CN115337427A - Ultrasonic probe disinfecting equipment - Google Patents

Abstract

An ultrasonic probe disinfection device comprises a disinfection box; the clamping device is arranged on the top surface of the disinfection box and used for fixing the probe; the sterilizing device is arranged in the sterilizing box and used for cleaning and sterilizing the coupling agent on the surface of the probe; the moving device is arranged between the inner cavity of the disinfection box and the disinfection device and used for adjusting the position of the disinfection device; the invention has the advantages that: the probe is disinfected by adopting disinfection equipment, so that the labor intensity of medical personnel is reduced, and manual cleaning and disinfection are not needed; the couplant at the corners of the probe can be cleaned, so that residues and bacteria breeding are avoided; the disinfection device can move the position and the height of the disinfection device, thereby being suitable for probes of various types and sizes and having stronger universality. The cleaning and the disinfection of the bag are convenient to follow-up; this disinfecting equipment is through removing degassing unit's position, and at the in-process that clears up the couplant on probe surface, the size of its clearance dynamics is controlled, avoids haring the probe, reduces the life of probe.

Description

Ultrasonic probe disinfecting equipment

Technical Field

The invention relates to probe disinfection equipment, in particular to ultrasonic probe disinfection equipment.

Background

An ultrasonic probe is one of essential parts of an ultrasonic diagnostic apparatus, and is used in the field of ultrasonic diagnosis. In the examination process, the ultrasonic probe is directly contacted with the body part of the patient to be examined after being coated with the couplant, and is a component with higher pollution and infection risks. In the medical field, the sanitary conditions of medical equipment must be strictly controlled. The ultrasonic probe is used as a common medical diagnostic device, and the medical health industry further puts forward the disinfection requirement of 'one person can disinfect by one person'. Therefore, after the ultrasonic probe is detected, strict cleaning and disinfection are required.

Nowadays, the common probe disinfection method is as follows: after the medical staff finishes the examination of the patient, the paper towel is firstly used to wipe off the couplant on the surface of the probe. Then spraying alcohol on the surface of the probe for disinfection. This type of sterilization is not thorough. Couplant on the surface of the probe is easy to remain in gaps at corners of the probe in the cleaning process before disinfection. Therefore, a sterilizing apparatus for an ultrasonic probe has been produced. However, when the probe is disinfected by the disinfection equipment, probes with different sizes and specifications are often required to be equipped with different disinfection equipment, and the universality of the disinfection equipment is poor; while disinfecting equipment is when the couplant on clearance probe surface, the size of uncontrollable clearance dynamics, in order to clear up the couplant of clean corner, often the clearance dynamics is great. The long-term use easily damages the probe, reduces the life of the probe.

In view of the above problems, there is a need for an ultrasonic probe disinfection apparatus that meets the requirements for probe disinfection.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides ultrasonic probe disinfection equipment.

The purpose of the invention is realized by the following steps:

an ultrasonic probe sterilizing apparatus includes a sterilizing chamber;

the clamping device is arranged on the top surface of the sterilizing box and used for fixing the probe;

the sterilizing device is arranged in the sterilizing box and is used for cleaning and sterilizing the coupling agent on the surface of the probe;

and the moving device is arranged between the inner cavity of the sterilizing box and the sterilizing device and used for adjusting the position of the sterilizing device.

Furthermore, the clamping device comprises a fixed clamping component and a movable clamping component, a lead-in groove is formed in the top surface of the inner cavity of the disinfection box in a penetrating mode, the fixed clamping component and the movable clamping component are arranged on the top surface of the disinfection box on the two sides of the lead-in groove respectively, and the probe is fixed through the cooperation of the fixed clamping component, the movable clamping component and the lead-in groove.

Further, the fixed clamping assembly comprises a fixed mounting plate and fixed calipers, the top surface of the disinfection box on one side of the lead-in groove is provided with the fixed mounting plate, one side of the fixed mounting plate is provided with the fixed calipers, and the fixed calipers face the movable clamping assembly.

Furthermore, the movable clamping assembly comprises a movable mounting plate, a movable push rod and movable calipers, the movable mounting plate is arranged on the top surface of the disinfection box on one side of the lead-in groove, the movable push rod is mounted on one side of the movable mounting plate, the movable calipers are arranged at the movable end of the movable push rod, and the movable calipers face the fixed clamping assembly.

Furthermore, a fixing plug is arranged on one side in the leading-in groove.

