembly 2105, the negative ion generator 2106 and the circulating fan 2110, and the intelligent controller 2108 is used in a matching manner with the control panel 3.

In this embodiment, the bacterium to in 2 inside air of disinfect boxes that can be better carries out filtration treatment, is favorable to promoting the sterile effect of the continuous cycle of B ultrasonic probe body 12, improves the intensity of 12 disinfection and isolation of B ultrasonic probe body.

Specifically, the high-temperature disinfection mechanism 17 includes a placing groove 1701, an adjusting groove 1702, a fixing pressing plate 1703, a high-temperature sterilizer 1704, a dust screen 1705, a high-temperature controller 1706, a first storage battery 1707 and an electric telescopic rod 1708, the placing groove 1701 is arranged in the disinfection box 2, the adjusting groove 1702 is arranged in the disinfection box 2, the fixing pressing plate 1703 is connected in the adjusting groove 1702 in a sliding manner, the high-temperature sterilizer 1704 is installed on one side of the placing groove 1701, the dust screen 1705 is installed on one side of the high-temperature sterilizer 1704, the high-temperature controller 1706 is installed in the disinfection box 2, the high-temperature controller 1706 is electrically connected with the high-temperature sterilizer 1704, the high-temperature controller 1706 is paired with the control panel 3 for use, the first storage battery 1707 is installed in the disinfection box 2, the electric telescopic rod 1708 is installed in the disinfection box 2, the output end of the electric telescopic rod 1708 is fixedly connected with the fixing pressing plate 1703, and the electric telescopic rod 1708 is used in cooperation with the control panel 3 for use.

In this embodiment, through placing recess 1701, adjust recess 1702, fixed pressing plate 1703, pasteurization 1704, dust screen 1705, high temperature controller 1706, first battery 1707 and electric telescopic handle 1708's setting, can carry out the high temperature drying sterilization to B ultrasonic probe body 12, be favorable to carrying out high temperature sterilization to ordinary germ, and the mode through physics sterilization also can play certain bactericidal effect to other microorganisms, thereby promote the sterile effect of B ultrasonic probe body 12.

When in use, firstly, medical personnel uses the B-ultrasonic probe body 12 to carry out B-ultrasonic examination on a patient, places the base 1 on a B-ultrasonic examination table through the supporting column 15, then the medical personnel rotates and opens the steam chamber cover 5 through the buckle plate 18, then vertically places the used B-ultrasonic probe body 12 into the steam disinfection chamber 4, then controls the clamping controller 1008 through the control panel 3 to start the electric control telescopic rods 1003 at two sides of the steam disinfection chamber 4 to extend, then the electric control telescopic rods 1003 drive the clamping plate 1002 to move towards the inside of the steam disinfection chamber 1001 in the moving sliding groove, then the limiting slide rods 1007 and the slip ring 1005 move along with the clamping plate 1002, and then stably clamps the B-ultrasonic probe body 12 through the clamping plate 1002, then the steam chamber cover 5 is turned over and covered to the original position, at the moment, the connecting line of the B-ultrasonic probe body 12 is positioned in the wire slot 14, then medical staff starts the steam sterilization mechanism 19 to work through the control panel 3, water in the water storage tank 1905 is pumped into the steam sterilizer 1903 through the water suction pump 1907, the water is converted into high-temperature steam through the steam sterilizer 1903 and the steam spray nozzle 1904 and is sprayed to the detection end of the B-ultrasonic probe body 12, then the steam controller 1910 is controlled through the control panel 3 to start the servo motor 1901 to rotate back and forth, the rotation angle is 30 degrees, and then the rotating rod 1902, the steam sterilizer 1903 and the steam spray nozzle 1904 are connected to perform steam sterilization on the B-ultrasonic probe body 12 back and forth;

after the B-ultrasonic probe body 12 is subjected to steam sterilization, the B-ultrasonic probe body 12 is taken out from the steam sterilization bin 4 and placed in the wiping sterilization bin 6, then the B-ultrasonic probe body 12 is fixed through the clamping mechanisms 10 at two sides of the wiping sterilization bin 6, then the wiping sterilization mechanism 20 is started through the control panel 3 to clean a wiping sterilization liquid at a detection part of the B-ultrasonic probe body 12, at the moment, the control panel 3 starts the rotating motor 200102 to drive the transmission gear 200103 to rotate, the reciprocating slide seat 200101 slides in the limit square groove 2007 in a reciprocating manner through the meshing of the transmission gear 200103 and the driven rack 200104, the wiping sterilization pad 200106 on the liquid storage box 200105 is driven to wipe the surface of the detection end of the B-ultrasonic probe body 12, meanwhile, the liquid pumping controller 2004 is controlled through the control panel 3 to start the liquid pumping controller 2003 to pump out the sterilization liquid in the liquid storage box 2002, and the sterilization liquid is guided into the wiping sterilization pad 200106 through the liquid guide pipe 2005, so that the sterilization liquid is coated on the B-ultrasonic probe body 12 for sterilization;

