阅读说明：本技术 一种超声检查辅助架 (Ultrasonic examination auxiliary frame ) 是由 张海霞 于 2019-09-28 设计创作，主要内容包括：本发明公开了一种超声检查辅助架,包括移动台、大臂,大臂呈垂直设置在移动台的顶部中间位置,大臂与移动台之间设有旋转管,大臂与移动台通过旋转管连接；移动台的底部安装有水平设置的横向驱动机构,大臂的顶部设有伸缩臂和连接机构,大臂与伸缩臂通过连接机构活动连接,横向驱动机构包括壳体、曲型固定架、紧固螺栓、电机、螺杆和定位杆,曲型固定架呈垂直焊接在壳体的底部中间位置,紧固螺栓呈垂直贯穿设置在曲型固定架的中间位置,并与曲型固定架通过螺纹连接,具有自动复位和保持静止两种状态,能够给工作人员起到更加优质的辅助效果,同时还能够避免在重力作用下铰接处向下转动,灵活度高等优点。(The invention discloses an ultrasonic examination auxiliary frame which comprises a mobile station and a large arm, wherein the large arm is vertically arranged in the middle of the top of the mobile station, a rotating pipe is arranged between the large arm and the mobile station, and the large arm is connected with the mobile station through the rotating pipe; horizontal actuating mechanism that the level set up is installed to the bottom of mobile station, the top of big arm is equipped with flexible arm and coupling mechanism, big arm passes through coupling mechanism swing joint with flexible arm, horizontal actuating mechanism includes the casing, bent type mount, fastening bolt, including a motor, an end cap, a controller, and a cover plate, screw rod and locating lever, bent type mount is the bottom intermediate position of vertical welding at the casing, fastening bolt is the intermediate position that runs through the setting at bent type mount perpendicularly, and pass through threaded connection with bent type mount, have automatic re-setting and keep static two kinds of states, can play higher-quality supplementary effect for the staff, can also avoid articulated department to rotate downwards under the action of gravity simultaneously, advantages such as flexibility height.)

1. An ultrasonic examination auxiliary frame comprises a mobile station (2) and a large arm (4), and is characterized in that: big arm (4) are the perpendicular top intermediate position that sets up in mobile station (2), be equipped with between big arm (4) and mobile station (2) swivel pipe (3), big arm (4) are connected through swivel pipe (3) with mobile station (2), horizontal actuating mechanism (1) that the level set up is installed to the bottom of mobile station (2), the top of big arm (4) is equipped with flexible arm (6) and coupling mechanism (5), big arm (4) pass through coupling mechanism (5) swing joint with flexible arm (6).

2. An ultrasound examination assistant stand according to claim 1, characterized in that: the transverse driving mechanism (1) comprises a shell (11), a curved fixing frame (12), a fastening bolt (13), a motor (14), a screw rod (15) and a positioning rod (16), wherein the curved fixing frame (12) is vertically welded at the middle position of the bottom of the shell (11), the fastening bolt (13) vertically penetrates through the middle position of the curved fixing frame (12) and is in threaded connection with the curved fixing frame (12), the motor (14) is horizontally arranged on the inner side wall of the shell (11), a horizontal screw rod (15) and a positioning rod (16) are arranged between the two shells (11), two ends of the positioning rod (16) penetrate through the side wall of the shell (11) and are in interference fit with the shell (11), one end of the screw rod (15) penetrates through the side wall of the shell (11) and is in clearance fit with the shell (11), the other end of the screw rod (15) is in transmission connection with an output shaft of the motor (14).

3. An ultrasound examination assistant stand according to claim 1, characterized in that: the mobile station (2) further comprises a sleeve (21), an inner rod (22), a fixing bolt (23) and a reinforcing plate (24), the sleeve (21) is vertically welded at the top edge of the mobile station (2), the reinforcing plate (24) is obliquely welded on the side wall of the sleeve (21), the inner rod (22) is embedded in the sleeve (21) and matched with the sleeve (21), the fixing bolt (23) penetrates through the side wall of the sleeve (21) and is connected with the sleeve (21) through threads, threaded holes distributed at vertical equal intervals are formed in the side wall of the inner rod (22), the screw rod (15) and the positioning rod (16) are horizontally arranged in the middle of the mobile station (2) in a penetrating mode, and clearance fit is achieved between the positioning rod (16) and the mobile station (2), and the screw rod (15) is matched with the mobile station (2) in a penetrating mode.