Further, degassing unit includes disinfection frame, side disinfection subassembly, bottom surface disinfection subassembly spray the subassembly, mobile device's removal end sets up the disinfection frame, disinfection frame inner chamber bottom surface installation the bottom surface disinfection subassembly, the disinfection frame inner chamber left and right sides is all installed the side disinfection subassembly, bottom surface disinfection subassembly and two the transmission is connected between the side disinfection subassembly, spray the subassembly setting and be in disinfection frame upper portion for spray the agent for the disinfection, the bottom surface disinfection subassembly the side disinfection subassembly carries out couplant clearance and disinfection to the bottom surface, the side of probe respectively.

Further, bottom surface disinfection subassembly includes bottom surface transfer line, bottom surface sprocket, bottom surface chain, bottom surface disinfection area, disinfection motor, driving gear, both sides are rotated respectively around disinfection frame inner chamber lower part and are connected with the bottom surface transfer line, the installation in the disinfection frame outside the disinfection motor, the output shaft of disinfection motor extends to disinfection frame is inboard, and with bottom surface transfer line one end fixed connection, set up on the bottom surface transfer line the driving gear, the driving gear with the transmission is connected between the side disinfection subassembly, two be provided with a plurality of groups on the bottom surface transfer line the bottom surface sprocket, same group the bottom surface sprocket is located same plumb plane, same group the bottom surface sprocket outside sets up the bottom surface chain, it is a plurality of the bottom surface chain outside sets up the bottom surface disinfection area.

Furthermore, an arc-shaped groove is formed in the middle of the surface of the bottom surface disinfection belt.

Further, side disinfection subassembly includes side fixed plate, side transfer line, side sprocket, side chain, side disinfection area, driven gear, disinfection frame inner chamber side sets up a pair ofly side fixed plate, two rotate respectively between the both sides around the side fixed plate and connect the side transfer line, side transfer line one end extends to the side fixed plate outside, and set up driven gear, driven gear with the transmission is connected between the bottom surface disinfection subassembly, two be provided with a plurality of groups on the side transfer line side sprocket, same group the side sprocket is located same horizontal plane, same group the bottom surface sprocket outside sets up the side chain, and is a plurality of the side chain outside sets up the side disinfection area.

Further, the mobile device includes lifting unit, transmission case, translation subassembly, disinfect box inner chamber bottom surface installation lifting unit, the lifting unit top surface sets up the transmission case, transmission case internally mounted translation subassembly, translation subassembly's output extends to transmission case upper portion, and sets up degassing unit, lifting unit translation subassembly controls respectively degassing unit's lift, translation.

Further, the lifting component comprises a lifting push rod and a stabilizing telescopic rod, the lifting push rod is installed on the bottom surface of the inner cavity of the disinfection box, the output end of the lifting push rod is arranged on the transmission box, and a plurality of stabilizing telescopic rods are arranged between the transmission box and the bottom surface of the disinfection box.

Further, the translation subassembly includes translation limiting plate, translation fixed block, connecting rod, motor mounting panel, translation motor, cam, push rod, pendulum rod, connecting rod, fixed otic placode, translation section of thick bamboo, translation pole, spring, the parallel setting in transmission case inner chamber bottom surface is a plurality of translation limiting plate, translation limiting plate top surface sliding connection the translation fixed block, the transmission groove has been seted up that the transmission case top surface runs through, translation fixed block top is passed through the transmission groove extends to transmission case upper portion, and with degassing unit bottom fixed connection, it is a plurality of translation fixed block one side sets up the connecting rod, transmission case one side sets up the motor mounting panel, motor mounting panel side-mounting the translation motor, the output of translation motor sets up the cam, the cam outside is rotated and is connected the push rod, the push rod other end is rotated and is connected the pendulum rod, the pendulum rod other end is rotated and is connected the connecting rod, the transmission case inner chamber sets up a pair of fixed otic placode, two set up between the fixed otic placode the translation section of thick bamboo, sliding connection in the translation section of thick bamboo, the translation pole both sides wall, the translation pole both ends all extend to the translation section of thick bamboo outside, translation pole and the translation pole middle part is provided with the translation pole is connected the length is protruding with the translation pole.

Further, the spraying assembly comprises a linear motor platform, a connecting plate, a sliding plate, a spray head, a storage box and a pump body, wherein the linear motor platform is installed at the upper part of the disinfection device, the connecting plate is arranged on the surface of a sliding block of the linear motor platform, the sliding plate is arranged on the bottom surface of the connecting plate, the sliding plate is connected with the upper part of the disinfection device in a sliding mode, and the spray head is installed in the middle of the bottom surface of the sliding plate;

the disinfect box outside sets up the bin, bin one side-mounting the pump body, pump body input with the bin pump body output with all communicate through the pipeline between the shower nozzle.