after the B-ultrasonic probe body 12 is cleaned and disinfected, the B-ultrasonic probe body 12 is taken out from the cleaning and disinfecting bin 6 and placed in the plasma disinfecting bin 8, then the B-ultrasonic probe body 12 is fixed through the clamping mechanisms 10 on the two sides of the plasma disinfecting bin 8, then the plasma disinfecting mechanism 21 is started through the control panel 3 to work, at the moment, the intelligent controller 2108 is started through the control panel 3 to control the filter 2102, the circulating fan 2110, the plasma disinfector 2104, the photocatalyst assembly 2105 and the anion generator 2106 to work simultaneously, the air in the disinfecting cavity 2101 is subjected to circulating sterilization treatment through the filter 2102, the circulating air pipe 2107, the circulating fan 2110 and the air guide pipe 2103, and the air and the B-ultrasonic probe body 12 are subjected to plasma sterilization treatment through the plasma disinfector 2104, the photocatalyst assembly 2105 and the anion generator 2106;

after the B-ultrasonic probe body 12 is subjected to plasma sterilization, the B-ultrasonic probe body 12 is taken out of the plasma sterilization bin 8 and placed in the high-temperature sterilization mechanism 17 from the placement bin 13, at the moment, the electric telescopic rod 1708 is started through the control panel 3 to drive the fixed pressing plate 1703 to move upwards, then the B-ultrasonic probe body 12 is placed in the placement groove 1701, then the electric telescopic rod 1708 is controlled to contract, the fixed pressing plate 1703 is clamped to the surface of the holding part of the B-ultrasonic probe body 12, and then the control panel 3 controls the high-temperature controller 1706 to start the high-temperature sterilizer 1704 to perform high-temperature drying sterilization, so that the high-temperature sterilization of the detection end of the B-ultrasonic probe body 12 is realized;

after the B-ultrasonic probe body 12 is completely disinfected, the B-ultrasonic probe body 12 is taken out from the disinfecting device, and a couplant used for B-ultrasonic examination is coated on the B-ultrasonic probe body 12 to carry out B-ultrasonic examination on a patient.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention, the technical solutions and the novel concepts of the present invention equivalent or changed within the technical scope of the present invention.

Claims (10)

1. Ultrasonic medicine branch of academic or vocational study is with B ultrasonic probe self-sterilizer, its characterized in that: comprises a base (1), a disinfection box (2) is fixedly connected with the bottom of the base (1), a control panel (3) is arranged on the surface of the disinfection box (2), a steam disinfection bin (4) is arranged on the surface of the disinfection box (2), a steam bin cover (5) is arranged on the top of the steam disinfection bin (4), a cleaning disinfection bin (6) is arranged on the surface of the disinfection box (2), a cleaning bin cover (7) is arranged on the top of the cleaning disinfection bin (6), a plasma disinfection bin (8) is arranged on the surface of the disinfection box (2), a plasma bin cover (9) is arranged on the top of the plasma disinfection bin (8), a clamping mechanism (10) is arranged inside the steam disinfection bin (4), the cleaning disinfection bin (6) and the plasma disinfection bin (8), a work indicator lamp (11) is arranged on the surface of the disinfection box (2), a B-ultrasonic probe body (12) is arranged above the disinfection box (2), a steam disinfection mechanism (19) is arranged inside the disinfection box (2), the steam disinfection mechanism (19) and the steam disinfection bin (4) are matched with the cleaning disinfection bin (20), and the cleaning disinfection bin (6) is used, the internally mounted of disinfect box (2) has plasma disinfection mechanism (21), and plasma disinfection mechanism (21) and plasma disinfection storehouse (8) cooperation use, one side of disinfect box (2) has been seted up and has been placed storehouse (13), the internally mounted of disinfect box (2) has high temperature disinfection mechanism (17), and high temperature disinfection mechanism (17) and place storehouse (13) cooperation and use, access door (16) are installed to the opposite side of disinfect box (2), steam storehouse lid (5), clean storehouse lid (7), plasma storehouse lid (9) and the surface of placing storehouse (13) has all seted up wire casing (14), the equal fixedly connected with support column in four corners (15) of base (1) bottom, buckle (18) are all installed to steam storehouse lid (5), one side of cleaning storehouse lid (7) and plasma storehouse lid (9).

