CN114130732A - Portable ultrasonic branch of academic or vocational study probe disinfect box of dismantling - Google Patents

Abstract

The invention discloses a portable detachable ultrasonic probe disinfection box, and particularly relates to the technical field of medical instruments, which comprises a disinfection box, wherein the bottom end of the disinfection box is connected with a waste liquid collecting box, the top end of the disinfection box is provided with a top cover frame, the top end of the top cover frame is provided with five placing through holes which are distributed annularly, and five disinfection mechanisms are arranged in the disinfection box; the sterilizing mechanism comprises a linkage rotating rod arranged inside the sterilizing box. The ultrasonic cleaning device adopts the sterilizing mechanism, the five cleaning brushes can form a joint effect on the outer part of the ultrasonic probe under the action of resilience force, the linkage gears are driven by the transmission driving rods by the plurality of stations to drive the five driving gears to transmit, so that the five linkage rotating rods generate a linkage pair effect, surface joint cleaning operation is realized around the outer part of the ultrasonic probe, a plurality of ultrasonic probes can be sterilized at one time, and the cleaning effect is improved.

Description

Portable ultrasonic branch of academic or vocational study probe disinfect box of dismantling

Technical Field

The invention relates to the technical field of medical instruments, in particular to a portable detachable ultrasonic probe disinfection box.

Background

The ultrasonic probe is a device for transmitting and receiving ultrasonic waves in the ultrasonic detection process, and the probe used in the ultrasonic detection is a transducer for converting electric energy and sound energy by using the piezoelectric effect of materials. The key part of the probe is a wafer which is a single crystal or polycrystal sheet with piezoelectric effect and has the function of converting electric energy and acoustic energy mutually, and the probe needs to be sterilized after each use in the using process of the ultrasonic probe, so that the cleanness and the sanitation of the probe can be ensured to cause bacterial infection.

When the ultrasonic probe is actually used, medical staff need to put the ultrasonic probe into a disinfection box for disinfection and take the ultrasonic probe out for use after disinfection, so that the following defects can be caused during disinfection;

when the disinfection, in order to guarantee the disinfection effect, can only disinfect to ultrasonic probe one by one, the disinfection not only latency is longer, can't act on laminating extrusion in addition in the disinfection process and make the disinfection, so not only reduced disinfection efficiency, reduced the disinfection effect moreover.

Disclosure of Invention

In order to overcome the defects in the prior art, the embodiment of the invention provides a portable detachable ultrasonic probe disinfection box, which adopts a sterilization mechanism, five linkage rotating rods have the action of linkage pair, surface attaching and cleaning operation is realized around the outside of an ultrasonic probe, a plurality of ultrasonic probes can be sterilized at one time, and the cleaning effect is improved so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a portable detachable ultrasonic probe disinfection box comprises a disinfection box body, wherein a waste liquid collecting box is connected to the bottom end of the disinfection box body, a top cover frame is installed at the top end of the disinfection box body, five placing through holes which are distributed annularly are formed in the top end of the top cover frame, and five disinfecting and killing mechanisms are installed inside the disinfection box body;

the sterilizing mechanism comprises a linkage rotating rod arranged inside the sterilizing box, a plurality of connection fixing blocks are distributed in an annular equal distance mode outside the linkage rotating rod, one side of each connection fixing block is connected with an embedding rod, one end of each embedding rod is connected with an extrusion spring, one end of each extrusion spring is provided with a first linkage elastic rod used for extruding resilience, one side of each first linkage elastic rod is connected with a third second linkage elastic rod, a first supporting plate is connected below the second linkage elastic rods, and cleaning brush cloth is detachably arranged at the bottom end of the first supporting plate through a plurality of bolts.

