CN108210027B - Automatic washing formula uterine curettage device of gynaecology - Google Patents

Abstract

The invention discloses a gynecological automatic washing type uterine curettage device which structurally comprises a device base, four movable rollers, a machine body shell, a visual window, a surplus prompt automatic washing device, a control panel, a liquid conveying pipe, a control grab handle, a stretching washing pipe, a uterine curettage and a storage ring, wherein the four movable rollers are respectively arranged at four ends below the device base and are in screw connection with the device base through screws, and the machine body shell is arranged above the device base and is connected with the device base through electric welding. Has the advantages that: through being equipped with automatic washing unit of surplus suggestion, can be when the flush fluid surplus is not enough, automatic prompt signal that sends, suggestion medical personnel in time fill the flush fluid, realize carrying out the work of washing of continuity, this washing unit operation is comparatively simple and convenient simultaneously, and a key can be realized beginning or closing the work of washing, has strengthened the intelligent degree and the degree of automation of automatic washing formula uterine curettage device of gynaecology effectively, and convenient to use improves medical efficiency.

Description

Automatic washing formula uterine curettage device of gynaecology

Technical Field

The invention relates to an automatic washing type uterine curettage device for gynecology, belonging to the technical field of gynecological treatment equipment.

Background

The department of gynecology is a diagnosis and treatment subject of medical institutions, the department of gynecology is a branch of department of gynecology, and the department of gynecology is a professional department taking female gynecopathy as diagnosis and treatment, and is divided into western medicine gynecopathy and traditional Chinese medicine gynecopathy. The gynecological diseases include female reproductive system diseases, such as vulvar diseases, vaginal diseases, uterus diseases, fallopian tube diseases, and ovarian diseases.

But the automatic washing formula uterine curettage device of gynaecology of prior art can't prompt the staff in time to supply the flush fluid when the flush fluid is not enough, leads to the unable continuity work of washing formula uterine curettage device, reduces medical work efficiency.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the gynecological automatic washing type uterine curettage device, so as to solve the defects that the gynecological automatic washing type uterine curettage device in the prior art cannot prompt workers to supplement washing liquid in time when the washing liquid is insufficient, so that the washing type uterine curettage device cannot work continuously, and the medical working efficiency is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: an automatic washing type uterine curettage device for gynecology comprises a device base, moving rollers, a machine body shell, four visible windows, a surplus prompt automatic washing device, a control panel, a transfusion tube, a control grab handle, a stretching flushing tube, a uterine curettage and a storage ring, wherein the four moving rollers are respectively arranged at four ends below the device base and are spirally connected with the device base through screws, the machine body shell is arranged above the device base and is connected with the device base through electric welding, the visible windows are arranged at the center of the front surface of the machine body shell and are bonded with the machine body shell through glass glue, the surplus prompt automatic washing device is arranged inside the machine body shell, the control panel is embedded on the upper surface of the machine body shell and is electrically connected with the surplus prompt automatic washing device, one end of the transfusion tube penetrates through the machine body shell and is connected with the surplus prompt automatic washing device in a penetrating way, the other end of the transfusion tube penetrates through the control grab, the automatic flushing device is characterized in that the control grab handle is arranged below the extending flushing pipe, the uterus scraper is arranged above the extending flushing pipe, the uterus scraper is vertically connected with the upper end of the extending flushing pipe through an electric welding, the object placing ring is arranged above the right side surface of the machine body shell and is vertically connected with the machine body shell through an electric welding, the control grab handle is clamped inside the object placing ring and is movably connected with the object placing ring, the residue prompting automatic flushing device consists of a starting mechanism, a transmission mechanism, a power-on mechanism, a booster pump, a flushing fluid storage cylinder, a residue sensing mechanism, a transmission pulley block, a rotary transmission mechanism, a prompting starting mechanism and a prompter, the starting mechanism is arranged above the right side inside the machine body shell, the transmission mechanism is arranged below the starting mechanism and is connected with the starting mechanism through a traction rope, the power-on mechanism is arranged below the left side of the transmission mechanism, the utility model discloses a quick-witted body shell, including the inside bottom right side of body shell and body shell, the inside center of body shell is located to the flush fluid storage cylinder, and the inside bottom right side of body shell is located through screw threaded connection with body shell bottom inner wall to the booster pump, the flush fluid storage cylinder is located the inside center of body shell and is located surplus sensing mechanism top, glue bonding connection is passed through with surplus sensing mechanism upper portion to flush fluid storage cylinder bottom, the flush fluid storage cylinder leads to pipe and booster pump through-going connection, drive pulley group locates flush fluid storage cylinder left, the drive pulley group passes through haulage rope swing joint with surplus sensing mechanism, rotatory drive mechanism locates drive pulley group top, rotatory drive mechanism passes through haulage rope swing joint with the drive pulley group, suggestion starting mechanism locates the inside upper left corner of body shell and passes through electric welding fixed connection with the body shell inner wall, the.