2. The ultrasonic-medical-department automatic B-ultrasonic-probe sterilizing device according to claim 1, characterized in that: the clamping mechanism (10) comprises a moving sliding groove (1001), a clamping plate (1002), an electric control telescopic rod (1003), a limiting sliding groove (1004), a sliding ring (1005), a compression spring (1006), a limiting sliding rod (1007) and a clamping controller (1008), wherein the moving sliding groove (1001) is arranged in the disinfection box (2), the clamping plate (1002) is connected in the moving sliding groove (1001) in a sliding mode, the electric control telescopic rod (1003) is arranged in the disinfection box (2), the output end of the electric control telescopic rod (1003) is fixedly connected with one side of the clamping plate (1002), the limiting sliding groove (1004) is arranged in the disinfection box (2), the sliding ring (1005) is connected in the limiting sliding groove (1004) in a sliding mode, the compression spring (1006) is arranged between the limiting sliding groove (1004) and the sliding ring (1005), the limiting sliding rod (1007) is fixedly connected to the sliding ring (1005), one end of the limiting sliding rod (1007) is connected to the clamping plate (1002), and the clamping controller (1008) is arranged at one end of the electric control telescopic rod (1003).

3. The ultrasonic-medical-department automatic B-ultrasonic-probe sterilizing device according to claim 2, characterized in that: the shape of grip block (1002) is unanimous with the shape at type-B ultrasonic probe body (12) portion of gripping, and the internal surface of grip block (1002) is provided with anti-skidding stripe, clamp controller (1008) and control panel (3) pair and use, the shape of spacing spout (1004) and sliding ring (1005) all is the cylinder type.

4. The ultrasonic-medical-department automatic B-ultrasonic-probe sterilizing device according to claim 1, characterized in that: the steam disinfection mechanism (19) comprises a servo motor (1901), a connecting rotating rod (1902), a steam sterilizer (1903), a steam spray head (1904), a water storage tank (1905), a water guide pipe (1906), a water suction pump (1907), a water conveying pipe (1908), a water adding pipe (1909), a steam controller (1910) and a second storage battery (1911), wherein the servo motor (1901) is installed in a base (1), the connecting rotating rod (1902) is installed in the disinfection tank (2), one end of the connecting rotating rod (1902) is fixedly connected with the output end of the servo motor (1901), the steam sterilizer (1903) is installed on the connecting rotating rod (1903), the steam spray head (1904) is installed on the steam sterilizer (1903), the water storage tank (1905) is arranged in the disinfection tank (2), the water guide pipe (1906) is communicated with the water storage tank (1905), the water suction pump (1907) is installed in the disinfection tank (1902), the water suction pump (1907) is communicated with the water guide pipe (1906), the water conveying pipe (1908) is communicated with the water adding pipe (1907) and the water conveying pipe (1908) is communicated with the surface of the water conveying pipe (1902), and the water storage tank (1907) is communicated with the water conveying pipe (1908), the steam controller (1910) is installed at one end of the servo motor (1901), and the second storage battery (1911) is arranged in the base (1).

5. The apparatus for automatically sterilizing a B-ultrasonic probe for sonography according to claim 4, wherein: the water guide pipe (1906) and the water delivery pipe (1908) are both elastic metal hoses, the steam sterilizer (1903) is a high-pressure steam sterilizer, and the steam nozzle (1904) is a fan-shaped nozzle.

6. The apparatus for automatically sterilizing a B-ultrasonic probe according to claim 1, wherein: the wiping and disinfecting mechanism (20) comprises a wiping component (2001), a liquid storage box (2002), a liquid drawing pump (2003), a liquid drawing controller (2004), a liquid guide pipe (2005), a third storage battery (2006) and a limit square groove (2007), wherein the wiping component (2001) is installed in the disinfecting box (2), the liquid storage box (2002) is arranged in the disinfecting box (2), the liquid drawing pump (2003) is communicated in the liquid storage box (2002), the liquid drawing controller (2004) is installed in the disinfecting box (2), the liquid drawing controller (2004) is electrically connected with the liquid drawing pump (2003), the liquid guide pipe (2005) is communicated with the output end of the liquid drawing pump (2003), the third storage battery (2006) is arranged in the disinfecting box (2), and the limit square groove (2007) is formed in the disinfecting box (2);