4. An ultrasound examination assistant stand according to claim 1, characterized in that: rotatory pipe (3) include outer tube (31), inner tube (32), torsional spring (33) and dog (34), inner tube (32) embedding sets up the inside in outer tube (31) to with outer tube (31) looks adaptation, the bottom nestification of inner tube (32) has torsional spring (33), the inside wall of outer tube (31) leans on the lower position welding to have dog (34), the top of inner tube (32) and the bottom intermediate position welding of big arm (4), the bottom of outer tube (31) and the top intermediate position welding of mobile station (2).

5. An ultrasound examination assistant stand according to claim 1, characterized in that: the large arm (4) comprises a groove plate (41), a force arm (42), positioning blocks (43) and a magnet (45), the force arm (42) is embedded in the groove plate (41), the bottom end of the force arm (42) is movably connected with the groove plate (41) through a connecting mechanism (5), the two positioning blocks (43) are respectively embedded in the side walls of the groove plate (41) and the force arm (42), a spring D (44) is arranged between the two positioning blocks (43),

Two ends of the spring D (44) are respectively hinged with the two positioning blocks (43), and the magnet (45) is embedded into the upper position of the inner side wall of the groove plate (41).

6. An ultrasound examination assistant stand according to claim 5, characterized in that: the lateral wall of frid (41) and arm of force (42) all is equipped with draw-in groove (411), frid (41) and arm of force (42) are "concave" font structure, locating piece (43) include sliding block (431), joggle spare (432) and fixture block (433), the inside at draw-in groove (411) is installed in sliding block (431) embedding to with draw-in groove (411) looks adaptation, joggle spare (432) are the horizontal welding in the top intermediate position of sliding block (431), fixture block (433) and sliding block (431) adopt tenon fourth of twelve earthly branches technique to be connected through joggle spare (432).

7. An ultrasound examination assistant stand according to claim 1, characterized in that: the connecting mechanism (5) comprises a shaft sleeve (51), a mounting seat (52), a gear shaft (53) and a spring A (55), wherein the gear shaft (53) is embedded in the shaft sleeve (51) and movably connected with the shaft sleeve (51), one end of the mounting seat (52) penetrates through the shaft sleeve (51) and is welded with the side wall of the gear shaft (53), two opposite top blocks A (54) are arranged in the shaft sleeve (51), the tail ends of the top blocks A (54) are welded with the inner side wall of the shaft sleeve (51), and the spring A (55) is embedded in the middle of the top blocks A (54).

8. An ultrasound examination assistant stand according to claim 1, characterized in that: the telescopic arm (6) comprises a sleeve (61), a telescopic pipe (62), a button (63), a clamping sleeve (64), a limiting shaft sleeve (65) and a positioning disc (66), wherein the telescopic pipe (62) is embedded in the sleeve (61) and is matched with the sleeve (61), the button (63) is fixed at the edge position of the side wall of the sleeve (61) through a screw, the clamping sleeve (64) is horizontally arranged at the tail end of the telescopic pipe (62) and is fixedly connected with the telescopic pipe (62) through a screw, the limiting shaft sleeve (65) is horizontally welded at the middle position in the sleeve (61), the positioning disc (66) is embedded in the sleeve (61), an inner shaft (621) is arranged on one side of the telescopic pipe (62), the inner shaft (621) is horizontally welded at the middle position of the side wall of the telescopic pipe (62), and the inner shaft (621) penetrates through the limiting shaft sleeve (65), and realize clearance fit with between the spacing axle sleeve (65), be equipped with spring C (67) between positioning disk (66) and interior axle (621), the both ends of spring C (67) are articulated with spacing dish, interior axle (621) respectively.