Further, actuating mechanism comprises start button, horizontal pole, depression bar, fixed plate, first spring, screens piece, screens groove, start button inlays in control panel upper surface right side through the button groove, the horizontal pole is the welding of vertical form with the depression bar, the start button below is located to the depression bar, depression bar upper end and start button lower fixed surface are connected, the depression bar lower extreme runs through in the fixed plate top and bottom, first spring is located between horizontal pole and the fixed plate, the screens piece is located the fixed plate top and is located the depression bar both sides, the screens groove is located inside surface of screens piece and is the integrated into one piece structure with the screens piece.

Further, drive mechanism comprises cam, cam dead lever, first coil of twining, first haulage rope, fixed pipe, swiveling wheel, lift ejector pin, second spring, lift slider, movable pulley, the cam passes through cam dead lever and organism shell inner wall welding, first coil of twining is located cam left side edge and is connected through electric welding is perpendicular with the cam, first haulage rope one end is connected with cam left side edge through first coil of twining, the first haulage rope other end runs through into fixed intraduct and is connected with lift ejector pin upper end, fixed pipe is vertical form and locates cam below and organism shell inner wall welding, the swiveling wheel is located fixed intraduct upper end left side and fixed pipe swing joint, the lift ejector pin is located fixed intraduct and is adopted transition fit with fixed pipe, the second spring is located fixed intraduct, both ends respectively with fixed intraduct upper inner wall welding on the pipe about the second spring, The upper end of the lifting ejector rod is connected through electric welding, the lower end of the lifting ejector rod is arranged on the lifting slide block and is vertically connected with the lifting ejector rod through electric welding, the right side of the lifting slide block is arranged on the sliding wheel, and the lifting slide block is connected with the inner wall of the machine shell in a sliding mode through the sliding wheel.

Further, the power-on mechanism consists of a transverse sliding sleeve, a fixed cross rod, a movable connecting rod, a power connecting slider, a supporting plate, a power connecting fixed block, a power line and a connecting wire, wherein the transverse sliding sleeve is sleeved on the fixed cross rod and is movably connected with the fixed cross rod, the fixed cross rod is horizontally and vertically connected with the inner wall of the machine shell through electric welding, one end of the movable connecting rod is connected with the lifting slider through a hinge, the other end of the movable connecting rod is connected with the transverse sliding sleeve through a hinge, one end of the connecting rod is vertically connected with the transverse sliding sleeve through electric welding, the other end of the connecting rod is fixedly connected with the power connecting slider, the supporting plate is arranged below the fixed cross rod and is vertically connected with the inner wall of the machine shell through electric welding, the power connecting slider and the power connecting fixed block, the electricity connecting sliding block is connected with a power supply through a power line, and the electricity connecting fixing block is electrically connected with the booster pump through a connecting wire.

Further, the booster pump comprises servo motor, electricity receiving box, pump machine, pump frame, the connecting pipe that draws water, the connecting pipe that goes out, electricity receiving box locates servo motor left side surface and passes through screw thread with servo motor and is connected, servo motor locates pump machine top center and is connected through the electric welding with the pump machine, the pump machine below is located to the pump frame, the pump machine passes through bolt and screw connection through pump frame and organism shell bottom inner wall, draw water connecting pipe one end and flush fluid storage cylinder through connection, the connecting pipe other end that draws water and pump machine through connection, it is connected with pump machine through connection to go out connecting pipe one end, it is connected with the transfer line to go out the connecting pipe other end.

