CN109745075B - Automatic coupling probe composite set - Google Patents

Abstract

The invention relates to an automatic coupling probe combination device which comprises an installation frame, wherein a sliding hole is formed in the upper end of the installation frame, a lifting locking mechanism is arranged in the sliding hole, and an extrusion coupling mechanism is arranged at the lower end of the installation frame. The invention can solve the problems that the couplant is required to be coated on the ultrasonic probe by inspectors in the inspection process of the existing ultrasonic probe, the time consumption for controlling the couplant to coat the ultrasonic probe during the inspection is controlled, the inspection efficiency is influenced, the inspectors are easy to be distracted, the observed image is not accurate, and the like, can realize the function of intelligently coating the couplant of the ultrasonic probe, and has the advantages of time saving, high inspection efficiency, accurate observation and the like.

Description

Automatic coupling probe composite set

Technical Field

The invention relates to the technical field of ultrasonic detection equipment, in particular to an automatic coupling probe combination device.

Background

The ultrasonic inspection is mainly used for body examination by observing the reflection of ultrasonic waves by a human body, and the ultrasonic probe needs to be coated with coupling liquid in order to contact the ultrasonic probe with the human body during the ultrasonic examination.

However, the existing ultrasonic probe inspection process has the following problems: the couplant is coated on the ultrasonic probe by the inspectors, the time consumed for controlling the couplant to coat the ultrasonic probe during inspection is shortened, the inspection efficiency is influenced, the inspectors are easily distracted, and the observed images are inaccurate.

For the problems existing in ultrasonic examination, technical improvements are made in related industries, and specific technical solutions are proposed, for example, patent No. 2018100386486, an automatic coupling probe combination device in ultrasound department enables an ultrasonic probe to complete accurate displacement treatment without the help of hands of doctors through a multidirectional automatic displacement device and a terminal control mode.

In view of the above considerations, the problem of how to automatically apply the coupling liquid on the probe to ensure that the inspector can accurately observe the image has not been solved.

Disclosure of Invention

In order to solve the problems, the invention provides an automatic coupling probe combination device, which can solve the problems that in the existing ultrasonic probe inspection process, an inspector needs to coat a couplant on an ultrasonic probe, the time consumed for controlling the couplant to coat the ultrasonic probe in the inspection process is controlled, the inspection efficiency is influenced, the inspector is easily distracted, the observed image is not accurate, and the like, can realize the function of intelligently coating the couplant on the ultrasonic probe, and has the advantages of time saving, high inspection efficiency, accurate observation and the like.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides an automatic coupling probe composite set, includes the installing frame, and the upper end of installing frame is provided with the slip hole, is provided with lift locking mechanism in the slip hole, and the lower extreme of installing frame is provided with extrusion coupling mechanism.

The lifting locking mechanism comprises a pressing rod arranged in a sliding hole in a sliding fit mode, an operation limiting rod is arranged on the pressing rod, the lower end of the pressing rod is mounted on a locking frame, a lifting spring column is arranged between the locking frame and the inner wall of an installation frame, execution locking branched chains are symmetrically arranged on the left side and the right side of the locking frame, limiting branched chains are arranged on the installation frame and are matched with the pressing rod to move, an ultrasonic probe is placed in the execution locking branched chains, the execution locking branched chains are used for positioning and locking the ultrasonic probe, the pressing rod is controlled to drive the ultrasonic probe to perform position adjustment operation, and the limiting branched chains play a positioning role in lifting of the pressing rod.

The extrusion coupling mechanism comprises a coupling working frame arranged at the lower end of an installation frame, extrusion branched chains are symmetrically arranged at the left end and the right end of the coupling working frame, the upper end and the lower end of the coupling working frame are both of an open structure, an electric telescopic door is arranged at the lower end of the coupling working frame, extrusion fixed branched chains are symmetrically arranged on the inner wall of the coupling working frame, when an ultrasonic probe moves downwards to the coupling working frame, the extrusion branched chains control the extrusion of a coupling agent, so that the coupling agent is automatically covered on the ultrasonic probe, the electric telescopic door is opened and closed, the ultrasonic probe can pass through the coupling working frame without obstacles, the extrusion fixed branched chains lock the ultrasonic probe, the ultrasonic probe is convenient to use, the distractive operation of inspectors is not needed, and the image data of observation reaction which can be attentively observed by.

