CN113274057B - Wireless ultrasonic detection equipment with replaceable sound head - Google Patents

Abstract

The invention discloses a wireless ultrasonic detection device with a replaceable sound head, which comprises a box body, a main body, four replacing mechanisms and four cleaning mechanisms, wherein the main body is arranged on the box body, each replacing mechanism is arranged in the box body, each cleaning mechanism is arranged above the replacing mechanism, a detachable ultrasonic probe is arranged on the main body, the replacing mechanisms realize the separation of the main body and the ultrasonic probe, each replacing mechanism is provided with the ultrasonic probe, and the cleaning mechanisms clean and disinfect the ultrasonic probes. The ultrasonic detection equipment can replace the corresponding ultrasonic probes according to different use scenes, and compared with a method for detecting different parts by using different ultrasonic detection equipment, the ultrasonic detection equipment is more diversified and has stronger adaptability.

Description

Wireless ultrasonic detection equipment with replaceable sound head

Technical Field

The invention relates to the technical field of ultrasonic detection, in particular to wireless ultrasonic detection equipment with a replaceable sound head.

Background

The traditional ultrasonic probe is connected with a computer system through a cable, the application range of the ultrasonic probe is severely limited by the length of the cable, inconvenience is brought to diagnosis and application of doctors, the doctors are required to pay attention to the cable when using the ultrasonic probe, and once the conditions of winding, pulling, clamping and the like occur, the examination is interrupted, the cable needs to be replaced again and the flat cable needs to be rewired, so that the efficiency and the progress of the examination work are seriously influenced by the connection mode of the ultrasonic probe and the computer system. Therefore, the color Doppler ultrasound system is developed towards a portable and handheld type.

The prior palm color Doppler ultrasound equipment is characterized in that a host is provided with an ultrasonic probe, a user cannot replace the ultrasonic probe by himself, and when different parts need to be detected, different palm color Doppler ultrasound systems need to be used, so that the operation of the user is very inconvenient. Moreover, the ultrasonic probe is often dropped on the floor to cause scrapping, and the non-detachable ultrasonic probe and the main machine cause the replacement of the whole ultrasonic device, which results in high use cost.

Disclosure of Invention

The invention aims to provide a wireless ultrasonic detection device with a replaceable sound head, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a wireless ultrasonic testing equipment of removable sound head which characterized in that: the ultrasonic detection equipment comprises a box body, a main body, four replacing mechanisms and four cleaning mechanisms, wherein the main body is arranged on the box body, each replacing mechanism is arranged in the box body, each cleaning mechanism is arranged above the replacing mechanism, a detachable ultrasonic probe is arranged on the main body, the replacing mechanisms realize the separation of the main body and the ultrasonic probe, each replacing mechanism is provided with the ultrasonic probe, and the cleaning mechanisms clean and disinfect the ultrasonic probes; the ultrasonic detection equipment can replace the corresponding ultrasonic probes according to different use scenes, and compared with a method for detecting different parts by using different ultrasonic detection equipment, the ultrasonic detection equipment is more diversified and has stronger adaptability.

The box body is provided with two groups of clamping grooves, a main body is arranged in each group of clamping grooves, an upper box body is rotatably arranged on the box body, the upper box body covers the upper end face of the box body, a touch screen is arranged on the outer end face of the upper box body, a control system is arranged in the box body and is electrically connected with the touch screen, and four groups of replacing spaces are arranged in the box body; the touch screen displays the ultrasonic detection picture and displays the shape of the ultrasonic probe in each group of replacement spaces, a user can know the position of the ultrasonic probe with each specification and shape, the control system comprises a charging assembly, the charging assembly charges the ultrasonic probe, the ultrasonic probe and the main body are provided with a power module, the cruising ability of the ultrasonic detection device is improved by the mutual matching of the ultrasonic probe and the main body, and meanwhile, the touch screen displays the electric quantity in the inside of the ultrasonic probe, so that the user can know the current electric quantity in the inside of the ultrasonic probe.

The main body is internally provided with a detection system, the detection system is wirelessly connected with a control system or external equipment, and the main body is connected with the ultrasonic probe in a clamping way; the detection system comprises a wireless component and a wireless charging component, the control system further comprises a wireless charging component, the box body wirelessly charges the main body placed in the clamping groove through the wireless ultrasonic component, the ultrasonic detection equipment displays an ultrasonic picture on the touch screen through the detection system and the control system, a user can check ultrasonic conditions conveniently, the process that the main body is wirelessly connected with other equipment is saved, and the ultrasonic detection equipment can be used rapidly.

The four groups of replacing mechanisms are respectively arranged in the four groups of replacing spaces, each group of replacing mechanism comprises a bearing plate and an ejecting pipe, the bearing plate is connected with the box body in a sliding mode, one end of the ejecting pipe is connected with the bearing plate, the other end of the ejecting pipe is connected with the box body, and two groups of separating columns are arranged at the upper end of each group of bearing plate; after the part of the bearing plate bearing the ultrasonic probe is popped out of the box body, the popping pipe is in a compressed state, the ultrasonic probe is taken down from the bearing plate and is placed on the bearing plate after being installed on the main body or after being taken down from the main body, a user pushes the bearing plate into a replacement space, and after the bearing plate is pushed into the replacement space, the temperature inside the popping pipe rises, so that the air pressure inside the popping pipe becomes normal pressure, and the bearing plate is located in the replacement space and cannot be popped out.

The cleaning mechanisms are arranged in four replacing spaces respectively, each cleaning mechanism is located above the bearing plate, one cleaning mechanism comprises a cleaning cotton block, the rest three cleaning mechanisms comprise two groups of supporting columns and cleaning plates in sliding connection with the supporting columns, the supporting columns are in sliding connection with the box body, and the cleaning plates and the cleaning cotton blocks clean and disinfect the ultrasonic probe.