Further, the device also comprises a collecting device which is arranged at the rear side of the inner cavity of the sterilizing box and is used for collecting the splashed sterilizing agent and the coupling agent.

Further, collection device is including accepting the board, absorbing cotton, contact tube, ooff valve, disinfect box inner chamber bottom surface rear side sets up accept the board, it sets up to accept the board top surface absorb the cotton, it has seted up the collecting vat to accept the board top surface, the collecting vat rear side sets up the contact tube, the contact tube extends to the disinfect box outside, and set up the ooff valve.

Furthermore, a plurality of guide grooves are formed in the front side face of the absorbing cotton, and the guide grooves penetrate along the height direction of the front side face of the absorbing cotton.

The invention has the advantages that:

1. the probe is disinfected by adopting disinfection equipment, so that the labor intensity of medical personnel is reduced, and manual cleaning and disinfection are not needed; on the other hand can avoid remaining with the couplant clean up of probe edge, breed the bacterium.

2. The disinfection device can move the position and the height of the disinfection device, thereby being suitable for probes of various types and sizes and having stronger universality. The cleaning and the disinfection of the utility model can be conveniently carried out subsequently.

3. This disinfecting equipment is through removing degassing unit's position, and at the in-process that clears up the couplant on probe surface, the size of its clearance dynamics is controlled, avoids haring the probe, reduces the life of probe.

4. This disinfecting equipment is provided with the disinfection subassembly of three sides in the disinfect box, is convenient for to changing under the condition of probe form, can clear up, disinfect to probe trilateral, has improved clearance, sterile efficiency, shortens the time.

5. The translation subassembly is at the in-process of removing degassing unit, when touching the probe, can become the flexible contact with rigid contact, further protects the probe, avoids damaging.

Drawings

Fig. 1 is a schematic structural diagram of an ultrasonic probe disinfection device.

Fig. 2 is a schematic sectional structure diagram of an ultrasonic probe disinfection device.

Fig. 3 is a schematic structural view of the clamping device.

Fig. 4 is a schematic sectional structure view of the sterilizing apparatus.

Fig. 5 is a first structural diagram of a mobile device.

FIG. 6 is a cross-sectional structural view of the translation cylinder.

Fig. 7 is a schematic sectional structural diagram of an ultrasonic probe disinfection apparatus.

Fig. 8 is a second schematic structural diagram of the mobile device.

Fig. 9 is a schematic sectional structure view of the collecting device.

In the figure: 1. a disinfection box, 11, an introduction groove, 12, a fixed plug, 13, an access door, 14, an observation window;

2. a clamping device;

21. fixing a clamping assembly, 211, fixing a mounting plate, 212, and fixing a caliper;

22. the clamp comprises a movable clamping assembly, 221, a movable mounting plate, 222, a movable push rod, 223 and a movable caliper;

3. a sterilizing device 31, a sterilizing frame;

32. side sterilizing component 321, side fixing plate 322, side driving rod 323, side chain wheel 324, side chain 325, side sterilizing belt 326, driven gear;

33. the bottom surface disinfection device comprises a bottom surface disinfection component 331, a bottom surface transmission rod 332, a bottom surface chain wheel 333, a bottom surface chain 334, a bottom surface disinfection belt 3341, an arc-shaped groove 335, a disinfection motor 336 and a driving gear;

34. the sprayer comprises a spraying assembly, 341, a linear motor platform, 342, a connecting plate, 343, a sliding plate, 344, a sprayer, 345, a storage tank and 346, and a pump body;

4. the moving device 41, the lifting component 411, the lifting push rod 412 and the stable telescopic rod are arranged on the base;

42. a transmission case;

43. the device comprises a translation assembly, 431, a translation limit plate, 432, a translation fixed block, 433, a connecting rod, 434, a motor mounting plate, 435, a translation motor, 436, a cam, 437, a push rod, 438, a swing rod, 439, a connecting rod, 440, a fixed lug plate, 441, a translation cylinder, 442, a translation rod, 443, a spring and 444, a limit protrusion;

5. the device comprises a collecting device, 51, a blocking plate, 52, a bearing plate, 521, a collecting tank, 53, absorbent cotton, 531, a diversion trench, 54, a delivery pipe, 55 and a switch valve.

Detailed Description

In order to make the technical solutions in the embodiments of the present application better understood, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the application provides an ultrasonic probe disinfecting equipment.