9. An ultrasound examination assistant stand according to claim 8, characterized in that: ejector pad B (68) and spring B (69) are installed to the inside wall of sleeve pipe (61), spring B (69) nestification is installed at the intermediate position of ejector pad B (68), rack (6211) in the lateral wall embedding of interior axle (621), rack (6211) in the top alignment of ejector pad to with the tooth's socket looks adaptation of interior rack (6211), the side of positioning disk (66) is equipped with two constant head tanks (611) of relative setting, the side welding of positioning disk (66) has two location slider (661), location slider (661) and constant head tank (611) looks adaptation.

Technical Field

The invention relates to the technical field of auxiliary frames, in particular to an ultrasonic examination auxiliary frame.

background

Medical ultrasonic examination (ultrasound examination, ultrasound diagnostics) is a medical imaging diagnostic technique based on ultrasonic waves (ultrasound), which makes muscles and internal organs including the size, structure and pathological focus of the muscles and internal organs visible, and obstetrical ultrasonic examination is widely used in prenatal diagnosis during pregnancy, and generally adopts an examination auxiliary frame to cooperate with the ultrasound examination in order to reduce the labor intensity of medical staff and the detection accuracy.

However, through the analysis discovery, current ultrasonic examination auxiliary frame can't automatic re-setting, and the staff needs manual adjustment after using, fails to realize convenient effect, and rotates downwards under the action of gravity easily, can't keep fixed position, and the flexibility can the difference.

Disclosure of Invention

therefore, in order to solve the above disadvantages, the invention provides an ultrasonic examination auxiliary frame, which has two states of automatic reset and static holding, can provide a better auxiliary effect for workers, and can avoid downward rotation of a hinge joint under the action of gravity, and has the advantages of high flexibility and the like.

The invention is realized in such a way that an ultrasonic examination auxiliary frame is constructed, and the ultrasonic examination auxiliary frame comprises a mobile station and a large arm, wherein the large arm is vertically arranged at the middle position of the top of the mobile station, a rotating pipe is arranged between the large arm and the mobile station, the large arm is connected with the mobile station through the rotating pipe, a horizontally arranged transverse driving mechanism is installed at the bottom of the mobile station, a telescopic arm and a connecting mechanism are arranged at the top of the large arm, and the large arm is movably connected with the telescopic arm through the connecting mechanism.

Further, transverse driving mechanism includes the casing, bent type mount, fastening bolt, including a motor, an end cap, a controller, and a cover plate, screw rod and locating lever, bent type mount is perpendicular welding in the bottom intermediate position of casing, fastening bolt is the intermediate position that runs through the setting at bent type mount perpendicularly, and pass through threaded connection with bent type mount, the motor is the inside wall of horizontal installation at the casing, be equipped with horizontally screw rod and locating lever between two casings, the both ends of locating lever run through the lateral wall that sets up at the casing, and realize interference fit between with the casing, the lateral wall of casing is run through to the one end of screw rod, and with realize clearance fit between the casing, the other end of screw rod is connected with the output shaft transmission of motor, screw rod cooperation locating lever through setting can drive mobile station lateral shifting, be convenient for the.

further, the mobile station still includes the sleeve, interior pole, fixing bolt and reinforcing plate, the sleeve is perpendicular welding at the top border position of mobile station, the reinforcing plate is the slope welding and sets up in telescopic lateral wall, interior pole embedding sets up in telescopic inside, and with sleeve looks adaptation, fixing bolt runs through the setting at telescopic lateral wall, and pass through threaded connection with the sleeve, the lateral wall of interior pole is equipped with the screw hole that perpendicular equidistance distributes, screw rod and locating lever are the level and run through the intermediate position of mobile station, and realize clearance fit between locating lever and the mobile station, screw rod and mobile station looks adaptation, mobile station and screw rod mutually support through setting carry out lateral shifting.

Further, the rotating pipe includes outer tube, inner tube, torsional spring and dog, and the inner tube embedding sets up the inside at the outer tube to with outer tube looks adaptation, the bottom nestification of inner tube has the torsional spring, and the inside wall of outer tube has the dog by lower position welding, and the top of inner tube welds with the bottom intermediate position of big arm, and the bottom of outer tube welds with the top intermediate position of mobile station, owing to be provided with the torsional spring, drives the inner tube when big arm 4 and rotates the back, can automatic re-setting under the effect of torsional spring.