Two groups of sliding plates are arranged in each group of replacing space, each group of sliding plates is provided with a pop-up chute, and a bottom plate is arranged at a position close to an outlet of the replacing space in the replacing space;

sliding rails are arranged at positions corresponding to the two groups of sliding plates below each group of the bearing plates, the sliding rails are positioned in the pop-up sliding grooves, an L-shaped stretching plate is arranged at one end, away from the bottom plate, of each bearing plate, one end of each pop-up pipe is connected with the corresponding stretching plate, and the other end of each pop-up pipe is connected with the bottom plate; slide and slide rail are mutually supported and are provided the basis for the slip of loading board in changing the space, and the extension and the shrink of popping out the pipe provide the basis for tensile board and bottom plate mutually support, and when popping out the pipe extension, the loading board is arranged in changing the space, and when popping out the pipe shrink, the loading board stretches out and changes the space.

The ejection pipe is of a corrugated pipe structure, each group of ejection pipes comprises a sleeve and a plurality of groups of support rings, the support rings are arranged in the sleeve, a vacuum plate is arranged in each group of support rings through two groups of connecting rods, two groups of semiconductors are further arranged on the support rings, the other ends of the semiconductors are connected with the vacuum plate, and the semiconductors are electrically connected with the control system. The two semiconductors are divided into a P-type semiconductor and an N-type semiconductor, the vacuum plate is a metal plate, current flows to the N-type semiconductor from the P-type semiconductor through the vacuum plate or flows to the P-type semiconductor from the N-type semiconductor through the vacuum plate under the control of the control system, so that the vacuum plate dissipates heat and heats air and moisture inside the popup tube when the popup tube extends, the air pressure inside the popup tube is kept at normal pressure, when the popup tube contracts, the vacuum plate absorbs the heat inside the popup tube, the moisture inside the popup tube is condensed and molecules in the air are reduced, so that the vacuum degree in the popup tube is improved, the inside of the popup tube is popped up to be negative pressure, the popup tube contracts under the extrusion of the air in the replacing space, and the bearing plate extends out of the replacing space.

Deformation sliding grooves are formed in the end face of one side of each group of cleaning plates at positions corresponding to the two groups of supporting columns, and the supporting columns are connected with the cleaning plates in a sliding mode through the deformation sliding grooves; deformation spout provides the basis for the sliding connection between support column and the clearance board, and when ultrasonic probe supported on the clearance board, along with inside ultrasonic probe constantly got into the change space, the clearance board constantly takes place the bending under ultrasonic probe's top is moved, and two sets of support columns carry out crooked support to the clearance board.

A cleaning space is formed in the cleaning plate, a plurality of groups of cleaning holes are formed in the end face of the other side of the cleaning plate, a plurality of groups of abutting columns are arranged in the cleaning plate, and the other end of each group of abutting columns is located in the plate body of the cleaning plate; the clean space provides the space to the transfer of air, the air that contains water smoke and the air that contains the disinfection composition, and above-mentioned air strikes on the ultrasonic probe surface through clean hole to play and clean and sterile effect to the ultrasonic probe, support the post and support the ultrasonic probe through splint, pull rod and clean silk floss, make and have the space between clean hole and the ultrasonic probe, thereby make things convenient for the air to clear up and disinfect the ultrasonic probe surface.

Triangular cleaning grooves are formed in the positions, corresponding to each group of abutting columns, of the end face of the other side of the cleaning plate, telescopic assemblies are arranged inside the abutting columns, cleaning sliding grooves are formed in the ends, close to the cleaning grooves, of the abutting columns, pull rods are arranged inside the abutting columns, sleeve seats are arranged on the outer sides, located inside the pull rods, of the abutting columns, one ends of the pull rods are connected with the telescopic assemblies, two groups of clamping plates are rotatably arranged at one ends, close to the cleaning grooves, of the sleeve seats, two groups of tightening blocks are arranged on the pull rods, the tightening blocks are abutted to the sleeve seats when the pull rods are pulled by the telescopic assemblies, and a group of cleaning sponge is arranged at the other ends of the pull rods and the other ends of the two groups of clamping plates. The telescopic assembly makes the pull rod extend or contract inside the abutting set, when the pull rod extends, the cleaning sponge is in a flat state, when the pull rod is contracted, the cleaning sponge is in a superposed state, namely the cleaning sponge is bent from the middle part, and the two ends are superposed together, the two ends of the sleeve seat are respectively provided with the tightening block and the pushing block, when the pull rod extends, the sleeve seat is pushed out by the pull rod through the pushing block, namely the direction of the triangular cleaning groove, so that the two groups of clamping plates are respectively attached to the inclined end surfaces at the two ends of the cleaning groove under the pushing of the sleeve seat, when the pull rod is contracted, the pull rod pulls the sleeve seat through the tightening block, so that the sleeve seat enters the abutting column, the two groups of clamping plates are mutually close under the driving of the sleeve seat and are superposed on the cleaning sponge, the pull rod and the two groups of clamping plates are mutually matched to make the cleaning sponge in a flat state or a superposed state, when the ultrasonic probe enters the replacing space, the pull rod is in a state, The clamp plate resists the ultrasonic probe through the cleaning cotton, so that a space exists between the ultrasonic probe and the cleaning plate, the ultrasonic probe is abutted on the cleaning cotton, the cleaning cotton absorbs impurities on the surface of the ultrasonic probe, the cleaning cotton is overlapped by pulling the pull rod, the part of the ultrasonic probe which is resisted is cleaned, and meanwhile, the two groups of clamp plates still resist the ultrasonic probe, so that a space still exists between the ultrasonic probe and the cleaning plate.