Example 1, as shown in FIGS. 1-9.

An ultrasonic probe disinfection device comprises a disinfection box 1, wherein the disinfection of a probe is completed in the disinfection box 1.

The device also comprises a clamping device 2 which is arranged on the top surface of the sterilizing box 1 and used for fixing the probe.

The clamping device 2 comprises a fixed clamping component 21 and a movable clamping component 22, the top surface of the inner cavity of the disinfection box 1 is provided with an introduction groove 11 in a penetrating way, and the top surfaces of the disinfection box 1 at the two sides of the introduction groove 11 are respectively provided with the fixed clamping component 21 and the movable clamping component 22. The probe is fixed by the cooperation of the fixed clamping component 21, the movable clamping component 22 and the introduction groove 11. The probe extends into the disinfection box 1 from the lead-in groove 11, the fixed clamping component 21, the movable clamping component 22 and the lead-in groove 11 are matched, the movable clamping component 22 pushes the handheld handle of the probe to the side wall surfaces of the fixed clamping component and the lead-in groove 11, and the probe is firmly fixed through the friction force between the fixed clamping component and the handheld handle of the probe.

The fixed clamp assembly 21 includes a fixed mounting plate 211, a fixed caliper 212. The top surface of the disinfection box 1 on one side of the lead-in slot 11 is provided with the fixed mounting plate 211, one side of the fixed mounting plate 211 is provided with the fixed caliper 212, and the fixed caliper 212 faces the movable clamping component 22. The hand-held handle of the probe contacts the inside surface of the fixed caliper 212.

The movable clamping assembly 22 comprises a movable mounting plate 221, a movable push rod 222 and a movable caliper 223. The movable mounting plate 221 is arranged on the top surface of the disinfection box 1 on one side of the lead-in groove 11, the movable push rod 222 is arranged on one side of the movable mounting plate 221, and the movable push rod 222 is preferably a multistage electric push rod of Beijing Tianyu Innovation technology Co. The movable end of the movable push rod 222 is provided with the movable caliper 223, and the movable caliper 223 faces the fixed clamping assembly 21. The movable push rod 222 drives the movable clamp 223 to push the handle of the probe to the fixed clamp 212 and the side of the introduction groove 11, so as to fix the probe.

A fixing plug 12 is arranged on one side in the introduction groove 11, the fixing plug 12 is preferably made of rubber, the probe extends into the disinfection box 1 from one side of the introduction groove 11 far away from the fixing plug 12, then a hand-held handle of the probe is plugged into the fixing plug 12, and friction force generated by the fixing plug 12 on the hand-held handle of the probe can preliminarily fix the probe on one hand, so that the probe can be conveniently matched and fixed through the fixing clamping component 21, the movable clamping component 22 and the introduction groove 11 in the following process; on the other hand, after the probe is disinfected, the movable clamping assembly 22 is removed, and the probes fall into the disinfection box 1 and are inconvenient to take out.

The device also comprises a disinfection device 3 which is arranged inside the disinfection box 1 and is used for disinfecting the probe and cleaning the couplant on the surface of the probe before disinfection.

Degassing unit 3 is including disinfection frame 31, side disinfection subassembly 32, bottom surface disinfection subassembly 33, the removal end of mobile device 4 sets up disinfection frame 31, 31 inner chamber bottom surface installations of disinfection frame bottom surface disinfection subassembly 33, 31 inner chamber left and right sides of disinfection frame are all installed side disinfection subassembly 32, bottom surface disinfection subassembly 33 and two the transmission is connected between the side disinfection subassembly 32, bottom surface disinfection subassembly 33 side disinfection subassembly 32 carries out couplant clearance and disinfection to bottom surface, the side of probe respectively. When the side surface is cleaned, the two side surfaces of the probe in the length direction can be cleaned firstly, and the two side surfaces in the width direction can be cleaned.