The locking branch chain comprises an execution vertical plate arranged on the inner wall of the lower end of the locking frame, a locking groove is formed in the middle of the execution vertical plate, a locking bracket is arranged in the locking groove in a sliding fit mode, one end of the locking bracket is connected with the inner wall of the locking frame through a telescopic spring column, and a locking guide plate is arranged at the other end of the locking bracket;

the locking device is characterized in that a driven locking frame is arranged on the side wall of the execution vertical plate through a pin shaft, an execution spring is arranged between the side wall of the driven locking frame and the execution vertical plate, the driven locking frame is of an L-shaped structure, the lower end of the driven locking frame is abutted against the locking guide plate, a driven locking block is arranged at the upper end of the driven locking frame and is of an arc-shaped bending structure, and the driven locking block is made of rubber.

The middle part of the locking guide plate is provided with a locking clamping groove, the inner wall of the locking guide plate is provided with a locking auxiliary roller through a bearing, and the front end of the locking guide plate is of an outward inclined structure.

The limiting branched chain comprises a limiting vertical frame arranged on the mounting frame, a limiting clamping frame is arranged on the limiting vertical frame through a limiting spring column, a limiting clamping groove is formed in the limiting vertical frame, a positioning clamping frame is arranged in the limiting clamping groove in a sliding fit mode, one end of the positioning clamping frame is arranged on the limiting clamping frame, and a limiting groove is formed in the other end of the positioning clamping frame;

be provided with the location spring post on the installing frame, be provided with the location fixture block on the location spring post, location fixture block joint is in spacing inslot.

The extrusion branched chain comprises a coupling placing cavity arranged in a coupling working frame, a discharge port is arranged at the lower end of the coupling placing cavity, an extrusion hole is formed in the upper end of the coupling placing cavity, an extrusion rod is movably arranged in the extrusion hole, an extrusion spring is arranged between the extrusion rod and the coupling working frame, and an extrusion plate is arranged at the lower end of the extrusion rod;

the rear end of the mounting frame is provided with an adjusting groove, an adjusting pressure rod is arranged in the adjusting groove through a pin shaft and abuts against the extrusion rod, and an adjusting cylinder is arranged between the adjusting pressure rod and the mounting frame through the pin shaft.

The extrusion fixing branched chain comprises an extrusion fixing plate arranged on the inner wall of the coupling working frame through a reset spring rod, the rear end of the extrusion fixing plate is connected with an extrusion transmission frame in a sliding fit mode, and the extrusion transmission frame is connected to the inner wall of the coupling working frame through a pin shaft.

The extrusion transfer frame is V style of calligraphy structure, and the lower extreme of extrusion transfer frame is provided with the extrusion transfer piece, and the extrusion transfer piece comprises the rubber material.

The invention has the beneficial effects that:

1. the invention can solve the problems that the couplant is required to be coated on the ultrasonic probe by inspectors in the inspection process of the existing ultrasonic probe, the time consumption for controlling the couplant to coat the ultrasonic probe during the inspection is controlled, the inspection efficiency is influenced, the inspectors are easy to be distracted, the observed image is not accurate, and the like, can realize the function of intelligently coating the couplant of the ultrasonic probe, and has the advantages of time saving, high inspection efficiency, accurate observation and the like.

2. According to the extrusion coupling mechanism designed by the invention, the ultrasonic probe moves downwards to extrude the branched chain to control the extruding of the couplant, so that the couplant is automatically covered on the ultrasonic probe, and the fixed branched chain is extruded to lock the ultrasonic probe, so that the ultrasonic probe is convenient to use, the operation of an inspector is not required to be distracted, and the inspector can observe image data of reaction with concentration.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a schematic structural diagram between the locking frame and the branch chain for performing locking according to the present invention;

FIG. 3 is a schematic structural view of the present invention between the mounting frame, the pressing rod and the limiting branched chain;

fig. 4 is a schematic structural view between the mounting frame and the press coupling mechanism of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 4, an automatic coupling probe combination device comprises an installation frame 1, wherein a sliding hole is formed in the upper end of the installation frame 1, a lifting locking mechanism 2 is arranged in the sliding hole, and a squeezing coupling mechanism 3 is arranged at the lower end of the installation frame 1.