Further, big arm includes frid, the arm of force, locating piece and magnet, and the arm of force embedding sets up in the inside of frid, and the bottom of the arm of force passes through coupling mechanism swing joint with the frid, and two locating pieces imbed the lateral wall that sets up at frid and the arm of force respectively, are equipped with spring D between two locating pieces, and spring D's both ends are articulated with two locating pieces respectively, and the inside wall of magnet embedding frid leans on the position, can cooperate spring D and magnet to reset the arm of force automatically through the frid that sets up.

Further, the lateral wall of frid and the arm of force all is equipped with the draw-in groove, frid and the arm of force are "concave" font structure, and the locating piece includes sliding block, tenon joint spare and fixture block, and the inside at the draw-in groove is installed in the sliding block embedding to with draw-in groove looks adaptation, tenon joint spare are the horizontal welding in the top intermediate position of sliding block, and the fixture block passes through tenon fourth of the twelve earthly branches technique with the sliding block and is connected, and fixed with spring D44 both ends through the locating piece cooperation draw-in groove that sets up, is convenient for adjust spring D's.

Further, coupling mechanism includes the axle sleeve, the mount pad, rachis and spring A, the inside at the axle sleeve is installed in the rachis embedding, and with axle sleeve swing joint, the one end of mount pad runs through the inside that sets up at the axle sleeve, and with the lateral wall welding of rachis, the inside of axle sleeve is equipped with two kicking blocks A that set up relatively, kicking block A's terminal and the inside wall welding of axle sleeve, the spring A embedding sets up the intermediate position at kicking block A, can carry out spacing fixed by the rachis through the kicking block A that sets up, in the tooth of rachis is gone into through the card, fix it, avoid the rachis to rotate at will.

Furthermore, the telescopic arm comprises a sleeve, a telescopic pipe, a button, a clamping sleeve, a limiting shaft sleeve and a positioning disk, the telescopic pipe is embedded in the sleeve, the button is fixed at the edge of the side wall of the sleeve through a screw, the clamping sleeve is horizontally arranged at the tail end of the extension tube, and is fixedly connected with the extension tube through a screw, the limit shaft sleeve is horizontally welded at the middle position in the sleeve, the positioning disc is embedded and arranged in the sleeve, one side of the extension tube is provided with an inner shaft which is horizontally welded at the middle position of the side wall of the extension tube, the inner shaft penetrates through the limit shaft sleeve, and is in clearance fit with the limiting shaft sleeve, a spring C is arranged between the positioning disc and the inner shaft, two ends of the spring C are respectively hinged with the limiting disc and the inner shaft, the clamping sleeve is connected through the telescopic arm, and the position of the clamping sleeve can be conveniently adjusted by a worker.

further, kicking block B and spring B are installed to the sheathed tube inside wall, spring B nestification is installed at the intermediate position of kicking block B, interior rack is installed in the lateral wall embedding of interior axle, the top of kicking block is aimed at interior rack, and with the tooth's socket looks adaptation of interior rack, the side of positioning disk is equipped with the constant head tank of two relative settings, the side welding of positioning disk has two location sliders, location slider and constant head tank looks adaptation, can carry out spacing fixed to interior axle through the kicking block B that sets up, avoid interior axle to slide at will.

The invention has two states of automatic reset and static keeping, can play a better auxiliary effect for workers, can avoid downward rotation of a hinge joint under the action of gravity, has high flexibility and the like, and has the following concrete advantages:

The method has the advantages that: the transverse driving mechanism comprises a shell, a curved fixing frame, a fastening bolt, a motor, a screw rod and a positioning rod, wherein the curved fixing frame is vertically welded at the middle position of the bottom of the shell, the fastening bolt vertically penetrates through the middle position of the curved fixing frame and is in threaded connection with the curved fixing frame, the motor is horizontally arranged on the inner side wall of the shell, the horizontal screw rod and the positioning rod are arranged between the two shells, two ends of the positioning rod penetrate through the side wall of the shell and are in interference fit with the shell, one end of the screw rod penetrates through the side wall of the shell and is in clearance fit with the shell, the other end of the screw rod is in transmission connection with an output shaft of the motor, the positioning rod is matched with the arranged screw rod to drive the mobile platform to transversely move, the mobile platform is convenient for a worker to control, the mobile platform further comprises a sleeve, an inner rod, the fixing bolt and a, the reinforcing plate is welded on the side wall of the sleeve in an inclined manner, the inner rod is embedded in the sleeve and is matched with the sleeve, the fixing bolt penetrates through the side wall of the sleeve and is connected with the sleeve through threads, the side wall of the inner rod is provided with threaded holes which are vertically and equidistantly distributed, the screw rod and the positioning rod horizontally penetrate through the middle position of the mobile station, in addition, the clearance fit is realized between the positioning rod and the mobile station, the screw rod is matched with the mobile station, the transverse movement is realized through the mutual matching of the arranged mobile station and the screw rod, the rotating pipe comprises an outer pipe, an inner pipe, a torsional spring and a stop block, the inner pipe is embedded in the outer pipe and is matched with the outer pipe, the torsional spring is embedded at the bottom end of the inner pipe, the stop block is welded at the position close to the lower position of the inner side wall of the outer pipe, the top end, when the large arm 4 drives the inner tube to rotate, the inner tube can automatically reset under the action of the torsion spring.

The method has the advantages that: the large arm comprises a groove plate, an arm of force, positioning blocks and a magnet, the arm of force is embedded and arranged inside the groove plate, the bottom end of the arm of force is movably connected with the groove plate through a connecting mechanism, the two positioning blocks are respectively embedded and arranged on the side walls of the groove plate and the arm of force, a spring D is arranged between the two positioning blocks, two ends of the spring D are respectively hinged with the two positioning blocks, the magnet is embedded into the inner side wall of the groove plate and leans against the upper position, the arm of force can be automatically reset through the arranged groove plate in a matching way with the spring D and the magnet, the side walls of the groove plate and the arm of force are respectively provided with a clamping groove, the groove plate and the arm of force are both of a concave structure, each positioning block comprises a sliding block, a tenon joint part and a clamping block, the sliding block is embedded and arranged inside the clamping groove and matched with the sliding block, the tenon joint part is horizontally welded, be convenient for adjust spring D's position, coupling mechanism includes the axle sleeve, the mount pad, rachis and spring A, the inside at the axle sleeve is installed in the rachis embedding, and with axle sleeve swing joint, the one end of mount pad runs through the inside that sets up at the axle sleeve, and with the lateral wall welding of rachis, the inside of axle sleeve is equipped with two kicking blocks A that set up relatively, kicking block A's end and the inside wall welding of axle sleeve, spring A inlays the cover and sets up the intermediate position at kicking block A, can the rachis carry out spacing fixed through the kicking block A that sets up, in the tooth of rachis is gone into through the card, fix it, avoid the rachis to rotate at will.

The method has the advantages that: the telescopic arm comprises a sleeve, a telescopic pipe, a button, a clamping sleeve, a limiting shaft sleeve and a positioning disc, the telescopic pipe is embedded in the sleeve and matched with the sleeve, the button is fixed at the edge position of the side wall of the sleeve through a screw, the clamping sleeve is horizontally arranged at the tail end of the telescopic pipe and fixedly connected with the telescopic pipe through a screw, the limiting shaft sleeve is horizontally welded at the middle position in the sleeve, the positioning disc is embedded in the sleeve, an inner shaft is arranged at one side of the telescopic pipe and horizontally welded at the middle position of the side wall of the telescopic pipe, the inner shaft penetrates through the limiting shaft sleeve and is in clearance fit with the limiting shaft sleeve, a spring C is arranged between the positioning disc and the inner shaft, two ends of the spring C are respectively hinged with the limiting disc and the inner shaft, the clamping sleeve is connected through the arranged telescopic arm, and the position of the clamping, ejector pad B and spring B are installed to sheathed tube inside wall, spring B nestification is installed at ejector pad B's intermediate position, interior rack is installed in the lateral wall embedding of interior axle, the rack in the top of ejector pad is aimed at, and with the tooth's socket looks adaptation of interior rack, the side of positioning disk is equipped with the constant head tank of two relative settings, the side welding of positioning disk has two location sliders, location slider and constant head tank looks adaptation, can carry out spacing fixed to interior axle through the ejector pad B that sets up, avoid interior axle to slide at will.