Each group of the separation columns is in a right-angled trapezoid structure, and two groups of separation plates in the right-angled trapezoid structure are arranged on two sides of each separation column;

the bearing plate is provided with two groups of separation columns, and the separation columns are arranged on the bearing plate;

the ultrasonic probe is characterized in that a clamping air bag is arranged at the position, corresponding to the two groups of separation columns, of one end, provided with the ultrasonic probe, of the main body, the separation columns extrude the clamping air bag, and the separation columns separate the ultrasonic probe from the main body through separation plates on two sides.

An electric connecting plate and partition plates are sequentially arranged on one side, located on the detection system, of the main body from the middle to two ends, the electric connecting plates are electrically connected with the detection system, and a lower clamping plate is arranged on one side, away from the detection system, of each partition plate;

the ultrasonic probes are divided into three groups of external ultrasonic probes and one group of internal ultrasonic probes, and a detection system is arranged in each group of ultrasonic probes;

the in-vitro ultrasonic probe and the in-vivo ultrasonic probe are both provided with a joint head, the middle part of the joint head is provided with an electrical interface, the electrical interface is electrically connected with a detection system, joint spaces are arranged on the joint head on two sides of the electrical interface, each group of joint spaces is provided with an upper clamping plate, the upper end and the lower end of each upper clamping plate are provided with clamping seats, a separation air bag is arranged inside each clamping seat at the lower end, the separation air bag is positioned below the upper clamping plate and is connected with a clamping air bag pipeline, the lower clamping plate extends into the joint spaces and is clamped and connected with the upper clamping plates, and the upper clamping plates and the lower clamping plates are mutually matched to enable the ultrasonic probe to be clamped and connected with a main body; the separation column extrudes the clamping air bag to enable air in the clamping air bag to enter the separation air bag, the separation air bag enables the upper clamping plate to be upwards pushed, the upper clamping plate is separated from the lower clamping plate, the clamping connection between the ultrasonic probe and the main body is released, and then the separation column enables the ultrasonic probe to be separated from the main body through the separation plate.

The electric connection board is inserted into the electric interface and is electrically connected with the electric interface, and the detection system transmits the data of ultrasonic detection to the detection system through the electric connection board and the electric interface. The detection system comprises a power module, and the detection system is electrically connected with the power module in the detection system through an electric connection board and an electric interface.

Cover plates are arranged on the outer sides of each group of replacement spaces on the box body, and the cover plates are used for plugging outlets of the replacement spaces;

the two sides of the electric interface on the connecting head are provided with connecting ports, and the two groups of connecting ports are electrically connected with the power supply module;

the position that corresponds two sets of interfaces that link up on the apron is provided with and leads electrical pillar, the apron is inside to be provided with flexible subassembly, flexible subassembly makes to lead electrical pillar and stretches out the apron or receive into the apron, leads electrical pillar and links up the interface electricity and connect.

The control system comprises air pipelines for conveying air, water mist and disinfection components, and the air pipelines are connected with the cleaning space;

the outer side of each group of cleaning holes is provided with a cloth bag, and each group of cloth bags is provided with a plurality of groups of cleaning ropes. Air, the air of still water smoke and the air that contains the disinfection composition all flow out clean space through the sack, the flow of air drives the sack and rocks, thereby make the clean rope rock on the ultrasonic probe surface under the drive of sack, the impurity on ultrasonic probe surface is beaten to rocking of clean rope, and make the impurity that drops flow out the space between clearance board and the ultrasonic probe under the drive of air, the air that contains water smoke and disinfection composition strikes on the ultrasonic probe surface under the disturbance of clean rope, thereby realize the cleanness and the disinfection to the ultrasonic probe.

The in vivo ultrasonic probe is inserted into the cleaning cotton block, and the cleaning cotton block cleans and sterilizes the in vivo ultrasonic probe.

Compared with the prior art, the invention has the following beneficial effects:

1. the ultrasonic detection equipment can replace the corresponding ultrasonic probes according to different use scenes, and compared with a method for detecting different parts by using different ultrasonic detection equipment, the ultrasonic detection equipment is more diversified and has stronger adaptability.

2. The sound head is that ultrasonic probe leads to scrapping because often being dropped to the floor, and does not open and dismantle and will lead to scrapping of whole detection equipment, and the sound head belongs to high value and easy loss, and removable sound head means saves a large amount of replacement costs, and every sound head all can be upgraded alone moreover, and then improves the detection effect of instrument.

3. The touch screen displays the ultrasonic detection picture and displays the shape of the ultrasonic probe in each group of replacement spaces, a user can know the position of the ultrasonic probe with each specification and shape, the control system comprises a charging assembly, the charging assembly charges the ultrasonic probe, the ultrasonic probe and the main body are provided with a power module, the cruising ability of the ultrasonic detection device is improved by the mutual matching of the ultrasonic probe and the main body, and meanwhile, the touch screen displays the electric quantity in the inside of the ultrasonic probe, so that the user can know the current electric quantity in the inside of the ultrasonic probe.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic view of the structure of the cover of the present invention opened on a box body;

FIG. 2 is a schematic view of the structure of the main body of the present invention in connection with an ultrasonic probe;

FIG. 3 is a schematic top view of the interior of the housing of the present invention;

FIG. 4 is a schematic view of the front view of the interior of the case of the present invention;

FIG. 5 is a schematic left side view of the interior of the housing of the present invention;

FIG. 6 is a schematic view of the internal structure of the main body of the present invention;

FIG. 7 is a schematic view of the structure of an adaptor according to the present invention;

FIG. 8 is a schematic view of the structure of the upper card board and the lower card board of the present invention;

FIG. 9 is a schematic structural view of region A of FIG. 6 according to the present invention;

FIG. 10 is a schematic view of the connection structure of the loading plate and the ejector tube according to the present invention;

FIG. 11 is a schematic view of the structure of the separation column of the present invention;

FIG. 12 is a schematic left-view structural view of the ejector tube of the present invention;

FIG. 13 is a front half-section schematic view of the ejector tube of the present invention;

FIG. 14 is a schematic top view of the interior of the cleaning plate of the present invention;

FIG. 15 is a front view of the cleaning plate of the present invention;

FIG. 16 is a schematic view of the connection structure of the cleaning hole and the cloth bag according to the present invention;

FIG. 17 is a schematic structural view of the region B in FIG. 14 according to the present invention;

fig. 18 is a schematic structural view of an external ultrasound probe and a cleaning pad of the present invention.