The lifting locking mechanism 2 comprises a pressing rod 21 arranged in a sliding hole in a sliding fit mode, an operation limiting rod is arranged on the pressing rod 21, the lower end of the pressing rod 21 is installed on a locking frame 22, a lifting spring column 23 is arranged between the locking frame 22 and the inner wall of an installation frame 1, execution locking branched chains 24 are symmetrically arranged on the left side and the right side of the locking frame 22, limit branched chains 25 are arranged on the installation frame 1, the limit branched chains 25 and the pressing rod 21 are in matched motion with each other, an ultrasonic probe is placed in the execution locking branched chains 24, the execution locking branched chains 24 are used for positioning and locking the ultrasonic probe, the pressing rod 21 is controlled to drive the ultrasonic probe to perform position adjustment operation, and the limit branched chains 25 play a positioning role in lifting of the pressing rod 21.

The execution locking branched chain 24 comprises an execution vertical plate 241 arranged on the inner wall of the lower end of the locking frame 22, a locking groove is arranged in the middle of the execution vertical plate 241, a locking bracket 242 is arranged in the locking groove in a sliding fit mode, one end of the locking bracket 242 is connected with the inner wall of the locking frame 22 through a telescopic spring column 243, and a locking guide plate 244 is arranged at the other end of the locking bracket 242.

A locking clamping groove is formed in the middle of the locking guide plate 244, a locking auxiliary roller is arranged on the inner wall of the locking guide plate 244 through a bearing, and the front end of the locking guide plate 244 is of an outward inclined structure.

The side wall of the execution vertical plate 241 is provided with a driven locking frame 245 through a pin shaft, an execution spring 246 is arranged between the side wall of the driven locking frame 245 and the execution vertical plate 241, the driven locking frame 245 is in an L-shaped structure, the lower end of the driven locking frame 245 abuts against the locking guide plate 244, the upper end of the driven locking frame 245 is provided with a driven locking block 247, the driven locking block 247 is in an arc-shaped bending structure, and the driven locking block 247 is made of rubber materials.

The inspector controls the ultrasonic probe to extrude between the locking branched chains 24 inwards, the locking guide plate 244 plays a guiding role on the ultrasonic probe, the telescopic spring column 243 controls the locking guide plate 244 to expand towards two sides under the action of the extrusion force so that the ultrasonic probe is clamped into the locking clamping groove, and the locking guide plate 244 extrudes the driven locking frame 245 to control the driven locking block 247 to lock the upper side of the ultrasonic probe when expanding.

The extrusion coupling mechanism 3 is including installing the coupling work frame 31 at the installing frame 1 lower extreme, the both ends symmetry of the left and right sides of coupling work frame 31 is provided with extrusion branched chain 32, the upper and lower both ends of coupling work frame 31 are open structure, the lower extreme of coupling work frame 31 is provided with electronic flexible door 33, the symmetry is provided with extrusion fixed branched chain 34 on the inner wall of coupling work frame 31, when ultrasonic probe downstream arrives coupling work frame 31, extrusion branched chain 32 control couplant is extruded, thereby make the automatic couplant that covers on the ultrasonic probe, electronic flexible door 33 opens and shuts, thereby make ultrasonic probe accessible pass coupling work frame 31, extrusion fixed branched chain 34 locks ultrasonic probe, thereby be convenient for ultrasonic probe's use, need not the operation of inspector distraction, thereby make the image data that the inspector can attentively observe the reaction.

The extrusion branched chain 32 comprises a coupling placing cavity 321 arranged in the coupling working frame 31, a coupling agent is contained in the coupling placing cavity 321, a discharge hole is formed in the lower end of the coupling placing cavity 321, an extrusion hole is formed in the upper end of the coupling placing cavity 321, an extrusion rod 322 is movably arranged in the extrusion hole, an extrusion spring 323 is arranged between the extrusion rod 322 and the coupling working frame 31, and an extrusion plate 324 is arranged at the lower end of the extrusion rod 322; the rear end of the mounting frame 1 is provided with an adjusting groove, an adjusting pressure rod 325 is arranged in the adjusting groove through a pin shaft, the adjusting pressure rod 325 abuts against the extrusion rod 322, an adjusting cylinder 326 is arranged between the adjusting pressure rod 325 and the mounting frame 1 through a pin shaft, the adjusting cylinder 326 controls the adjusting pressure rod 325 to extrude the extrusion rod 322, and the extrusion rod 322 controls the extrusion plate 324 to extrude the coupling agent, so that the coupling liquid is discharged from a discharge hole.