Further, surplus sensing mechanism comprises PMKD, activity roof, prismatic adjustable shelf, welding piece, telescopic link, third spring, piston rod, piston pipe, parallel distribution about PMKD, activity roof are, the prismatic adjustable shelf is located between PMKD, the activity roof, the prismatic adjustable shelf upper and lower end is respectively through welding piece and activity roof lower surface, PMKD upper surface welded, the telescopic link is vertical form and locates inside the prismatic adjustable shelf, inside the telescopic link is located to the third spring, piston rod one end is connected through the hinge with the prismatic adjustable shelf left part, the piston rod other end embedding piston intraduct and piston pipe swing joint, the piston pipe passes through hinge and organism shell inner wall swing joint.

Further, the transmission assembly pulley comprises second twine circle, second haulage rope, first fixed pulley, first pulley yoke, second fixed pulley, second pulley yoke, third fixed pulley, third pulley yoke, second twine circle is located piston rod right-hand member top and is passed through electric welding fixed connection with the piston rod, second haulage rope one end is connected with the winding of second twine circle, the second haulage rope other end is wound first fixed pulley, second fixed pulley, third fixed pulley and is connected with the winding of rotary transmission mechanism in proper order, first fixed pulley passes through the welding of first pulley yoke engine body shell inner wall, the second fixed pulley passes through the welding of second pulley yoke and engine body shell inner wall, the third fixed pulley passes through the welding of third pulley yoke and engine body shell inner wall.

Furthermore, the rotary transmission mechanism consists of a rotary disk, a rotary disk rack, a third wire winding wheel, a connecting wire, a balancing weight, a rotary rod, a fourth wire winding wheel and a third traction rope, the rotary disk is arranged at the upper left part inside the machine shell, the rotary disk is welded with the inner wall of the machine shell through the rotary disk rack, the third wire winding wheel is arranged at the right side of the rotary disk and is vertically connected with the right edge of the rotary disk through electric welding, the second traction rope is connected with the rotary disk through the third wire winding wheel, one end of the connecting wire is connected with the lower end edge of the rotary disk, the other end of the connecting wire is wound and connected with the balancing weight, the rotary rod is arranged at the left side of the rotary disk and is vertically connected with the left edge of the rotary disk, the right end of the rotary rod is vertically connected through electric welding, the fourth wire winding wheel, and the other end of the third traction rope prompts the starting mechanism to wind and connect.

Further, suggestion actuating mechanism comprises arc pole, sliding sleeve, ejector pin, fourth spring, the arc pole is located the inside upper left side of organism shell and is passed through electric welding fixed connection with the organism shell inner wall, the sliding sleeve cover on the arc pole with arc pole sliding connection, the ejector pin is located the sliding sleeve left side and is connected through electric welding with the sliding sleeve perpendicularly, fourth spring winding and arc pole upper portion, the fourth spring lower extreme is connected with the sliding sleeve, fourth spring upper end and organism shell inner wall welding.

Advantageous effects

The invention relates to an automatic washing type uterine curettage device for gynecology, when in use, a power supply of the device is firstly connected, washing liquid is filled into a washing liquid storage cylinder, uterine residues are firstly scraped by uterine curettage, then a start button is pressed to drive a pressure rod to press downwards, a convex end of a cam is pressed downwards to rotate left, meanwhile, a first winding coil originally positioned at the left side of the cam is rotated to the lower part, a first traction rope loses tension, a lifting ejector rod loses tension to limit to push downwards under the action of a second spring, the lifting ejector rod moves downwards and drives a lifting slide block to slide downwards, the lifting slide block drives a transverse sliding sleeve to slide leftwards along a fixed cross rod through a movable connecting rod, the transverse sliding sleeve drives an electric connection slide block to slide leftwards through the connecting rod to be in contact with an electric connection fixed block for electrification, a servo motor is started to drive a pump to start work, and the washing liquid in the washing liquid storage, starting to perform uterine irrigation; along with the reduction of the amount of flushing fluid in the flushing fluid storage cylinder, the pressure of the flushing fluid storage cylinder on the movable top plate is reduced, the movable top plate lifts under the action of the elastic force of a third spring, simultaneously drives the prismatic movable frame to deform, the original wide and short shape is changed into the narrow and high shape, simultaneously the piston rod is pulled out of the piston tube to drive the second winding coil to pull one end of the second traction rope, the other end of the second traction rope bypasses the first fixed pulley, the second fixed pulley and the third fixed pulley to apply the pulling force on the third winding wheel, so that the third winding wheel is driven by the piston rod to rotate 90 degrees clockwise, the rotating rod originally positioned on the left side of the rotating disk is rotated to the upper part, the pulling force of the rotating rod on the third traction rope is reduced, the pulling force of the third traction rope on the sliding sleeve is reduced, the sliding sleeve slides up along the arc-shaped rod under the action of a fourth spring arranged above the, starting a prompter to send out prompt sound of insufficient residual flushing liquid; when the flushing liquid is supplemented in time, the flushing liquid in the flushing liquid storage cylinder is increased, the weight is increased, the movable top plate is pressed downwards, the pulling force applied to the second traction rope is reduced, the rotating disc is restored under the action of the gravity of the balancing weight, the sliding sleeve is pulled downwards through the third traction rope, the switch of the ejector rod away from the prompter does not apply pressure to the ejector rod, and the prompter is closed; after the washing work is finished, the starting button is pressed again, the cross rod leaves the clamping groove, the cross rod bounces under the elastic action of the first spring when the hand is loosened, the cam loses the jacking force and recovers the original state, meanwhile, the lifting ejector rod is pulled upwards through the first traction rope, the lifting sliding block is made to recover the initial position, the electric connecting sliding block also slides to the right to the original position, the booster pump stops working after power failure, and the washing work is finished.