In the figure: 1. a box body; 2. a main body; 3. a mechanism is replaced; 4. a cleaning mechanism; 1-1, an upper box body; 1-2, a clamping groove; 1-3, a control system; 1-4, replacing space; 1-41, a sliding plate; 1-42, a base plate; 1-5, cover plate; 2-1, an external ultrasonic probe; 2-2, detecting system; 2-3, USB interface; 2-4, a partition plate; 2-41 parts of a lower clamping plate; 2-5, electrically connecting the plates; 2-6, an in vivo ultrasound probe; 2-7, an adaptor; 2-71, a linking space; 2-72, an electrical interface; 2-73, an upper clamping plate; 2-74, a card seat; 2-75, separating the air bag; 2-76, a connection port; 2-8, clamping the air bag; 3-1, carrying a plate; 3-11, separating column; 3-12, a limiting column; 3-13, sliding rails; 3-14, stretching a plate; 3-2, ejecting a pipe; 3-21, a sleeve; 3-22, a support ring; 3-23, connecting rod; 3-24, a semiconductor; 3-25, vacuum plate; 4-1, supporting columns; 4-2, cleaning a plate; 4-3, cleaning cotton blocks; 4-21, a deformation chute; 4-22, cleaning the space; 4-23, support columns; 4-231, cleaning the chute; 4-232, a pull rod; 4-233, sleeve seat; 4-234, splint; 4-235, cleaning cotton; 4-236 parts of edge-extending cotton; 4-237, tightening block; 4-24, cleaning the holes; 4-241, cloth bag; 4-242 and a cleaning rope.

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.

Referring to fig. 1 to 18, the present invention provides a technical solution: the utility model provides a wireless ultrasonic testing equipment of removable sound head, this ultrasonic testing equipment includes box 1, main part 2, four groups change mechanism 3, four clean mechanisms 4 of group, main part 2 is installed in box 1, every group changes mechanism 3 and all installs inside box 1, the top at change mechanism 3 is all installed to clean mechanism 4 of every group, install detachable ultrasonic probe in main part 2, change mechanism 3 realizes the separation of main part 2 and ultrasonic probe, it all is provided with ultrasonic probe on the mechanism 3 to change every group, clean mechanism 4 cleans and disinfects ultrasonic probe.

The upper end face of the box body 1 is provided with two groups of clamping grooves 1-2, two groups of main bodies 2 are arranged in each group of clamping grooves 1-2, the box body 1 is rotatably provided with an upper box body 1-1, the upper box body 1-1 covers the upper end face of the box body 1, the outer end face of the upper box body 1-1 is provided with a touch screen, a control system 1-3 is arranged in the box body 1, and the control system 1-3 is electrically connected with the touch screen.

Each group of main bodies 2 is provided with a detection system 2-2, the detection system 2-2 is wirelessly connected with a control system 1-3 or external equipment, and the main bodies 2 are connected with the ultrasonic probes in a clamping manner.

One end of the main body 2, which is provided with the ultrasonic probe, is provided with clamping air bags 2-8 at positions corresponding to the two groups of separation columns 3-11, one side end face of each clamping air bag 2-8 is fixed with the main body 2, so that the clamping air bags 2-8 are extruded by the separation columns 3-11, the separation columns 3-11 extrude the clamping air bags 2-8, and the separation columns 3-11 separate the ultrasonic probe from the main body 2 through separation plates at two sides.

An electric connection plate 2-5 and partition plates 2-4 are sequentially arranged on one side of the detection system 2-2 in the main body 2 from the middle part to the two ends, and a lower clamping plate 2-41 is arranged on one side of each group of partition plates 2-4 far away from the detection system 2-2;

the ultrasonic probe comprises three groups of external ultrasonic probes 2-1 and one group of internal ultrasonic probes 2-6, a detection system is arranged in each group of ultrasonic probes, the ultrasonic probes can be upgraded systematically through the detection system, the ultrasonic detection effect is improved, the detection system comprises a power supply module and a probe control assembly, the internal ultrasonic probes 2-6 are inserted into the cleaning cotton blocks 4-3, and the cleaning cotton blocks 4-3 clean and disinfect the internal ultrasonic probes 2-6.