The extrusion fixing branched chain 34 includes an extrusion fixing plate 342 disposed on the inner wall of the coupling operation frame 31 through a reset spring rod 341, the rear end of the extrusion fixing plate 342 is connected with an extrusion transfer frame 343 through a sliding fit manner, and the extrusion transfer frame 343 is connected to the inner wall of the coupling operation frame through a pin shaft.

The extrusion transfer frame 343 is in a V-shaped structure, an extrusion transfer block 344 is arranged at the lower end of the extrusion transfer frame 343, and the extrusion transfer block 344 is made of rubber.

The extrusion transfer block 344 is extruded when the ultrasonic probe moves downward, and the extrusion transfer block 344 controls the extrusion transfer frame 343 to abut against the extrusion fixing plate 342, so that the ultrasonic probe is locked.

The limiting branched chain 25 comprises a limiting vertical frame 251 arranged on the mounting frame 1, a limiting clamping frame 253 is arranged on the limiting vertical frame 251 through a limiting spring column 252, a limiting clamping groove is formed in the limiting vertical frame 251, a positioning clamping frame 254 is arranged in the limiting clamping groove in a sliding fit mode, one end of the positioning clamping frame 254 is arranged on the limiting clamping frame 253, and a limiting groove is formed in the other end of the positioning clamping frame 254; be provided with location spring post 255 on the installing frame 1, be provided with location fixture block 256 on the location spring post 255, location fixture block 256 joint is in the spacing inslot.

The inspection personnel downward control presses the pressing rod 21 and moves to suitable position to make ultrasonic probe move the operation downwards, and the manual location fixture block 256 that presses makes the location card frame 254 separate with the spacing groove, thereby makes spacing card frame 253 can move to suitable position department and carry out spacingly to pressing the pressing rod 21, thereby unclamp the location fixture block 256 and lock the operating position of ultrasonic probe.

Detection preparation: the inspector controls the ultrasonic probe to extrude between the locking branched chains 24 inwards, the locking guide plate 244 plays a guiding role on the ultrasonic probe, the telescopic spring column 243 controls the locking guide plate 244 to expand towards two sides under the action of the extrusion force so that the ultrasonic probe is clamped into the locking clamping groove, and the locking guide plate 244 extrudes the driven locking frame 245 to control the driven locking block 247 to lock the upper side of the ultrasonic probe when expanding.

Preparing a coupling agent: the adjusting cylinder 326 controls the adjusting pressure rod 325 to extrude the extruding rod 322, and the extruding rod 322 controls the extruding plate 324 to extrude the coupling agent, so that the coupling liquid is discharged from the discharge hole.

Coating the couplant of the ultrasonic probe: the inspector controls the pressing rod 21 to move to a proper position, so that the ultrasonic probe moves downwards to attach the coupling liquid, and the electric telescopic door 33 is opened and closed, so that the ultrasonic probe can pass through the coupling working frame 31 without obstacles.

The extrusion transfer block 344 is extruded when the ultrasonic probe moves downward, and the extrusion transfer block 344 controls the extrusion transfer frame 343 to abut against the extrusion fixing plate 342, so that the ultrasonic probe is locked.

The positioning fixture block 256 is manually pressed to separate the positioning fixture frame 254 from the limiting groove, so that the limiting fixture frame 253 can move to a proper position to limit the pressing rod 21, and the positioning fixture block 256 is released to lock the working position of the ultrasonic probe.

The invention has been described in detail with reference to the embodiments illustrated in the drawings, and it is to be understood that variations and equivalent arrangements may be resorted to by those skilled in the art having the benefit of the teachings herein.