In a preferred embodiment, the inside location branch that is provided with of extrusion spring, location branch is close to the outside cover of one end and establishes and imbed the pole and be connected fixed block side fixed connection's installation lantern ring piece, first backup pad is close to extrusion spring and runs through on one side with first linkage elastic rod junction and is provided with the dwang, the dwang is outside and be located first backup pad both sides and all overlap and be equipped with fixed lantern ring extension board, the second backup pad is installed to waste liquid collecting box bottom, a plurality of removal wheels are installed to second backup pad below, fixed connection between dwang and the first backup pad, and the dwang is outside and be located first backup pad both sides and the inside swing joint of fixed lantern ring extension board.

In a preferred embodiment, the five linkage rotating rods are provided with driving gears at the bottom end positions of the waste liquid collecting box, the five driving gears are meshed with the linkage gears at the positions of the circular surrounding dots in an annular shape, one end of each linkage gear is connected with a driving rod, and one end of each driving rod is provided with a driving motor for driving.

In a preferred embodiment, three second linkage elastic rods are sequentially arranged along the upper surface of the first support plate in an inclined manner, and the first linkage elastic rod and the second linkage elastic rod are fixedly connected.

In a preferable embodiment, the exterior of the killing mechanism is provided with a collecting spraying mechanism, the collecting spraying mechanism comprises an annular spraying pipe arranged outside the killing mechanism, the bottom end of the annular spraying pipe is provided with inclined spraying pipes with first supporting plates parallel in an annular and equidistant distribution, one side of each inclined spraying pipe is communicated with a plurality of spraying heads, a connecting pipe is arranged in front of each two inclined spraying pipes, one end of each connecting pipe is connected with a collecting pipe, the bottom end of each collecting pipe is provided with a first electric control valve, one end of each first electric control valve is connected with an input pipe, a second electric control valve is arranged below the input pipe, one end of each input pipe is connected with a lead-in pipe, one end of each lead-in pipe is provided with a pump machine, the input end of each pump machine is communicated with a lead-out pipe, the top end of the lead-out pipe is connected with an access pipe, and one end of the access pipe is provided with a third electric control valve, the bottom end of the third electric control valve is communicated with a sterilizing liquid containing box, one side of the delivery pipe is communicated with a shunt threaded valve pipe, one end of the shunt threaded valve pipe is in threaded connection with a collecting box, in a preferred embodiment, the bottom ends of five connecting pipes are communicated with a collecting pipe and are distributed and arranged in an annular and equidistant mode, and the input pipe is communicated with the second electric control valve.

In a preferred embodiment, a linkage lantern ring rotating rod is arranged inside the top cover frame, a first linkage toothed ring is fixedly connected to the exterior of the linkage lantern ring rotating rod, a second linkage toothed ring is meshed to one side of the first linkage toothed ring, a first rotating motor for coaxial transmission connection is installed at the top end of the second linkage toothed ring, a plurality of arc-shaped extrusion strips are arranged outside the linkage lantern ring rotating rod and below the first linkage toothed ring, a positioning rotating rod is arranged below the arc-shaped extrusion strips, a reverse rotating rod is connected to the bottom end of the positioning rotating rod, a second rotating motor is installed at the bottom end of the reverse rotating rod, a plurality of opposite extrusion strips are arranged outside the positioning rotating rod, the upper end and the lower end of the reverse rotating rod are respectively in coaxial transmission connection with the second rotating motor and the positioning rotating rod, a positioning shaft rod is arranged inside the linkage lantern ring rotating rod, and the positioning shaft rod is movably connected with the linkage lantern ring rotating rod, and the top end of the positioning shaft lever is fixedly connected with the top end of the inner wall of the top cover frame.