According to the automatic flushing type uterine curettage device for gynecology, the automatic flushing device with the residue prompt is arranged, so that a prompt signal can be automatically sent out when the residue of flushing fluid is insufficient, medical staff can be prompted to fill the flushing fluid in time, continuous flushing work is realized, meanwhile, the flushing device is simple and convenient to operate, the flushing work can be started or stopped by one key, the intelligent degree and the automatic degree of the automatic flushing type uterine curettage device for gynecology are effectively enhanced, the use is convenient, and the medical efficiency is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of an automatic washing type uterine curettage device for gynecology of the invention.

Fig. 2 is a structural plan view of the gynecological automatic washing type uterine curettage device of the present invention.

Fig. 3 is a plan view of the automatic flushing device with residue reminding according to the present invention.

Fig. 4 is a first operating state diagram of the automatic flushing device with allowance indication according to the present invention.

Fig. 5 is a second working state diagram of the automatic flushing device with allowance prompt according to the present invention.

In the figure: the device comprises a device base-1, a movable roller-2, a machine body shell-3, a visible window-4, a residual prompting automatic flushing device-5, a control panel-6, a transfusion tube-7, a control grab handle-8, an extension flushing tube-9, a uterine curette-10, a storage ring-11, a starting mechanism-50, a transmission mechanism-51, an electrifying mechanism-52, a booster pump-53, a flushing liquid storage cylinder-54, a residual sensing mechanism-55, a transmission pulley block-56, a rotary transmission mechanism-57, a prompting starting mechanism-58, a prompter-59, a starting button-500, a cross rod-501, a pressure rod-502, a fixed plate-503, a first spring-504, a clamping block-505, a clamping groove-506, a cam-510, a cam-5, a left handle, A cam fixing rod-511, a first winding coil-512, a first traction rope-513, a fixing tube-514, a rotating wheel-515, a lifting mandril-516, a second spring-517, a lifting slide block-518, a sliding wheel-519, a transverse sliding sleeve-520, a fixing cross bar-521, a movable connecting rod-522, a connecting rod-523, an electric connecting slide block-524, a supporting plate-525, an electric connecting fixed block-526, a power wire-527, a connecting wire-528, a servo motor-530, an electric connecting box-531, a pump-532, a pump stand-533, a water pumping connecting tube-534, a water outlet connecting tube-535, a fixing bottom plate-550, a movable top plate-551, a prismatic movable frame-552, a welding block-553, a telescopic rod 554-554, a movable rod-513, A third spring-555, a piston rod-556, a piston tube-557, a second winding coil-560, a second traction rope-561, a first fixed pulley-562, a first pulley frame-563, a second fixed pulley-564, a second pulley frame-565, a third fixed pulley-566, a third pulley frame-567, a rotating disk-570, a rotating disk frame-571, a third winding wheel-572, a connecting wire-573, a balancing weight-574, a rotating rod-575, a fourth winding wheel-576, a third traction rope-577, an arc-shaped rod-580, a sliding sleeve-581, a mandril-582 and a fourth spring-583.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-5, the present invention provides a technical solution of an automatic washing type uterine curettage device for gynecology: the device structurally comprises a device base 1, a movable roller 2, a machine body shell 3, a visible window 4, a residue prompting automatic flushing device 5, a control panel 6, a perfusion tube 7, a control grab handle 8, a stretching flushing tube 9, a uterus scraper 10 and a storage ring 11, wherein the four movable rollers 2 are respectively arranged at four ends below the device base 1 and are in screw connection with the device base 1 through screws, the machine body shell 3 is arranged above the device base 1 and is connected with the device base 1 through electric welding, the visible window 4 is arranged at the center of the front surface of the machine body shell 3 and is bonded with the machine body shell 3 through glass glue, the residue prompting automatic flushing device 5 is arranged inside the machine body shell 3, the control panel 6 is embedded on the upper surface of the machine body shell 3 and is electrically connected with the residue prompting automatic