The bottom surface sterilizing unit 33 includes a bottom surface driving bar 331, a bottom surface sprocket 332, a bottom surface chain 333, a bottom surface sterilizing belt 334, a sterilizing motor 335, and a driving gear 336. The front side and the rear side of the lower part of the inner cavity of the disinfection frame 31 are respectively and rotatably connected with the bottom surface transmission rod 331, the disinfection motor 335 is installed on the outer side of the disinfection frame 31, and the disinfection motor 335 is preferably a vertical gear reduction motor of Shanghai Zhibao motor manufacturing company Limited, and the power is 1.5kw. Meanwhile, corresponding buttons are provided to control the operations of the disinfection motor 335 such as starting, closing, and speed regulation. The output shaft of disinfection motor 335 extends to it is inboard to disinfect frame 31, and with bottom surface transfer line 331 one end fixed connection, set up on the bottom surface transfer line 331 the driving gear 336, the driving gear 336 with the transmission is connected between the side disinfection subassembly 32, two be provided with a plurality of groups on the bottom surface transfer line 331 bottom surface sprocket 332, same group bottom surface sprocket 332 is located same plumb plane, same group the bottom surface sprocket 332 outside sets up bottom surface chain 333, a plurality of the bottom surface chain 333 outside sets up bottom surface disinfection area 334. The motor rotates to drive the bottom surface transmission rod 331 to rotate, the bottom surface disinfection belt 334 is driven to work through the transmission of the chain wheel and the chain, the bottom surface of the probe is made to contact with the bottom surface disinfection belt 334, and the couplant on the bottom surface of the probe can be cleaned through the bottom surface disinfection belt 334 in motion.

The middle part of the surface of the bottom surface disinfection belt 334 is provided with an arc-shaped groove 3341 so as to be suitable for probes with different shapes, and the bottom surface of the probe with the opposite sex can be cleaned by extending into the arc-shaped groove 3341.

Side disinfection subassembly 32 includes side fixed plate 321, side transfer line 322, side sprocket 323, side chain 324, side disinfection area 325, driven gear 326, disinfection frame 31 inner chamber side sets up a pair ofly side fixed plate 321, two rotate respectively between the both sides around the side fixed plate 321 and connect side transfer line 322, side transfer line 322 one end extends to the side fixed plate 321 outside, and sets up driven gear 326, driven gear 326 with transmission connection between the disinfection subassembly 33 of bottom surface, two be provided with a plurality of groups on the side transfer line 322 side sprocket 323, same group side sprocket 323 is located same horizontal plane, same group the bottom surface sprocket 332 outside sets up side chain 324, a plurality of the side chain 324 outside sets up side disinfection area 325. The side sterilizing tape 325 is used in the same principle as the bottom sterilizing tape 334. Two side sterilization bands 325, one left and one right, are positioned on either side of the bottom sterilization band 334. And cleaning and disinfecting the coupling agent on two side surfaces of the probe. And cleaning every two of the four side surfaces of the probe. After the two side surfaces are cleaned, the handle of the probe is rotated, and then the other two side surfaces of the probe are cleaned. The sterilizing motor 335 is operated to rotate the side driving lever 322 by the engagement of the driving gear 336 and the driven gear 326, thereby moving the side sterilizing tape 325 by the side sprocket and the side chain.

The spraying assembly 34 is disposed at an upper portion of the sterilizing device 3 for spraying the sterilizing agent.

The spray assembly 34 includes a linear motor platform 341, a connecting plate 342, a slide plate 343, a spray head 344, a reservoir 345, and a pump body 346. The linear motor platform 341 is installed on the upper part of the disinfection device 3, and the linear motor platform 341 is preferably a DGL series double-guide-rail linear motor platform 341 of the precision electromechanical Co., ltd. Of the Abelian Council, with the model of DGL260-AUM5-S4. Meanwhile, a corresponding button is provided to control the left and right movement of the slider on the surface of the linear motor platform 341. The connecting plate 342 is arranged on the surface of the slider of the linear motor platform 341, the sliding plate 343 is arranged on the bottom surface of the connecting plate 342, the sliding plate 343 is slidably connected with the upper part of the sterilizing device 3, and the spray head 344 is arranged in the middle of the bottom surface of the sliding plate 343; the storage tank 345 is arranged outside the disinfection box 1, the pump 346 is arranged on one side of the storage tank 345, and the input end of the pump 346 is communicated with the storage tank 345, the output end of the pump 346 and the spray head 344 through pipelines. The pump body 346 is preferably a miniature gear pump available from smart technologies, inc., model number FG300. Meanwhile, a corresponding button is provided to control the start and stop of the pump body 346. The pump 346 pumps the disinfectant, such as alcohol, stored in the storage tank 345 to the spray head 344 for spraying. And a disinfectant is sprayed on the surfaces of the bottom surface disinfection belt 334 and the side surface disinfection belt 325, so that the surfaces of the probes can be disinfected and sterilized while the couplant is cleaned. The nozzle 344 can move back and forth under the driving of the linear motor platform 341, so that the disinfectant can be sprayed more uniformly. When not spraying, the spray nozzle 344 is located at the front side or the rear side of the disinfection frame 31, so as to avoid blocking the placement and the removal of the probe.