Drawings

FIG. 1 is a schematic view of the structure of an ultrasonic examination auxiliary frame of the present invention;

FIG. 2 is a side elevation and longitudinal cross-sectional view of the rotating tube of the present invention;

FIG. 3 is a top cross-sectional view of the spin tube of the present invention;

FIG. 4 is a partial cross-sectional view of the trough plate of the present invention;

FIG. 5 is a schematic view of a positioning block according to the present invention;

FIG. 6 is a side elevation and longitudinal section of the coupling mechanism of the present invention;

FIG. 7 is a side elevation longitudinal section of the telescoping arm of the present invention;

FIG. 8 is an enlarged view of a portion of FIG. 7 of the present invention;

FIG. 9 is a side elevation and longitudinal section view of the lateral drive mechanism of the present invention;

Fig. 10 is a partial structure diagram of the large arm of the invention.

Sequence numbers shown in the figures: the device comprises a transverse driving mechanism 1, a shell 11, a curved fixing frame 12, a fastening bolt 13, a motor 14, a screw rod 15, a positioning rod 16, a moving platform 2, a sleeve 21, an inner rod 22, a fixing bolt 23, a reinforcing plate 24, a rotating pipe 3, an outer pipe 31, an inner pipe 32, a torsion spring 33, a stop block 34, a large arm 4, a groove plate 41, a clamping groove 411, a force arm 42, a positioning block 43, a sliding block 431, a joggle 432, a clamping block 433, a spring D44, a magnet 45, a connecting mechanism 5, a shaft sleeve 51, a mounting seat 52, a gear shaft 53, a top block A54, a spring A55, a telescopic arm 6, a sleeve 61, a positioning groove 611, a telescopic pipe 62, an inner shaft 621, an inner rack 6211, a button 63, a clamping sleeve 64, a limiting shaft sleeve 65, a positioning disc 66, a positioning sliding block 661, a spring C.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

the invention provides an ultrasonic examination auxiliary frame through improvement, which can be implemented as follows as shown in the attached drawings of the specification; including mobile station 2, big arm 4 is the perpendicular top intermediate position that sets up at mobile station 2, be equipped with swivel pipe 3 between big arm 4 and the mobile station 2, big arm 4 passes through swivel pipe 3 with the mobile station 2 and is connected, horizontal actuating mechanism 1 that the level set up is installed to the bottom of mobile station 2, the top of big arm 4 is equipped with flexible arm 6 and coupling mechanism 5, big arm 4 passes through coupling mechanism 5 swing joint with flexible arm 6, motor 14 is DC gear motor, and be connected with button 63, adopt the external power supply, button 63 is for reversing the switch.

More specifically, the transverse driving mechanism 1 comprises a housing 11, a curved fixing frame 12, a fastening bolt 13, a motor 14, a screw 15 and a positioning rod 16, wherein the curved fixing frame 12 is vertically welded at the middle position of the bottom of the housing 11, the fastening bolt 13 is vertically penetrated and arranged at the middle position of the curved fixing frame 12, and is connected with the curved fixing frame 12 through screw threads, the motor 14 is horizontally arranged on the inner side wall of the shell 11, a horizontal screw 15 and a positioning rod 16 are arranged between the two shells 11, two ends of the positioning rod 16 are arranged on the side wall of the shell 11 in a penetrating way, and is in interference fit with the shell 11, one end of the screw rod 15 penetrates through the side wall of the shell 11, and is in clearance fit with the shell 11, the other end of the screw rod 15 is in transmission connection with an output shaft of the motor 14, screw rod 15 through setting up cooperates locating lever 16 and can drive mobile station 2 lateral shifting, and the staff of being convenient for controls.