flushing device 5, one end of the perfusion tube 7 penetrates through the machine body shell 3 and is in through connection with the residue prompting automatic flushing device, the other end of the infusion tube 7 is connected with a through control handle 8 and a flushing tube 9, the control handle 8 is arranged below the flushing tube 9, the uterus scraper 10 is arranged above the flushing tube 9, the uterus scraper 10 is vertically connected with the upper end of the flushing tube 9 through electric welding, the object placing ring 11 is arranged above the right side surface of the machine body shell 3 and is vertically connected with the machine body shell 3 through electric welding, the control handle 8 is clamped inside the object placing ring 11 and is movably connected with the object placing ring 11, the allowance prompt automatic flushing device 5 consists of a starting mechanism 50, a transmission mechanism 51, a power-on mechanism 52, a booster pump 53, a flushing fluid storage cylinder 54, an allowance sensing mechanism 55, a transmission pulley block 56, a rotary transmission mechanism 57, a prompt starting mechanism 58 and a prompt 59, the starting mechanism 50 is arranged above the inner part of the machine body shell 3, the transmission mechanism 51 is arranged below the starting mechanism 50 and is connected with the starting mechanism 50 through a traction rope, the power-on mechanism 52 is arranged at the lower left of the transmission mechanism 51, the power-on mechanism 52 is movably connected with the transmission mechanism 51 through a connecting rod, the booster pump 53 is arranged at the right side of the bottom inside the body shell 3 and is spirally connected with the inner wall of the bottom of the body shell 3 through a screw, the flushing liquid storage cylinder 54 is arranged at the center inside the body shell 3 and is positioned above the residue sensing mechanism 55, the bottom of the flushing liquid storage cylinder 54 is adhered and connected with the upper part of the residue sensing mechanism 55 through glue, the flushing liquid storage cylinder 54 is communicated and connected with the booster pump 53 through a water pipe, the transmission pulley block 56 is arranged at the left of the flushing liquid storage cylinder 54, the transmission pulley block 56 is movably connected with the residue sensing mechanism 55 through a traction rope, the rotary transmission mechanism 57 is arranged above the transmission pulley block 56, the rotary transmission mechanism 57 is movably connected with the transmission pulley block 56 through a traction rope, the prompt starting mechanism 58 is arranged at the upper, the prompter 59 is inlayed and is located suggestion actuating mechanism 58 left side in the inside upper left corner of organism shell 3, actuating mechanism 50 comprises start button 500, horizontal pole 501, depression bar 502, fixed plate 503, first spring 504, screens piece 505, screens groove 506, start button 500 inlays in control panel 6 upper surface right side through the button groove, horizontal pole 501 is the welding of vertical form with depression bar 502, depression bar 502 locates start button 500 below, depression bar 502 upper end and start button 500 lower fixed surface are connected, depression bar 502 lower extreme runs through on fixed plate 503, first spring 504 is located between horizontal pole 501 and the fixed plate 503, screens piece 505 is located fixed plate 503 top and is located depression bar 502 both sides, screens groove 506 is located screens piece 505 inner surface and is the integrated into one piece structure with screens piece 505, drive mechanism 51 is by cam 510, cam dead lever 511, card piece 505, First coil winding 512, first haulage rope 513, fixed pipe 514, swiveling wheel 515, lift ejector pin 516, second spring 517, lift slider 518, pulley 519 constitute, cam 510 passes through cam fixing pole 511 and the welding of organism shell 3 inner wall, first coil winding 512 is located cam 510 left side edge and is connected through electric welding with cam 510 is perpendicular, first haulage rope 513 one end is connected with cam 510 left side edge through first coil winding 512, the other end of first haulage rope 513 passes through fixed pipe 514 inside and is connected with lift ejector pin 516 upper end, fixed pipe 514 is vertical and locates cam 510 below and organism shell 3 inner wall welding, swiveling wheel 515 is located fixed pipe 514 upper end left side and fixed pipe 514 swing joint, lift ejector pin 516 is located fixed pipe 514 