The invention has the technical effects and advantages that:

1. according to the ultrasonic cleaning device, the ultrasonic probe is inserted into gaps among the plurality of cleaning brushes by adopting the sterilizing mechanism, the end part of the first supporting plate drives the rotating rod to rotate on the fixed lantern ring supporting plate, the second linkage elastic rod drives the first linkage elastic rod to move, the joint of the first linkage elastic rod and the extrusion spring generates elastic deformation, the five cleaning brushes can be attached to the outer part of the ultrasonic probe under the action of resilience force, the linkage gears are driven by the plurality of stations through the transmission driving rod to drive the five driving gears, and thus the five linkage rotating rods generate linkage pair effect, surface attachment cleaning operation is realized around the outer part of the ultrasonic probe, sterilizing operation can be performed on the plurality of ultrasonic probes at one time, and the cleaning effect is improved;

2. the invention adopts a collecting and spraying mechanism to drive a pump machine to enable the disinfectant in a disinfectant containing box to enter a third electric control valve, is guided into an inlet pipe by a guide pipe, enters an input pipe and is then poured into a first electric control valve, is shunted into five connecting pipes along a collecting pipe and then is poured into an annular spraying pipe, enters a plurality of spraying heads along an inclined connecting spraying pipe and is sprayed at the position of an ultrasonic probe, the first electric control valve, the third electric control valve and the second electric control valve and a shunting threaded valve pipe are closed, the disinfectant collected in a waste liquid collecting box is sucked into the first electric control valve by utilizing the reverse rotation of the pump machine and is finally poured into the collecting box, thus the parallel spraying of edges outside the ultrasonic probe can be realized, not only the operation of comprehensive disinfection is realized, but also less disinfectant can be used during disinfection without immersing the disinfectant, the disinfectant liquid after disinfection can be sucked in a backflow mode for sealing treatment, then the collecting box can be disassembled and dumped, and the disinfectant liquid is prevented from flowing outwards, so that the disassembling operation is more convenient;

3. according to the invention, the second rotating motor is started to drive the reverse rotating rod to rotate, the positioning rotating rod is driven by the rotating rod to enable the opposite extrusion strips to rotate anticlockwise, the first rotating motor is started to drive the second linkage gear ring to rotate, the first linkage gear ring drives the linkage lantern ring rotating rod to rotate outside the positioning shaft rod, the arc extrusion strips rotate clockwise, five ultrasonic probes can be subjected to cross extrusion and fixation, multi-station fixation operation is realized at one time, fixation is quicker, simultaneously, multi-point simultaneous separation can be realized in the disassembly process, and the disassembly operation of the ultrasonic probes can be completed, so that the high stability of the ultrasonic probes in the sterilization process is improved, and the fastening efficiency is improved.

To sum up, through the influence each other of above-mentioned a plurality of effects, can be to the effect that five cleaning brush cloths can form the laminating to the ultrasonic probe outside under the effect of resilience force, five linkage bull sticks take place the effect that the linkage is right, can once only carry out the operation of killing to a plurality of ultrasonic probe, and can realize that edge parallel sprays outside ultrasonic probe, not only played the operation of killing comprehensively, and utilize less liquid of killing to reach the effect of killing comprehensively when killing, need not to soak the liquid of killing, when fixed simultaneously, not only improved the high stability of a plurality of ultrasonic probe in the in-process of killing and improved the fastening high efficiency, to sum up can improve ultrasonic probe's the high efficiency of killing, and the effect of killing, practice thrift a large amount of time of killing, facilitate the use more.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic structural view of a joint of the linkage rotating rod and the connecting fixing block of the present invention.

FIG. 4 is a schematic view of the structure of the connection between the first support plate and the cleaning brush of the present invention.

Fig. 5 is a schematic view of the rotating rod structure of the present invention.

FIG. 6 is a schematic view of the internal structure of the waste liquid collecting tank of the present invention.

Fig. 7 is a schematic structural view of a transmission part of a driving rod and a driving motor of the invention.

Fig. 8 is a schematic view of the internal structure of the top cover frame according to the present invention.

Fig. 9 is a schematic view of the engagement structure of the first interlocking toothed ring and the second interlocking toothed ring according to the present invention.