The disinfection box further comprises a moving device 4 which is arranged between the inner cavity of the disinfection box 1 and the disinfection device 3 and used for adjusting the position of the disinfection device 3.

The moving device 4 comprises a lifting assembly 41, a transmission case 42 and a translation assembly 43. Installation of 1 inner chamber bottom surface of disinfect box lifting unit 41, lifting unit 41 top surface sets up transmission case 42, transmission case 42 internally mounted translation subassembly 43, the output of translation subassembly 43 extends to transmission case 42 upper portion sets up degassing unit 3, lifting unit 41 translation subassembly 43 controls respectively degassing unit 3's lift, translation. In the process of cleaning the couplant on the surface of the probe, the contact depth of the bottom disinfection belt 334 and the contact depth of the side disinfection belt 325 and the probe are adjusted by changing the position of the disinfection device 3, so that the cleaning force is controlled, the probe is prevented from being damaged, and the service life of the probe is shortened.

The lifting assembly 41 comprises a lifting push rod 411 and a stable telescopic rod 412. The lifting push rod 411 is installed on the bottom surface of the inner cavity of the disinfection box 1, and the lifting push rod 411 is preferably a multistage electric push rod 437 of Beijing Tianyu Innovation technology Co., ltd. Meanwhile, a corresponding button is provided to control the lifting push rod 411 to rise and fall quantitatively. The output end of the lifting push rod 411 is provided with the transmission box 42, and a plurality of stable telescopic rods 412 are arranged between the transmission box 42 and the bottom surface of the disinfection box 1, so that the stability is improved.

The translation assembly 43 comprises a translation limiting plate 431, a translation fixing block 432, a connecting rod 433, a motor mounting plate 434, a translation motor 435, a cam 436, a push rod 437, a swing rod 438, a connecting rod 439, a fixing lug plate 440, a translation cylinder 441, a translation rod 442 and a spring 443. The plurality of translation limiting plates 431 are arranged in parallel on the bottom surface of the inner cavity of the transmission case 42, the top surfaces of the translation limiting plates 431 are slidably connected with the translation fixing blocks 432, and the translation fixing blocks 432 slide along the surfaces of the translation limiting plates 431. The transmission case 42 top surface is run through and is seted up the transmission groove, translation fixed block 432 top is passed through the transmission groove extends to transmission case 42 upper portion, and with degassing unit 3 bottom fixed connection, a plurality of translation fixed block 432 one side sets up connecting rod 433, transmission case 42 one side sets up motor mounting panel 434, motor mounting panel 434 one side installation translation motor 435, translation motor 435 is preferred, and the power is 1.5kw to the vertical gear reduction motor of precious motor manufacturing limited company in Shanghai. Meanwhile, a corresponding button is arranged to control the motor to rotate forwards and backwards for fixing the angle and to rotate continuously. The output end of the translation motor 435 is provided with the cam 436, the outer side of the cam 436 is rotatably connected with the push rod 437, the other end of the push rod 437 is rotatably connected with the swing rod 438, the other end of the swing rod 438 is rotatably connected with the connecting rod 439, the other end of the connecting rod 439 is rotatably connected with the connecting rod 433, the inner cavity of the transmission case 42 is provided with a pair of the fixed ear plates 440, two of the fixed ear plates 440 are provided with the translation cylinder 441, and the position of the translation cylinder 441 is limited by the fixed ear plates 440. The translation cylinder 441 is slidably connected with the translation rod 442, two ends of the translation rod 442 extend to the outer side of the translation cylinder 441, the outer end of the translation rod 442 is rotatably connected with the middle of the swing rod 438, a limiting protrusion 444 is arranged in the middle of the translation rod 442, and the spring 443 is respectively arranged between the protrusion and two side walls of the translation cylinder 441 in the length direction. The translation motor 435 drives the cam 436, the push rod 437, the swing rod 438 and the connecting rod 439, so that the rotation of the translation motor 435 is converted into the reciprocating linear motion of the translation fixed block 432. Thereby driving the sterilizing frame 31 to perform reciprocating linear motion, i.e., to move left and right. The side sterilizing tapes 325 at both sides of the inside of the sterilizing frame 31 are brought into contact with both sides of the probe. The contact depth of the side sterilizing tape 325 and the side of the probe is controlled by controlling the translation motor 435 to rotate by a fixed angle, and the force for cleaning the couplant is adjusted. 1. When the cleaning force is excessive, the translation rod 442 at the middle of the swing link 438 is retracted, compressing the spring 443 at the rear side of the translation cylinder 441. Converting a rigid impact into a compliant contact. After the contacted side cleaning belts are cleaned, the translation motor 435 works to drive the disinfection frame 31 to move, so that the side cleaning belts are separated from the contact with the probe, and at the moment, the translation rod 442 returns under the elastic force of the spring 443. 2. When the cleaning force is small, the position of the translation rod 442 does not change.