the wiping component (2001) comprises a reciprocating sliding seat (200101), a rotating motor (200102), a transmission gear (200103), a driven rack (200104), a liquid storage box (200105) and a wiping disinfection pad (200106), wherein the reciprocating sliding seat (200101) is connected in a limiting square groove (2007) in a sliding mode, the rotating motor (200102) is installed in the disinfection box (2), the transmission gear (200103) is installed in the disinfection box (2), one end of the transmission gear (200103) is fixedly connected with the output end of the rotating motor (200102), the driven rack (200104) is installed on the reciprocating sliding seat (200101), the liquid storage box (200105) is fixedly connected to the top of the reciprocating sliding seat (200101), and the wiping disinfection pad (200106) is installed in the liquid storage box (200105).

7. The apparatus for automatically sterilizing a B-ultrasonic probe according to claim 6, wherein: the liquid pumping controller (2004) is matched with the control panel (3) for use, the liquid guide pipe (2005) is an elastic metal hose, the transmission gear (200103) is a half gear, the transmission gear (200103) is meshed with the driven rack (200104) for use, one end of the photocatalyst component (2105) penetrates into the liquid storage box (200105), one end of the photocatalyst component (2105) is communicated with the wiping disinfection pad (200106), the wiping disinfection pad (200106) is a liquid suction disinfection wiping cotton, and the wiping disinfection pad (200106) is matched with the detection end of the B-ultrasonic probe body (12) for use.

8. The ultrasonic-medical-department automatic B-ultrasonic-probe sterilizing device according to claim 1, characterized in that: the plasma disinfection mechanism (21) comprises a disinfection cavity (2101), a filter (2102), an air guide pipe (2103), a plasma disinfector (2104), a photocatalyst component (2105), a negative ion generator (2106), a circulating air pipe (2107), an intelligent controller (2108), a fourth storage battery (2109) and a circulating fan (2110), wherein the disinfection cavity (2101) is arranged in the disinfection box (2), the filter (2102) is arranged in the disinfection box (2), the circulating fan (2110) is communicated with one end of the filter (2102), the air guide pipe (2103) is communicated with one end of the circulating fan (2110), the plasma disinfector (2104) is arranged in the disinfection cavity (2101), the plasma disinfector (2104) is communicated with the air guide pipe (2103), the photocatalyst component (2105) is arranged on the disinfection cavity (2101), the photocatalyst component (2105) is communicated with the air guide pipe (2103), the negative ion generator (2106) is arranged at one end of the disinfection cavity (2101), the photocatalyst component (2106) is communicated with the circulating air guide pipe (2107) in the disinfection cavity (2101), and the circulating air guide pipe (2107) is communicated with the circulating fan (2110), the fourth storage battery (2109) is arranged in the base (1).

9. The apparatus for automatically sterilizing a B-ultrasonic probe for sonography according to claim 7, wherein: the filter (2102) is an antibacterial and mildewproof filter, the intelligent controller (2108) is matched with the filter (2102), the plasma sterilizer (2104), the photocatalyst assembly (2105), the negative ion generator (2106) and the circulating fan (2110) for use, and the intelligent controller (2108) is matched with the control panel (3) for use.

10. The ultrasonic-medical-department automatic B-ultrasonic-probe sterilizing device according to claim 1, characterized in that: the high-temperature disinfection mechanism (17) comprises a placing groove (1701), an adjusting groove (1702), a fixing pressing plate (1703), a high-temperature sterilizer (1704), a dust screen (1705), a high-temperature controller (1706), a first storage battery (1707) and an electric telescopic rod (1708), wherein the placing groove (1701) is arranged in the disinfection box (2), the adjusting groove (1702) is arranged in the disinfection box (2), the fixing pressing plate (1703) is connected in the adjusting groove (1702) in a sliding mode, the high-temperature sterilizer (1704) is arranged on one side of the placing groove (1701), the dust screen (1705) is arranged on one side of the high-temperature sterilizer (1704), the high-temperature controller (1706) is arranged in the disinfection box (2), the high-temperature controller (1706) is electrically connected with the high-temperature sterilizer (1704), the high-temperature controller (1706) is paired with the control panel (3), the first storage battery (1707) is arranged in the disinfection box (2), the electric telescopic rod (1708) is arranged in the disinfection box (1702), the output end of the electric telescopic rod (1708) is connected with the fixing pressing plate (1703), and the electric telescopic rod (1708) is matched with the electric telescopic rod (1703).

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