Claims (4)

1. An automatic coupling probe composite set, includes installing frame (1), its characterized in that: the upper end of the mounting frame (1) is provided with a sliding hole, a lifting locking mechanism (2) is arranged in the sliding hole, and the lower end of the mounting frame (1) is provided with an extrusion coupling mechanism (3);

the lifting locking mechanism (2) comprises a pressing rod (21) arranged in a sliding hole in a sliding fit mode, an operation limiting rod is arranged on the pressing rod (21), the lower end of the pressing rod (21) is installed on a locking frame (22), a lifting spring column (23) is arranged between the locking frame (22) and the inner wall of the installation frame (1), execution locking branched chains (24) are symmetrically arranged on the left side and the right side of the locking frame (22), a limiting branched chain (25) is arranged on the installation frame (1), and the limiting branched chain (25) and the pressing rod (21) are in mutual fit movement;

the extrusion coupling mechanism (3) comprises a coupling working frame (31) arranged at the lower end of the mounting frame (1), extrusion branched chains (32) are symmetrically arranged at the left end and the right end of the coupling working frame (31), the upper end and the lower end of the coupling working frame (31) are both of an open structure, an electric telescopic door (33) is arranged at the lower end of the coupling working frame (31), and extrusion fixing branched chains (34) are symmetrically arranged on the inner wall of the coupling working frame (31);

the execution locking branched chain (24) comprises an execution vertical plate (241) arranged on the inner wall of the lower end of the locking frame (22), a locking groove is formed in the middle of the execution vertical plate (241), a locking support (242) is arranged in the locking groove in a sliding fit mode, one end of the locking support (242) is connected with the inner wall of the locking frame (22) through a telescopic spring column (243), and a locking guide plate (244) is arranged at the other end of the locking support (242);

the side wall of the execution vertical plate (241) is provided with a driven locking frame (245) through a pin shaft, an execution spring (246) is arranged between the side wall of the driven locking frame (245) and the execution vertical plate (241), the driven locking frame (245) is of an L-shaped structure, the lower end of the driven locking frame (245) abuts against the locking guide plate (244), the upper end of the driven locking frame (245) is provided with a driven locking block (247), the driven locking block (247) is of an arc-shaped bending structure, and the driven locking block (247) is made of rubber materials;

a locking clamping groove is formed in the middle of the locking guide plate (244), an auxiliary locking roller is arranged on the inner wall of the locking guide plate (244) through a bearing, and the front end of the locking guide plate (244) is of an outward inclined structure;

the extrusion branched chain (32) comprises a coupling placing cavity (321) arranged in the coupling working frame (31), a discharge hole is formed in the lower end of the coupling placing cavity (321), an extrusion hole is formed in the upper end of the coupling placing cavity (321), an extrusion rod (322) is movably arranged in the extrusion hole, an extrusion spring (323) is arranged between the extrusion rod (322) and the coupling working frame (31), and an extrusion plate (324) is arranged at the lower end of the extrusion rod (322);

the rear end of the mounting frame (1) is provided with an adjusting groove, an adjusting pressure rod (325) is arranged in the adjusting groove through a pin shaft, the adjusting pressure rod (325) abuts against the extrusion rod (322), and an adjusting cylinder (326) is arranged between the adjusting pressure rod (325) and the mounting frame (1) through the pin shaft.

2. An automatically coupled probe assembly as claimed in claim 1, wherein: the limiting branched chain (25) comprises a limiting vertical frame (251) arranged on the mounting frame (1), a limiting clamp frame (253) is arranged on the limiting vertical frame (251) through a limiting spring column (252), a limiting clamp groove is formed in the limiting vertical frame (251), a positioning clamp frame (254) is arranged in the limiting clamp groove in a sliding fit mode, one end of the positioning clamp frame (254) is arranged on the limiting clamp frame (253), and a limiting groove is formed in the other end of the positioning clamp frame (254);

the mounting frame (1) is provided with a positioning spring column (255), the positioning spring column (255) is provided with a positioning fixture block (256), and the positioning fixture block (256) is clamped in the limiting groove.

3. An automatically coupled probe assembly as claimed in claim 1, wherein: the extrusion fixing branched chain (34) comprises an extrusion fixing plate (342) arranged on the inner wall of the coupling working frame (31) through a reset spring rod (341), the rear end of the extrusion fixing plate (342) is connected with an extrusion transmission frame (343) in a sliding fit mode, and the extrusion transmission frame (343) is connected to the inner wall of the coupling working frame through a pin shaft.

4. An automatically coupled probe assembly as claimed in claim 3, wherein: the extrusion transfer frame (343) is of a V-shaped structure, the lower end of the extrusion transfer frame (343) is provided with an extrusion transfer block (344), and the extrusion transfer block (344) is made of rubber materials.

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