The device also comprises a collecting device 5 which is arranged at the rear side of the inner cavity of the sterilizing box 1 and is used for collecting the splashed sterilizing agent and the coupling agent. After the probe is cleaned, the coupling agent adheres to the surfaces of the side surface sterilization belt 325 and the bottom surface sterilization belt 334. At this time, the sterilizing motor 335 rotates faster, so that the couplant and the residual disinfectant are thrown out from the front and rear sides of the side surface sterilizing tape 325 and the bottom surface sterilizing tape 334, and the couplant and the disinfectant thrown to one side are collected by the collecting device 5.

Two collecting devices 5 can be arranged and are respectively positioned at two sides; one baffle plate 51 can be arranged on the other side of the device to baffle the couplant and the disinfectant at the splashing position. Preferably, one is arranged at the rear side of the disinfection box 1 and used for collecting the disinfectant and the coupling agent thrown off from the rear side.

The top surface of the disinfection box 1 is provided with an access door 13, so that the collection device 5 can be cleaned conveniently, and the inner side of the barrier plate 51 can be cleaned conveniently.

The collecting device 5 comprises a bearing plate 52, absorbent cotton 53, a delivery pipe 54 and a switch valve 55. The bearing plate 52 is arranged on the rear side of the bottom surface of the inner cavity of the disinfection box 1, the absorption cotton 53 is arranged on the top surface of the bearing plate 52, the collecting tank 521 is arranged on the top surface of the bearing plate 52, the delivery pipe 54 is arranged on the rear side of the collecting tank 521, the delivery pipe 54 extends to the outer side of the disinfection box 1, and the switch valve 55 is arranged. The thrown disinfectant is absorbed by the absorbent cotton 53 to avoid splashing, and when the absorbent cotton 53 is saturated, the excess liquid flows out along the delivery pipe 54 in the collection tank 521.

The front side surface of the absorption cotton 53 is provided with a plurality of guide grooves 531, and the guide grooves 531 penetrate along the height direction of the front side surface of the absorption cotton 53. When the absorbent cotton 53 is saturated, the speed of the liquid flowing into the collection tank 521 is increased.

The front side of the disinfection box 1 is provided with an observation window 14, which is convenient for adjusting the position of the disinfection device 3.

When the invention is used:

1. and (3) extending the probe into the disinfection box from the lead-in groove, then pressing a corresponding button, driving the movable calipers by the movable push rod, and pushing the handle of the probe to one side of the fixed calipers and the lead-in groove to fix the probe.

2. Spraying a disinfectant onto the surface of the disinfection device through the spray assembly.

3. And adjusting the height and the left and right positions of the disinfection device through the moving device.

4. When the side surface of the probe is cleaned, after the side surface disinfection belt and the bottom surface disinfection belt on one side are adjusted to be in contact with the probe, the disinfection motor starts to work to drive the side surface disinfection belt and the bottom surface disinfection belt to move. And after one side surface of the probe is cleaned, adjusting the position of the probe, and continuously cleaning other side surfaces.

5. When the two sides of the side surface of the probe are cleaned, the disinfection motor starts to work after the bottom surface disinfection belt is adjusted to be in contact with the probe, and the side surface disinfection belt and the bottom surface disinfection belt are driven to move. The translation motor starts to work to drive the disinfection frame to do reciprocating linear motion, so that the two side surfaces of the probe are in staggered contact with the side disinfection belt to be cleaned and disinfected. And after the two side surfaces of the probe are cleaned, adjusting the position of the probe and continuously cleaning the other two side surfaces.

6. And after cleaning is finished, loosening the movable calipers and taking out the probe.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims. It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (10)

1. An ultrasonic probe disinfecting device, characterized in that: comprises a disinfection box;

the clamping device is arranged on the top surface of the sterilizing box and used for fixing the probe;

the sterilizing device is arranged in the sterilizing box and is used for cleaning and sterilizing the coupling agent on the surface of the probe;

and the moving device is arranged between the inner cavity of the sterilizing box and the sterilizing device and used for adjusting the position of the sterilizing device.