More specifically, mobile station 2 still includes sleeve 21, interior pole 22, fixing bolt 23 and reinforcing plate 24, sleeve 21 is the top border position of vertical welding at mobile station 2, reinforcing plate 24 is the lateral wall of slope welding at sleeve 21, interior pole 22 embedding sets up the inside at sleeve 21, and with sleeve 21 looks adaptation, fixing bolt 23 runs through the lateral wall that sets up at sleeve 21, and pass through threaded connection with sleeve 21, the lateral wall of interior pole 22 is equipped with the screw hole that perpendicular equidistance distributes, screw rod 15 and locating lever 16 are the intermediate position that the level runs through mobile station 2, and realize clearance fit between locating lever 16 and the mobile station 2, screw rod 15 and mobile station 2 looks adaptation, mobile station 2 and screw rod 15 through setting mutually support and carry out lateral shifting.

More specifically, the rotating tube 3 includes outer tube 31, inner tube 32, torsional spring 33 and dog 34, the inside of inner tube 32 embedding setting at outer tube 31 to with outer tube 31 looks adaptation, the bottom nestification of inner tube 32 has torsional spring 33, the inside wall of outer tube 31 has dog 34 by the lower welding of position, the top of inner tube 32 and the bottom intermediate position welding of big arm 4, the bottom of outer tube 31 and the top intermediate position welding of mobile station 2, owing to be provided with torsional spring 33, after big arm 4 drives inner tube 32 and rotates, can automatic re-setting under torsional spring 33's effect.

more specifically, big arm 4 includes frid 41, arm of force 42, locating piece 43 and magnet 45, arm of force 42 embedding sets up the inside at frid 41, and arm of force 42's bottom passes through coupling mechanism 5 swing joint with frid 41, two locating pieces 43 imbeds respectively and sets up the lateral wall at frid 41 and arm of force 42, be equipped with spring D44 between two locating pieces 43, spring D44's both ends are articulated with two locating pieces 43 respectively, magnet 45 imbeds the inside wall of frid 41 and leans on the upper position, frid 41 through setting can cooperate spring D44 and magnet 45 with arm of force 42 automatic re-setting.

More specifically, the lateral wall of frid 41 and arm of force 42 all is equipped with draw-in groove 411, frid 41 and arm of force 42 are "concave" font structure, locating piece 43 includes sliding block 431, joggle 432 and fixture block 433, sliding block 431 embedding is installed in the inside of draw-in groove 411 to with draw-in groove 411 looks adaptation, joggle 432 is the horizontal welding in the top intermediate position of sliding block 431, fixture block 433 adopts the tenon fourth of the twelve earthly branches technique with sliding block 431 through joggle 432 to be connected, it is fixed with spring D44 both ends through the locating piece 43 cooperation draw-in groove 411 that sets up, be convenient for adjust spring D44's position.

more specifically, the connecting mechanism 5 includes a shaft sleeve 51, a mounting seat 52, a gear shaft 53 and a spring a55, wherein the gear shaft 53 is embedded in the shaft sleeve 51 and movably connected with the shaft sleeve 51, one end of the mounting seat 52 penetrates through the shaft sleeve 51 and is welded with the side wall of the gear shaft 53, two oppositely arranged top blocks a54 are arranged in the shaft sleeve 51, the tail end of each top block a54 is welded with the inner side wall of the shaft sleeve 51, the spring a55 is embedded in the middle of the top block a54, the gear shaft 53 can be limited and fixed through the arranged top blocks a54, and the gear shaft 53 is clamped into the teeth of the gear shaft 53 to be fixed, so that the gear shaft 53 is prevented from rotating randomly.

More specifically, the telescopic arm 6 comprises a sleeve 61, a telescopic pipe 62, a button 63, a clamping sleeve 64, a limiting shaft sleeve 65 and a positioning disc 66, the telescopic pipe 62 is embedded in the sleeve 61 and is matched with the sleeve 61, the button 63 is fixed at the edge position of the side wall of the sleeve 61 through a screw, the clamping sleeve 64 is horizontally arranged at the tail end of the telescopic pipe 62 and is fixedly connected with the telescopic pipe 62 through a screw, the limiting shaft sleeve 65 is horizontally welded at the middle position in the sleeve 61, the positioning disc 66 is embedded in the sleeve 61, an inner shaft 621 is arranged at one side of the telescopic pipe 62, the inner shaft 621 is horizontally welded at the middle position of the side wall of the telescopic pipe 62, the inner shaft 621 penetrates through the limiting shaft sleeve 65 and is in clearance fit with the limiting shaft sleeve 65, a spring C67 is arranged between the positioning disc 66 and the inner shaft 621, two ends of the spring C67 are respectively hinged with, the clamping sleeve 64 is connected through the telescopic arm 6, and the position of the clamping sleeve 64 can be conveniently adjusted by a worker.