The external ultrasonic probe 2-1 and the internal ultrasonic probe 2-6 are respectively provided with an adapter 2-7, the middle part of the adapter 2-7 is provided with an electrical interface 2-72, the electrical interface 2-72 is electrically connected with a detection system, the adapter 2-7 is provided with linking spaces 2-71 at two sides of the electrical interface 2-72, each group of linking spaces 2-71 is internally provided with an upper clamping plate 2-73 in a sliding way, the upper and lower ends of the upper clamping plate 2-73 are respectively provided with a clamping seat 2-74 in a sliding way, the clamping seats 2-74 are fixed with the upper and lower end faces of the linking spaces 2-71, the clamping seats 2-74 at the lower end are internally provided with a separation air bag 2-75 in a sliding way, the separation air bags 2-75 are positioned below the upper clamping plates 2-73, and the separation air bags 2-75 are connected with clamping air bags 2-8 through pipelines, the lower clamping plate 2-41 extends into the connecting space 2-71 and is clamped and connected with the upper clamping plate 2-73, and the upper clamping plate 2-73 and the lower clamping plate 2-41 are mutually matched to enable the ultrasonic probe to be clamped and connected with the main body 2;

the electric connection board 2-5 is inserted into the electric interface 2-72, the electric connection board 2-5 is electrically connected with the electric interface 2-72, and the detection system transmits the data of the ultrasonic detection to the detection system through the electric connection board and the electric interface. The detection system comprises a power module, and the detection system is electrically connected with the power module in the detection system through an electric connection board and an electric interface.

Cover plates 1-5 are rotatably arranged on the outer sides of each group of replacing spaces 1-4 on the box body 1, a rotation control circuit is arranged on each cover plate 1-5 and is electrically connected with a control system 1-3, and the cover plates 1-5 block outlets of the replacing spaces 1-4;

the two sides of the electric interfaces 2-72 on the joint heads 2-7 are provided with joint ports 2-76, and the two groups of joint ports 2-76 are electrically connected with a power supply module in the detection system;

the positions, corresponding to the two groups of joint ports 2-76, of the cover plate 1-5 are provided with conductive columns, a telescopic assembly is arranged in the cover plate 1-5 and electrically connected with the control system 1-3, the telescopic assembly enables the conductive columns to extend out of the cover plate 1-5 or retract into the cover plate 1-5, and the conductive columns are electrically connected with the joint ports 2-76.

Four groups of replacing mechanisms 3 are respectively arranged in the four groups of replacing spaces 1-4, and each group of replacing mechanisms 3 comprises a bearing plate 3-1 and an ejecting pipe 3-2.

Two groups of separation columns 3-11 are fixed at the upper end of each group of bearing plates 3-1, each group of separation columns 3-11 is in a right-angled trapezoid structure, and two groups of separation plates in right-angled trapezoid structures are arranged on two sides of each separation column 3-11;

the bearing plate 3-1 is provided with limiting columns 3-12 at one side of the two groups of disengaging columns 3-11, and the limiting columns 3-12 and the disengaging columns 3-11 are matched with each other to limit the position of the ultrasonic probe on the bearing plate 3-1.

Four groups of replacing spaces 1-4 are arranged in the box body 1, air outlet pipelines are also arranged in the replacing spaces 1-4 and are used for extracting air injected when the ultrasonic probe is cleaned and disinfected, two groups of sliding plates 1-41 are arranged in each group of replacing spaces 1-4, each group of sliding plates 1-41 is provided with an ejecting chute, and a bottom plate 1-42 is arranged in the replacing space 1-4 and close to the outlet of the replacing space;

sliding rails 3-13 are fixed at positions corresponding to the two groups of sliding plates 1-41 below each group of bearing plates 3-1, the sliding rails 3-13 are positioned in the ejection sliding grooves, an L-shaped stretching plate 3-14 is arranged at one end of each bearing plate 3-1 far away from the bottom plate 1-42, one end of each ejection pipe 3-2 is connected with the corresponding stretching plate 3-14, and the other end of each ejection pipe 3-2 is connected with the corresponding bottom plate 1-42;

the popup tube 3-2 is of a corrugated tube structure, each group of popup tubes 3-2 comprises a sleeve 3-21 and a plurality of groups of support rings 3-22, the plurality of groups of support rings 3-22 are all arranged in the sleeve 3-21, each group of support rings 3-22 is provided with a vacuum plate 3-25 through two groups of connecting rods 3-23, the support rings 3-22 are also provided with two groups of semiconductors 3-24, the other ends of the two groups of semiconductors 3-24 are all connected with the vacuum plates 3-25, and the two groups of semiconductors 3-24 are all electrically connected with the control system 1-3. The ejection pipe 3-2, the stretching plate 3-14 and the bottom plate 1-42 are mutually matched to form a sealed space inside the ejection pipe 3-2, and the ejection pipe 3-2 contains a certain amount of moisture and impurities.

The two semiconductors are divided into a P-type semiconductor and an N-type semiconductor, the vacuum plate is a metal plate, current flows to the N-type semiconductor from the P-type semiconductor through the vacuum plate or flows to the P-type semiconductor from the N-type semiconductor through the vacuum plate under the control of the control system, so that the vacuum plate dissipates heat and heats air and moisture inside the popup tube when the popup tube extends, the air pressure inside the popup tube is kept at normal pressure, when the popup tube contracts, the vacuum plate absorbs the heat inside the popup tube, the moisture inside the popup tube is condensed and molecules in the air are reduced, so that the vacuum degree in the popup tube is improved, the inside of the popup tube is popped up to be negative pressure, the popup tube contracts under the extrusion of the air in the replacing space, and the bearing plate extends out of the replacing space.

Four groups of cleaning mechanisms 4 are respectively arranged in four groups of replacing spaces 1-4, each group of cleaning mechanism 4 is positioned above the bearing plate 3-1, one group of cleaning mechanism 4 comprises a cleaning cotton block 4-3, the other three groups of cleaning mechanisms 4 comprise two groups of supporting columns 4-1 and a cleaning plate 4-2 in sliding connection with the supporting columns 4-1, a deformation sliding groove is formed in the box body 1, the upper ends of the supporting columns 4-1 are positioned in the deformation sliding groove, the supporting columns 4-1 are in sliding connection with the box body 1, and the cleaning plate 4-2 and the cleaning cotton block 4-3 clean and disinfect the ultrasonic probe.