The reference signs are: 1. a sterilizing box; 2. a waste liquid collection box; 3. a top cover frame; 4. putting into the through hole; 5. positioning the shaft lever; 6. a linkage rotating rod; 7. connecting a fixed block; 8. an embedded rod; 9. a compression spring; 10. a first linkage spring rod; 11. a second linkage elastic rod; 12. a first support plate; 13. cleaning the brushing cloth; 14. positioning the supporting rod; 15. installing a collar block; 16. rotating the rod; 17. fixing the lantern ring support plate; 18. a drive gear; 19. a linkage gear; 20. a drive rod; 21. a drive motor; 22. an annular injection tube; 23. the oblique spray pipe is connected; 24. an injector head; 25. a connecting pipe; 26. a header; 27. a first electrically controlled valve; 28. an input tube; 29. a second electrically controlled valve; 30. an introducing pipe; 31. a pump machine; 32. a delivery pipe; 33. an access pipe; 34. a third electrically controlled valve; 35. containing the disinfectant into a box; 36. a split flow threaded valve tube; 37. a collection box; 38. a second support plate; 39. a moving wheel; 40. a link collar rotating rod; 41. a first linked gear ring; 42. a second linked gear ring; 43. a first rotating electric machine; 44. arc-shaped extrusion strips; 45. positioning the rotating rod; 46. a reverse rotating rod; 47. a second rotating electric machine; 48. the strips are extruded in opposite directions.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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 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 invention.

The portable detachable ultrasonic probe disinfection box shown in the attached figures 1-9 comprises a disinfection box 1, wherein the bottom end of the disinfection box 1 is connected with a waste liquid collecting box 2, the top end of the disinfection box 1 is provided with a top cover frame 3, the top end of the top cover frame 3 is provided with five placing through holes 4 which are annularly distributed, and five disinfection mechanisms are arranged in the disinfection box 1;

the sterilizing mechanism comprises a linkage rotating rod 6 arranged inside a sterilizing box 1, a plurality of connection fixing blocks 7 are distributed on the linkage rotating rod 6 in an annular equidistant mode, one side of each connection fixing block 7 is connected with an embedding rod 8, one end of each embedding rod 8 is connected with an extrusion spring 9, one end of each extrusion spring 9 is provided with a first linkage elastic rod 10 used for extrusion resilience, one side of each first linkage elastic rod 10 is connected with three second linkage elastic rods 11, a first supporting plate 12 is connected below each second linkage elastic rod 11, and cleaning brush cloth 13 is detachably arranged at the bottom end of each first supporting plate 12 through a plurality of bolts.

As shown in the attached drawings 1-5, a positioning strut 14 is arranged inside an extrusion spring 9, a mounting collar block 15 fixedly connected with an embedded rod 8 and the side surface of a connecting fixing block 7 is sleeved outside one end of the positioning strut 14, a rotating rod 16 is arranged on one side of a first supporting plate 12 close to the joint of the extrusion spring 9 and a first linkage elastic rod 10 in a penetrating manner, fixed collar supporting plates 17 are sleeved outside the rotating rod 16 and on two sides of the first supporting plate 12, a second supporting plate 38 is arranged at the bottom end of a waste liquid collecting box 2, a plurality of moving wheels 39 are arranged below the second supporting plate 38, so that the mounting collar block 15 can support the positioning strut 14, the positioning strut 14 can support the extrusion spring 9, the end part of the first supporting plate 12 drives the rotating rod 16 to rotate on the fixed collar supporting plate 17 for angle change, and thus the outside of the ultrasonic probe is attached, and thereby can remove disinfect box 1 and drive second backup pad 38 and make and remove wheel 39 and move the operation, conveniently carry transport disinfect box 1 and carry out the transportation operation, fixed connection between dwang 16 and the first backup pad 12, and dwang 16 outside just is located first backup pad 12 both sides and the inside swing joint of fixed lantern ring extension board 17 to first backup pad 12 drives dwang 16 and rotates inside fixed lantern ring extension board 17.