2. An ultrasonic probe disinfection apparatus as claimed in claim 1, wherein: the clamping device comprises a fixed clamping component and a movable clamping component, a lead-in groove is formed in the top surface of the inner cavity of the disinfection box in a penetrating mode, the fixed clamping component and the movable clamping component are arranged on the top surface of the disinfection box on the two sides of the lead-in groove respectively, and the probe is fixed through the cooperation of the fixed clamping component, the movable clamping component and the lead-in groove.

3. An ultrasonic probe disinfection apparatus as claimed in claim 2, wherein: the fixed clamping assembly comprises a fixed mounting plate and fixed calipers, the top surface of the disinfection box on one side of the lead-in groove is provided with the fixed mounting plate, one side of the fixed mounting plate is provided with the fixed calipers, and the fixed calipers face the movable clamping assembly.

4. An ultrasonic probe disinfection apparatus as claimed in claim 2, wherein: the movable clamping assembly comprises a movable mounting plate, a movable push rod and movable calipers, the movable mounting plate is arranged on the top surface of the disinfection box on one side of the lead-in groove, the movable push rod is mounted on one side of the movable mounting plate, the movable calipers are arranged at the movable end of the movable push rod, and the movable calipers face the fixed clamping assembly.

5. An ultrasonic probe disinfection apparatus as claimed in claim 3 or 4, wherein: and a fixing plug is arranged on one side in the leading-in groove.

6. An ultrasonic probe disinfection apparatus as claimed in claim 1, wherein: degassing unit is including disinfection frame, side disinfection subassembly, bottom surface disinfection subassembly spray the subassembly, mobile device's removal end sets up the disinfection frame, disinfection frame inner chamber bottom surface installation the bottom surface disinfection subassembly, disinfection frame inner chamber left and right sides is all installed the side disinfection subassembly, bottom surface disinfection subassembly and two the transmission is connected between the side disinfection subassembly, spray the subassembly setting and be in disinfection frame upper portion for spray the disinfectant, the bottom surface disinfection subassembly the side disinfection subassembly carries out couplant clearance and disinfection to bottom surface, the side of probe respectively.

7. An ultrasonic probe disinfection apparatus as claimed in claim 6, wherein: bottom surface disinfection subassembly includes bottom surface transfer line, bottom surface sprocket, bottom surface chain, bottom surface disinfection area, disinfection motor, driving gear, both sides rotate respectively around disinfection frame inner chamber lower part are connected with the bottom surface transfer line, the installation of disinfection frame outside the disinfection motor, the output shaft of disinfection motor extends to disinfection frame is inboard, and with bottom surface transfer line one end fixed connection, set up on the bottom surface transfer line the driving gear, the driving gear with the transmission is connected between the side disinfection subassembly, two be provided with a plurality of groups on the bottom surface transfer line the bottom surface sprocket, same group the bottom surface sprocket is located same plumb surface, same group the bottom surface sprocket outside sets up the bottom surface chain, a plurality of the bottom surface chain outside sets up the bottom surface disinfection area.

8. An ultrasonic probe disinfection apparatus as claimed in claim 6, wherein: side disinfection subassembly includes side fixed plate, side transfer line, side sprocket, side chain, side disinfection area, driven gear, disinfection frame inner chamber side sets up a pair ofly side fixed plate, two rotate respectively between the both sides around the side fixed plate and connect the side transfer line, side transfer line one end extends to the side fixed plate outside, and sets up driven gear, driven gear with the transmission is connected between the bottom surface disinfection subassembly, two be provided with a plurality of groups on the side transfer line the side sprocket, same group the side sprocket is located same horizontal plane, same group the bottom surface sprocket outside sets up the side chain, and is a plurality of the side chain outside sets up the side disinfection area.

9. An ultrasonic probe disinfection apparatus as claimed in claim 1, wherein: the mobile device comprises a lifting assembly, a transmission case and a translation assembly, the lifting assembly is installed on the bottom surface of the inner cavity of the disinfection case, the top surface of the lifting assembly is arranged on the transmission case, the transmission case is internally installed with the translation assembly, the output end of the translation assembly extends to the upper portion of the transmission case and is arranged on the disinfection device, and the lifting assembly and the translation assembly respectively control the lifting and the translation of the disinfection device.

10. An ultrasonic probe disinfection apparatus as claimed in claim 1, wherein: the lifting assembly comprises a lifting push rod and a stable telescopic rod, the lifting push rod is installed on the bottom surface of the inner cavity of the disinfection box, the output end of the lifting push rod is provided with the transmission box, and a plurality of stable telescopic rods are arranged between the transmission box and the bottom surface of the disinfection box.

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