The control system 1-3 comprises air lines and line assemblies (not shown) for delivering air, water mist and disinfecting composition, the air lines being connected to the cleaning space in the cleaning plate 4-2.

Deformation sliding grooves 4-21 are formed in the end face of one side of each group of cleaning plates 4-2 at positions corresponding to the two groups of supporting columns 4-1, sliding blocks are arranged on the supporting columns 4-1 and located in the deformation sliding grooves 4-21, and the supporting columns 4-1 are connected with the cleaning plates 4-2 in a sliding mode through the sliding blocks and the deformation sliding grooves 4-21;

a cleaning space 4-22 is arranged inside the cleaning plate 4-2, a plurality of groups of cleaning holes 4-24 are arranged on the end face of the other side of the cleaning plate 4-2, a plurality of groups of support columns 4-23 are fixed in the cleaning plate 4-2, and the other end of each group of support columns 4-23 is positioned in the plate body of the cleaning plate 4-2;

triangular cleaning grooves are formed in the end face of the other side of the cleaning plate 4-2 corresponding to each group of support columns 4-23, telescopic assemblies (not shown) are arranged inside the support columns 4-23 and electrically connected with the control system 1-3, cleaning sliding grooves 4-231 are formed in one ends of the support columns 4-23 close to the cleaning grooves, pull rods 4-232 are slidably mounted inside the support columns 4-23, sleeve seats 4-233 are mounted on the outer sides of the pull rods 4-232 inside the support columns 4-23, one ends of the pull rods 4-232 are connected with the telescopic assemblies, two groups of clamping plates 4-234 are rotatably mounted at one ends of the sleeve seats 4-233 close to the cleaning grooves, two groups of tightening blocks 4-237 are fixed on the pull rods 4-232, and the two groups of tightening blocks 4-237 are abutted to the sleeve seats 4-233 when the pull rods 4-232 are pulled by the telescopic assemblies, the other end of the pull rod 4-232 and the other end of the two groups of clamping plates 4-234 are provided with a group of cleaning sponges 4-235.

Two sides of the cleaning cotton 4-235 are respectively provided with a group of edge extending cotton 4-236, the contact area of the cleaning cotton 4-235 and the ultrasonic probe is increased by the edge extending cotton 4-236, and the cleaning effect of the cleaning cotton 4-235 on the ultrasonic probe is further improved.

The outer side of each group of cleaning holes 4-24 is fixed with a cloth bag 4-241, and each group of cloth bags 4-241 is provided with a plurality of groups of cleaning ropes 4-242.

The working principle of the invention is as follows:

when ultrasonic detection is needed, the touch screen on the box body 1-1 is touched to awaken the touch screen, so that the electric quantity in the two main bodies 2 is checked, the icon of the corresponding ultrasonic probe on the touch screen is touched, the corresponding cover plate 1-5 is opened by the control system 1-3, the vacuum plate 3-25 in the ejection tube 3-2 is heated by the heat in the ejection tube 3-2, the temperature in the ejection tube 3-2 is reduced, the ejection tube 3-2 contracts under the extrusion of a replacement space and outside air, and the bearing plate 3-1 extends out of the replacement space 1-4.

The main body 2 is taken out of the clamping groove 1-2, the main body 2 is in butt joint with the joint head 2-7, the lower clamping plate 2-41 extends into the joint space and is in clamping connection with the upper clamping plate 2-73, meanwhile, the electric connecting plate 2-5 is inserted into the electric interface 2-72, electric connection of the ultrasonic probe and the main body 2 is achieved, after the ultrasonic probe and the main body 2 are connected, the detection system 2-2 is in wireless connection with the control system 1-3, and a picture detected by ultrasonic detection equipment is displayed in a touch screen.

After the bearing plate 3-1 extends out of the replacing space and the control system 1-3 detects that the ultrasonic probe is taken away, the vacuum plate 3-25 stops refrigerating and starts radiating, a user pushes the bearing plate 3-1 into the replacing space, the popup tube 3-2 is at negative pressure, when the air pressure in the popup tube 3-2 is heated, water is evaporated and fills the space in the popup tube 3-2, the interior of the popup tube 3-2 is at normal pressure, then the control system 1-3 closes the cover plate 1-5, the cover plate 1-5 seals the bearing plate 3-1, and after the cover plate 1-5 is closed, the vacuum plate 3-25 stops heating.

When the ultrasonic probe needs to be replaced, the icon of the corresponding ultrasonic probe on the touch screen is touched, the touch screen transmits a replacement signal to the control system 1-3, the control system 1-3 firstly opens the cover plate 1-5 of the replacement space 1-4 where the ultrasonic probe is originally taken away, so that the bearing plate 3-1 in the space extends out of the replacement space, a user correspondingly detaches the clamping air bag 2-8 from the separation column 3-11, presses the ultrasonic detection equipment from the position right above the separation column 3-11, the detachment column 3-11 extrudes the clamping air bag 2-8, so that the air in the clamping air bag 2-8 enters the separation air bag 2-75, the air is filled into the separation air bag 2-75, so that the upper clamping plate 2-73 rises in the two clamping seats 2-74, and the clamping connection between the upper clamping plate 2-73 and the lower clamping plate 2-41 is released, with the continuous pressing of the ultrasonic detection equipment, the separation column 3-11 separates the ultrasonic probe from the main body 2, then the user pulls the main body 2 down from the adapter 2-7 and presses the bearing plate 3-1 into the replacement space 1-4, and the control system 1-3 closes the cover plate 1-5.

Then, the control system 1-3 opens the corresponding cover plate 1-5 according to the replacing signal transmitted by the touch screen, so that the user connects the main body 2 with the ultrasonic probe, after the connection, the user presses the bearing plate 3-1 into the replacing space 1-4, and the control system 1-3 closes the cover plate 1-5.