As shown in fig. 6-7, the driving gears 18 are respectively installed at the positions outside the five linkage rotating rods 6 and at the bottom end of the waste liquid collecting box 2, the positions of the five driving gears 18 which are annular surrounding dots are engaged with the linkage gear 19, one end of the linkage gear 19 is connected with the driving rod 20, one end of the driving rod 20 is provided with the driving motor 21 for driving, so that the driving motor 21 is started to drive the driving rod 20 to rotate, the linkage gear 19 drives the five driving gears 18 to transmit, and the driving gears 18 drive the linkage rotating rods 6 to rotate.

As shown in fig. 4, three second linkage elastic rods 11 are sequentially arranged along the upper surface of a first support plate 12 in an inclined manner, and the first linkage elastic rods 10 are fixedly connected with the second linkage elastic rods 11, so that the second linkage elastic rods 11 can dislike multiple point positions to support the first support plate 12, and thus the second linkage elastic rods 11 realize multi-point position rebound operation after elastic deformation.

As shown in fig. 1-6, a collecting and spraying mechanism is installed outside the killing mechanism, the collecting and spraying mechanism includes a ring-shaped spray pipe 22 installed outside the killing mechanism, oblique spray pipes 23 parallel to the first support plate 12 are installed at the bottom end of the ring-shaped spray pipe 22 in a ring-shaped and equidistant distribution, a plurality of spray heads 24 are connected to one side of the oblique spray pipes 23, a connecting pipe 25 is installed in front of the two oblique spray pipes 23, a collecting pipe 26 is connected to one end of the connecting pipe 25, a first electric control valve 27 is installed at the bottom end of the collecting pipe 26, an input pipe 28 is connected to one end of the first electric control valve 27, a second electric control valve 29 is installed below the input pipe 28, an inlet pipe 30 is connected to one end of the input pipe 28, a pump 31 is installed at one end of the inlet pipe 30, an outlet pipe 32 is connected to the input end of the pump 31, an access pipe 33 is connected to the top end of the outlet pipe 32, and a third electric control valve 34 is installed at one end of the access pipe 33, the bottom end of the third electric control valve 34 is communicated with a sterilizing liquid containing box 35, one side of the delivery pipe 32 is communicated with a shunting threaded valve pipe 36, one end of the shunting threaded valve pipe 36 is in threaded connection with a collecting box 37, so that the pump machine 31 is started to enable the sterilizing liquid in the sterilizing liquid containing box 35 to enter the third electric control valve 34, the delivery pipe 32 is led into the delivery pipe 30, enters the input pipe 28 and is filled into the first electric control valve 27, is shunted into five connecting pipes 25 along the collecting pipe 26 and is distributed into a plurality of inclined connecting spray pipes 23 along the annular shape, then enters the plurality of spray heads 24 along the inclined connecting spray pipes 23 to carry out external spraying, multi-angle edge parallel spraying operation is realized, the first electric control valve 27, the third electric control valve 34 are closed, the second electric control valve 29 and the shunting threaded valve pipe 36 are opened, the sterilizing liquid collected in the waste liquid collecting box 2 is sucked into the first electric control valve 27 by utilizing the reverse rotation of the pump machine 31, the water is input into a collecting box 37 through a diversion threaded valve pipe 36 for collecting operation, the bottom ends of the five connecting pipes 25 are communicated with a collecting pipe 26 and are arranged in an annular and equidistant distribution manner, the input pipe 28 is communicated with the second electric control valve 29, the water can be diverted to the plurality of connecting pipes 25 through the collecting pipe 26 and is diverted along the connecting pipes 25, the input pipe 28 can be communicated with the second electric control valve 29, and the input pipe 28 can be closed or opened through the second electric control valve 29.