More specifically, top block B68 and spring B69 are installed to the inside wall of sleeve 61, spring B69 is nested and is installed the intermediate position of top block B68, interior rack 6211 is installed in the embedding of the lateral wall of interior axle 621, the top of top block aligns interior rack 6211, and with the tooth's socket looks adaptation of interior rack 6211, the side of positioning disk 66 is equipped with two relative positioning groove 611 that set up, the side welding of positioning disk 66 has two location slider 661, location slider 661 and positioning groove 611 looks adaptation, top block B68 through setting up can carry out spacing fixed to interior axle 621, avoid interior axle 621 to slide at will.

The working principle of the ultrasonic examination auxiliary frame is as follows: firstly, a worker clamps and fixes the transverse driving mechanism 1 at the edge of a detection bed through the curved fixing frame 12 and the fastening bolt 13, when the worker needs to adopt ultrasonic detection, the probe of the equipment is fixed through the clamping sleeve 64, when the detection is carried out, the probe is grabbed to move and detect, the ultrasonic detection auxiliary frame has two modes of automatic reset and original position maintenance, when the original position maintenance is adopted, only the probe needs to be held to move, when the probe is pressed downwards, the bottom end of the force arm 42 can rotate around the groove plate 41 through the connecting mechanism 5, because the top block A54 is arranged in the connecting mechanism 5, after the tooth shaft 53 rotates, the top block A54 can be clamped into the tooth groove of the tooth shaft 53, so that the position of the top block A is kept unchanged, the downward rotation under the action of the self gravity is avoided, and similarly, the connecting mechanism 5 is also adopted between the telescopic arm 6 and the big arm 4, and after the probe is pulled, the position of the top block A54, when a worker pulls the extension tube 62 out of the sleeve 61, the inner shaft 621 moves in the limiting shaft sleeve 65, when the extension tube 62 stops, the top block B68 is inserted into the inner rack 6211 of the inner shaft 621 under the action of the spring B69 to limit and fix the inner shaft 621, when the automatic reset is adopted, the positioning block 43 slides to a proper position along the clamping groove 411 to enable the spring D44 to be in a tensioned state, at the moment, the clamping block 433 slides into the groove position on the side surface of the clamping groove 411 to fix, the force arm 42 is pulled towards the direction of the groove plate 41 by the spring D44 after bending downwards, under the action of the spring D44, the force arm 42 can automatically reset and is matched with the magnet 45 to adsorb the force arm in the groove plate 41, then the positioning slide block 661 of the positioning disc 66 is clamped into the tail end of the positioning groove 611, after the extension tube 62 is pulled outwards, the spring C67 can be tensioned, when the extension tube 62 is loosened, under the action of the spring C67, the, rotate the inner tube 32 that big arm 4 can drive rotatory pipe 3 in the operation process and rotate, when big arm 4 is not atress, under the effect of torsional spring 33, inner tube 32 can self return, and drive big arm 4 and just, when the horizontal position of staff's needs adjustment probe, can press button 63, start motor 14, motor 14 drives screw rod 15 and rotates, drive the translation of mobile station 2 under the effect of screw rod 15 and locating lever 16, button 63 is the switch of reversing, when needs reverse translation, dial button 63 to the another side and can realize the reversal of motor 14, and then drive the reverse translation of mobile station 2.

In conclusion; compared with the existing ultrasonic examination auxiliary frame, the ultrasonic examination auxiliary frame has the advantages of automatic reset and static keeping states, higher auxiliary effect on workers, capability of avoiding downward rotation of the hinged part under the action of gravity, high flexibility and the like.

the previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.