When the used ultrasonic probe enters the replacing space 1-4 under the driving of the bearing plate 3-1, the ultrasonic probe is in contact with the cleaning sponge 4-235 on the cleaning plate 4-2 and continuously extends into the cleaning plate 4-2 to extrude the cleaning plate 4-2, so that the cleaning plate 4-2 is deformed, the supporting column 4-1 supports the cleaning plate 4-2, and the cleaning plate 4-2 stops deforming after the ultrasonic probe moves in place.

The control system 1-3 injects pure air, air with water mist and air containing disinfection components into the cleaning space 4-22 through the pipeline in sequence, so that the air sequentially impacts the ultrasonic probe through the cleaning holes 4-24, thereby realizing the cleaning and disinfection of the ultrasonic probe, and the injected air enters the air outlet pipeline from the upper part of the cleaning plate 4-2.

Air flows out of the cleaning space through the cloth bag 4-241, the cloth bag 4-241 is driven to shake by the flowing of the air, so that the cleaning rope 4-242 shakes on the surface of the ultrasonic probe under the driving of the cloth bag 4-241, impurities on the surface of the ultrasonic probe are removed by the shaking of the cleaning rope 4-242, the dropped impurities are driven to flow out of the space between the cleaning plate 4-2 and the ultrasonic probe, and the air containing water mist and disinfection components impacts on the surface of the ultrasonic probe under the disturbance of the cleaning rope 4-242, so that the cleaning and disinfection of the ultrasonic probe are achieved.

It is noted that, herein, 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.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. 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 (7)

1. The utility model provides a wireless ultrasonic testing equipment of removable sound head which characterized in that: the ultrasonic detection equipment comprises a box body (1), a main body (2), four replacing mechanisms (3) and four cleaning mechanisms (4), wherein the main body (2) is arranged on the box body (1), each replacing mechanism (3) is arranged in the box body (1), each cleaning mechanism (4) is arranged above the replacing mechanism (3), a detachable ultrasonic probe is arranged on the main body (2), the replacing mechanisms (3) realize the separation of the main body (2) and the ultrasonic probe, each replacing mechanism (3) is provided with the ultrasonic probe, and the cleaning mechanisms (4) clean and disinfect the ultrasonic probes;

the box body (1) is provided with two groups of clamping grooves (1-2), a main body (2) is arranged in each group of clamping grooves (1-2), an upper box body (1-1) is rotatably arranged on the box body (1), the upper box body (1-1) covers the upper end face of the box body (1), a touch screen is arranged on the outer end face of the upper box body (1-1), a control system (1-3) is arranged in the box body (1), the control system (1-3) is electrically connected with the touch screen, and four groups of replacing spaces (1-4) are arranged in the box body (1);

a detection system (2-2) is arranged in the main body (2), the detection system (2-2) is wirelessly connected with a control system (1-3) or external equipment, and the main body (2) is connected with the ultrasonic probe in a clamping manner;

the four groups of replacing mechanisms (3) are respectively arranged in four groups of replacing spaces (1-4), each group of replacing mechanisms (3) comprises a bearing plate (3-1) and an ejection tube (3-2), the bearing plate (3-1) is connected with the box body (1) in a sliding mode, one end of the ejection tube (3-2) is connected with the bearing plate (3-1), the other end of the ejection tube (3-2) is connected with the box body (1), and two groups of separating columns (3-11) are arranged at the upper end of each group of bearing plates (3-1);

the four groups of cleaning mechanisms (4) are respectively arranged in four groups of replacing spaces (1-4), each group of cleaning mechanism (4) is positioned above the bearing plate (3-1), one group of cleaning mechanism (4) comprises a cleaning cotton block (4-3), the other three groups of cleaning mechanisms (4) comprise two groups of supporting columns (4-1) and cleaning plates (4-2) in sliding connection with the supporting columns (4-1), the supporting columns (4-1) are in sliding connection with the box body (1), and the cleaning plates (4-2) and the cleaning cotton blocks (4-3) clean and disinfect the ultrasonic probe;

two groups of sliding plates (1-41) are arranged in each group of replacing spaces (1-4), each group of sliding plates (1-41) is provided with a pop-up sliding chute, and a bottom plate (1-42) is arranged in the replacing space (1-4) at a position close to an outlet of the replacing space;

sliding rails (3-13) are arranged at positions corresponding to the two groups of sliding plates (1-41) below each group of bearing plates (3-1), the sliding rails (3-13) are positioned in the ejection sliding grooves, one ends, far away from the bottom plates (1-42), of the bearing plates (3-1) are provided with L-shaped stretching plates (3-14), one ends of the ejection tubes (3-2) are connected with the stretching plates (3-14), and the other ends of the ejection tubes (3-2) are connected with the bottom plates (1-42);

the ejection tube (3-2) is of a corrugated tube structure, each group of ejection tubes (3-2) comprises a sleeve (3-21) and a plurality of groups of support rings (3-22), the support rings (3-22) are arranged in the sleeve (3-21), a vacuum plate (3-25) is arranged in each group of support rings (3-22) through two groups of connecting rods (3-23), two groups of semiconductors (3-24) are further arranged on the support rings (3-22), the other ends of the two groups of semiconductors (3-24) are connected with the vacuum plate (3-25), and the two groups of semiconductors (3-24) are electrically connected with a control system (1-3).