As shown in fig. 8-9, a linkage lantern ring rotating rod 40 is arranged inside the top cover frame 3, a first linkage toothed ring 41 is fixedly connected outside the linkage lantern ring rotating rod 40, a second linkage toothed ring 42 is meshed on one side of the first linkage toothed ring 41, a first rotating motor 43 for coaxial transmission connection is installed at the top end of the second linkage toothed ring 42, a plurality of arc-shaped extrusion strips 44 are arranged outside the linkage lantern ring rotating rod 40 and below the first linkage toothed ring 41, a positioning rotating rod 45 is arranged below the arc-shaped extrusion strips 44, a reverse rotating rod 46 is connected at the bottom end of the positioning rotating rod 45, a second rotating motor 47 is installed at the bottom end of the reverse rotating rod 46, a plurality of opposite extrusion strips 48 are arranged outside the positioning rotating rod 45, the upper and lower ends of the reverse rotating rod 46 are respectively coaxially and drivingly connected with the second rotating motor 47 and the positioning rotating rod 45, a positioning shaft rod 5 is arranged inside the linkage lantern ring rotating rod 40, the positioning shaft rod 5 is movably connected with the linkage lantern ring rotating rod 40, and fixed connection between 5 tops of location axostylus axostyle and the top of the 3 inner walls of top cap frame to start second rotation motor 47 and drive reverse bull stick 46 and rotate, location bull stick 45 drives a plurality of subtend extrusion strip 48 and carries out anticlockwise rotation, starts first rotation motor 43 and drives second linkage ring gear 42 and makes first linkage ring gear 41 rotate, and linkage lantern ring bull stick 40 drives a plurality of arc extrusion strip 44 and rotates in the same time.

The working principle of the invention is as follows: when the ultrasonic probe is positioned and placed, the disinfection box 1 can be moved, the disinfection box 1 drives the second supporting plate 38 to move, the second supporting plate 38 drives the plurality of moving wheels 39 to move, and thus the disinfection box 1 can be moved to a specified position, so that the ultrasonic probe can be placed into the placing through hole 4 in the top cover frame 3 and inserted into a gap formed between the five first supporting plates 12 along the placing through hole 4;

when the ultrasonic probe is positioned and attached, the ultrasonic probe is inserted into gaps among a plurality of cleaning brushing cloths 13 and is attached through the cleaning brushing cloths 13, the cleaning brushing cloths 13 drive a first supporting plate 12 to move, meanwhile, the end part of the first supporting plate 12 drives a rotating rod 16 to rotate on a fixed lantern ring supporting plate 17, a plurality of second linkage elastic rods 11 drive a first linkage elastic rod 10 to move, the joint of the first linkage elastic rod 10 and an extrusion spring 9 is elastically deformed, and meanwhile, the connection fixing block 7 can play a role of a bearing for an embedded rod 8, so that after the ultrasonic probe completely enters the position among five cleaning brushing cloths 13, the first supporting plate 12 elastically extrudes the cleaning brushing cloths 13 under the elastic action of the joint of the first linkage elastic rod 10 and the extrusion spring 9, and the cleaning brushing cloths 13 are attached to the outer position of the ultrasonic probe;

when the edge is fixed, the second rotating motor 47 is started to drive the reverse rotating rod 46 to rotate, the reverse rotating rod 46 drives the positioning rotating rod 45 to rotate, the positioning rotating rod 45 drives the opposite extrusion strips 48 to rotate anticlockwise, the first rotating motor 43 is started to drive the second linkage toothed ring 42 to rotate, the second linkage toothed ring 42 drives the first linkage toothed ring 41 to rotate, the first linkage toothed ring 41 drives the linkage lantern ring rotating rod 40 to rotate outside the positioning shaft rod 5, and the linkage lantern ring rotating rod 40 drives the arc extrusion strips 44 to rotate clockwise, so that the five ultrasonic probes can be extruded and fixed in a cross way, and multi-station fixing can be realized at one time;

when in sterilization, the driving rod 20 can be driven to rotate by starting the driving motor 21, the driving rod 20 drives the linkage gear 19 to rotate, the linkage gear 19 drives the five driving gears 18 to transmit, the driving gears 18 drive the linkage rotating rod 6 to rotate, so that the cleaning brush cloth 13 can carry out multi-angle joint rotation along the outside of the ultrasonic probe, the effect of rotary wiping is realized, meanwhile, the pump machine 31 is started to enable the sterilization liquid in the sterilization liquid containing box 35 to enter the third electric control valve 34, enter the inlet pipe 33 along the third electric control valve 34 to be input into the outlet pipe 32, be guided into the inlet pipe 30 by the outlet pipe 32, enter the inlet pipe 28 through the inlet pipe 30 to be filled into the first electric control valve 27, enter the collecting pipe 26 through the first electric control valve 27, be shunted into the five connecting pipes 25 by the collecting pipe 26, and then be input into the annular injection pipe 22 along the connecting pipes 25, after entering the annular injection pipe 22, the cleaning liquid can be distributed into a plurality of inclined connecting spray pipes 23 along an annular shape, then enters the plurality of injection heads 24 along the inclined connecting spray pipes 23 and is injected at the position of the ultrasonic probe through the injection heads 24, so that the side-attaching wiping cleaning is realized, the cleaning efficiency is higher, the used sterilizing and killing liquid is less, and a better cleaning effect is achieved, after the cleaning is finished, the first electric control valve 27 and the third electric control valve 34 can be closed, the second electric control valve 29 and the diversion threaded valve pipe 36 are opened, then the sterilizing and killing liquid collected in the waste liquid collecting tank 2 is sucked into the first electric control valve 27 by utilizing the reverse rotation of the pump 31, enters the inlet pipe 30 along the input pipe 28, is input into the guide pipe 32 through the inlet pipe 30 and then is filled into the diversion threaded valve pipe 36, and is input into the collecting tank 37 through the diversion threaded valve pipe 36 for collecting operation, this allows the diverter valve manifold 36 to be threadably removed from the collection tank 37, while the collection tank 37 is removed for disposal as a sealed pour.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the present invention is not limited to the above preferred embodiments, but rather, any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a portable ultrasonic science probe disinfect box of dismantling, includes disinfect box (1), its characterized in that: the bottom end of the disinfection box (1) is connected with a waste liquid collecting box (2), the top end of the disinfection box (1) is provided with a top cover frame (3), five placing through holes (4) which are distributed annularly are formed in the top end of the top cover frame (3), and five killing mechanisms are arranged in the disinfection box (1);

the sterilizing mechanism comprises a linkage rotating rod (6) arranged inside a sterilizing box (1), the linkage rotating rod (6) is externally distributed in an annular equal distance mode and provided with a plurality of connecting fixing blocks (7), one side of each connecting fixing block (7) is connected with an embedding rod (8), one end of each embedding rod (8) is connected with an extrusion spring (9), one end of each extrusion spring (9) is provided with a first linkage elastic rod (10) used for extruding resilience, one side of each first linkage elastic rod (10) is connected with a three second linkage elastic rod (11), a first supporting plate (12) is connected below each second linkage elastic rod (11), and cleaning brushing cloth (13) is detachably arranged at the bottom end of each first supporting plate (12) through a plurality of bolts.

2. The portable detachable ultrasound probe sterilizing box of claim 1, wherein: extrusion spring (9) is inside to be provided with location branch (14), location branch (14) are close to the outside cover of one end and establish with embedding pole (8) and be connected fixed block (7) side fixed connection's installation lantern ring piece (15), first backup pad (12) are close to extrusion spring (9) and are run through on one side with first linkage bullet pole (10) junction and be provided with dwang (16), dwang (16) outside just lie in first backup pad (12) both sides all to be equipped with fixed lantern ring extension board (17), second backup pad (38) are installed to waste liquid collecting box (2) bottom, a plurality of moving wheels (39) are installed to second backup pad (38) below.

3. The portable detachable ultrasound probe sterilizing box of claim 2, wherein: dwang (16) and first backup pad (12) between fixed connection, and dwang (16) outside just be located first backup pad (12) both sides and fixed lantern ring extension board (17) inside swing joint.