2. The wireless ultrasonic testing device with the replaceable sound head as claimed in claim 1, wherein: deformation sliding grooves (4-21) are formed in the end face of one side of each group of cleaning plates (4-2) at positions corresponding to the two groups of supporting columns (4-1), and the supporting columns (4-1) are connected with the cleaning plates (4-2) in a sliding mode through the deformation sliding grooves (4-21);

a cleaning space (4-22) is formed in the cleaning plate (4-2), a plurality of groups of cleaning holes (4-24) are formed in the end face of the other side of the cleaning plate (4-2), a plurality of groups of support columns (4-23) are arranged in the cleaning plate (4-2), and the other end of each group of support columns (4-23) is located in the plate body of the cleaning plate (4-2);

triangular cleaning grooves are formed in the end face of the other side of the cleaning plate (4-2) at positions corresponding to each group of support columns (4-23), telescopic assemblies are arranged inside the support columns (4-23), cleaning sliding grooves (4-231) are formed in one ends, close to the cleaning grooves, of the support columns (4-23), pull rods (4-232) are arranged inside the support columns (4-23), sleeve seats (4-233) are arranged inside the support columns (4-23) and located on the outer sides of the pull rods (4-232), one ends of the pull rods (4-232) are connected with the telescopic assemblies, two groups of clamping plates (4-234) are rotatably arranged at one ends, close to the cleaning grooves, of the sleeve seats (4-233), two groups of tightening blocks (4-237) are arranged on the pull rods (4-232), and the two groups of tightening blocks (4-237) are abutted to the sleeve seats (4-234) when the pull rods (4-232) are pulled by the telescopic assemblies -233), the other end of the pull rod (4-232) and the other end of the two groups of clamping plates (4-234) are provided with a group of cleaning sponges (4-235).

3. The wireless ultrasonic testing device with the replaceable sound head as claimed in claim 2, wherein: each group of the separation columns (3-11) is of a right-angled trapezoid structure, and two groups of separation plates of the right-angled trapezoid structure are arranged on two sides of each separation column (3-11);

one side of the bearing plate (3-1) positioned at two groups of disengaging columns (3-11) is respectively provided with a limiting column (3-12), and the limiting columns (3-12) and the disengaging columns (3-11) are matched with each other to limit the position of the ultrasonic probe on the bearing plate (3-1);

one end of the main body (2) provided with the ultrasonic probe is provided with clamping air bags (2-8) at positions corresponding to the two groups of separation columns (3-11), the separation columns (3-11) extrude the clamping air bags (2-8), and the separation columns (3-11) separate the ultrasonic probe from the main body (2) through separation plates at two sides.

4. The wireless ultrasonic testing device with the replaceable sound head as claimed in claim 3, wherein: an electric connecting plate (2-5) and partition plates (2-4) are sequentially arranged on one side, located on the detection system (2-2), of the interior of the main body (2) from the middle part to two ends, the electric connecting plate (2-5) is electrically connected with the detection system (2-2), and a lower clamping plate (2-41) is arranged on one side, away from the detection system (2-2), of each partition plate (2-4);

the ultrasonic probes are divided into three groups of external ultrasonic probes (2-1) and one group of internal ultrasonic probes (2-6), and a detection system is arranged in each group of ultrasonic probes;

the in-vitro ultrasonic probe (2-1) and the in-vivo ultrasonic probe (2-6) are respectively provided with an adapter (2-7), the middle position of the adapter (2-7) is provided with an electrical interface (2-72), the electrical interface (2-72) is electrically connected with a detection system, the adapter (2-7) is provided with connection spaces (2-71) at two sides of the electrical interface (2-72), each group of connection spaces (2-71) is provided with an upper clamping plate (2-73), the upper and lower ends of the upper clamping plate (2-73) are respectively provided with a clamping seat (2-74), a separation air bag (2-75) is arranged inside the clamping seat (2-74) at the lower end, and the separation air bag (2-75) is positioned below the upper clamping plate (2-73), the separation air bag (2-75) is connected with the clamping air bag (2-8) through a pipeline, the lower clamping plate (2-41) extends into the connecting space (2-71) and is clamped and connected with the upper clamping plate (2-73), and the upper clamping plate (2-73) and the lower clamping plate (2-41) are mutually matched to enable the ultrasonic probe to be clamped and connected with the main body (2);

the electrical connection board (2-5) is inserted into the electrical interface (2-72), the electrical connection board (2-5) is electrically connected with the electrical interface (2-72), and the detection system transmits data of ultrasonic detection to the detection system (2-2) through the electrical connection board (2-5) and the electrical interface (2-72).

5. The wireless ultrasonic testing device with the replaceable sound head as claimed in claim 4, wherein: cover plates (1-5) are arranged on the outer sides of each group of replacement spaces (1-4) on the box body (1), and the cover plates (1-5) are used for plugging outlets of the replacement spaces (1-4);

the two sides of the electric interface (2-72) on the joint heads (2-7) are provided with joint ports (2-76), and the two groups of joint ports (2-76) are electrically connected with a power supply module;

the position, corresponding to the two groups of joint ports (2-76), of the cover plate (1-5) is provided with a conductive column, a telescopic assembly is arranged inside the cover plate (1-5), the telescopic assembly enables the conductive column to extend out of the cover plate (1-5) or retract into the cover plate (1-5), and the conductive column is electrically connected with the joint ports (2-76).

6. The wireless ultrasonic testing device with the replaceable sound head as claimed in claim 5, wherein: the control system (1-3) comprises air pipelines for conveying air, water mist and a disinfecting component, and the air pipelines are connected with the cleaning space;

the outer side of each group of cleaning holes (4-24) is provided with a cloth bag (4-241), and each group of cloth bags (4-241) is provided with a plurality of groups of cleaning ropes (4-242).

7. The wireless ultrasonic testing device with the replaceable sound head as claimed in claim 6, wherein: the in-vivo ultrasonic probe (2-6) is inserted into the cleaning cotton block (4-3), and the cleaning cotton block (4-3) cleans and sterilizes the in-vivo ultrasonic probe (2-6).

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