4. The portable detachable ultrasound probe sterilizing box of claim 1, wherein: five outside and the position department that is located waste liquid collecting box (2) bottom of linkage bull stick (6) all install drive gear (18), five drive gear (18) are the meshing of annular enclosure dot position department and have linkage gear (19), linkage gear (19) one end is connected with actuating lever (20), driving motor (21) that are used for the drive are installed to actuating lever (20) one end.

5. The portable detachable ultrasound probe sterilizing box of claim 1, wherein: the three second linkage elastic rods (11) are sequentially arranged along the upper surface of the first supporting plate (12) in an inclined mode, and the first linkage elastic rods (10) are fixedly connected with the second linkage elastic rods (11).

6. The portable detachable ultrasound probe sterilizing box of claim 1, wherein: the exterior of the sterilizing mechanism is provided with a collecting and spraying mechanism which comprises an annular spraying pipe (22) arranged outside the sterilizing mechanism, the bottom end of the annular jet pipe (22) is provided with oblique jet pipes (23) which are parallel to the first supporting plate (12) and are distributed in an annular shape at equal intervals, one side of each oblique spray pipe (23) is communicated with a plurality of spray heads (24), a connecting pipe (25) is arranged in front of each two oblique spray pipes (23), one end of the connecting pipe (25) is connected with a collecting pipe (26), the bottom end of the collecting pipe (26) is provided with a first electric control valve (27), one end of the first electric control valve (27) is connected with an input pipe (28), a second electric control valve (29) is arranged below the input pipe (28), one end of the input pipe (28) is connected with a leading-in pipe (30), and one end of the leading-in pipe (30) is provided with a pump (31).

7. The portable detachable ultrasound probe sterilizing box of claim 6, wherein: the pump machine is characterized in that the input end of the pump machine (31) is communicated with a guide pipe (32), the top end of the guide pipe (32) is connected with an access pipe (33), one end of the access pipe (33) is provided with a third electric control valve (34), the bottom end of the third electric control valve (34) is communicated with a disinfectant and disinfectant bearing box (35), one side of the guide pipe (32) is communicated with a shunt threaded valve pipe (36), and one end of the shunt threaded valve pipe (36) is in threaded connection with a collection box (37).

8. The portable detachable ultrasound probe sterilizing box of claim 6, wherein: the bottom ends of the five connecting pipes (25) are communicated with a collecting pipe (26) and are distributed and arranged in an annular and equidistant mode, and the input pipe (28) is communicated with a second electric control valve (29).

9. The portable detachable ultrasound probe sterilizing box of claim 1, wherein: the utility model discloses a set up the coaxial drive extrusion of top cap frame (3), top cap frame (3) inside is provided with linkage lantern ring bull stick (40), the first linkage ring gear (41) of linkage lantern ring bull stick (40) outside fixedly connected with, first linkage ring gear (41) one side meshing has second linkage ring gear (42), first rotation motor (43) that are used for coaxial transmission to connect are installed on second linkage ring gear (42) top, linkage lantern ring bull stick (40) outside just is located first linkage ring gear (41) below and is provided with a plurality of arc extrusion strips (44), arc extrusion strip (44) below is provided with location bull stick (45), location bull stick (45) bottom is connected with reverse bull stick (46), second rotation motor (47) are installed to reverse bull stick (46) bottom, location bull stick (45) outside is provided with a plurality of subtend extrusion strips (48).

10. The portable detachable ultrasound probe sterilizing box of claim 9, wherein: the upper end and the lower end of the reverse rotating rod (46) are respectively connected with the second rotating motor (47) and the positioning rotating rod (45) in a coaxial transmission mode, a positioning shaft rod (5) is arranged inside the linkage sleeve ring rotating rod (40), the positioning shaft rod (5) is movably connected with the linkage sleeve ring rotating rod (40), and the top end of the positioning shaft rod (5) is fixedly connected with the top end of the inner wall of the top cover frame (3).

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