inside and adopts transition fit with fixed pipe 514, second spring 517 is located inside fixed pipe 514, the upper end and the lower end of the second spring 517 are respectively connected with the upper inner wall of the fixed tube 514 and the upper end of the lifting top rod 516 through electric welding, the lifting slider 518 is arranged at the lower end of the lifting top rod 516 and is vertically connected with the lifting top rod 516 through electric welding, the sliding wheel 519 is arranged at the right side of the lifting slider 518, the lifting slider 518 is slidably connected with the inner wall of the machine body shell 3 through the sliding wheel 519, the electrifying mechanism 52 is composed of a transverse sliding sleeve 520, a fixed cross rod 521, a movable connecting rod 522, a connecting rod 523, an electrifying slider 524, a supporting plate 525, an electrifying fixed block 526, a power wire 527 and a connecting wire 528, the transverse sliding sleeve 520 is sleeved on the fixed cross rod 521 and is movably connected with the fixed cross rod 521, the fixed cross rod 521 is horizontally and vertically connected with the inner wall of the machine body shell 3 through electric welding, one end of the, one end of the connecting rod 523 is vertically connected with the transverse sliding sleeve 520 through electric welding, the other end of the connecting rod 523 is fixedly connected with the electric connection slider 524, the supporting plate 525 is arranged below the fixed cross rod 521 and is vertically connected with the inner wall of the body shell 3 through electric welding, the electric connection slider 524 and the electric connection fixed block 526 are arranged on the upper surface of the supporting plate 525, the electric connection slider 524 is slidably connected with the supporting plate 525, the electric connection fixed block 526 is fixedly connected with the supporting plate 525, the electric connection slider 524 is connected with a power supply through a power line 527, the electric connection fixed block 526 is electrically connected with the booster pump 53 through a connecting wire 528, the booster pump 53 consists of a servo motor 530, an electric connection box 531, a pump 532, a pump seat 533, a water pumping connecting pipe 534 and a water outlet connecting pipe 535, the electric connection box 531 is arranged on the left side surface of the servo motor 530 and is spirally connected with the servo motor 530, the pump base 533 is arranged below the pump 532, the pump 532 is spirally connected with the inner wall of the bottom of the machine body shell 3 through the pump base 533 by bolts, one end of the pumping connection pipe 534 is connected with the flushing liquid storage cylinder 54 in a penetrating way, the other end of the pumping connection pipe 534 is connected with the pump 532 in a penetrating way, one end of the water outlet connection pipe 535 is connected with the pump 532 in a penetrating way, the other end of the water outlet connection pipe 535 is connected with the infusion tube 7, the allowance sensing mechanism 55 is composed of a fixed bottom plate 550, a movable top plate 551, a prismatic movable frame 552, a welding block 553, a telescopic rod 554, a third spring 555, a piston rod 556 and a piston tube 557, the fixed bottom plate 550 and the movable top plate 551 are distributed in an up-down parallel way, the prismatic movable frame 552 is arranged between the fixed bottom plate 550 and the movable top plate 551, the upper end and the lower end of the prismatic movable frame 552, the telescopic rod 554 is vertically arranged inside the prismatic movable frame 552, the third spring 555 is arranged inside the telescopic rod 554, one end of the piston rod 556 is connected with the left part of the prismatic movable frame 552 through a hinge, the other end of the piston rod 556 is embedded inside the piston pipe 557 and movably connected with the piston pipe 557, the piston pipe 557 is movably connected with the inner wall of the machine body shell 3 through a hinge, the transmission pulley block 56 is composed of a second winding coil 560, a second traction rope 561, a first fixed pulley 562, a first pulley frame 563, a second fixed pulley 564, a second pulley frame 565, a third fixed pulley 566 and a third pulley frame 567, the second winding coil 560 is arranged above the right end of the piston rod 556 and fixedly connected with the piston rod 556 through electric welding, one end of the second traction rope 561 is wound and connected with the second winding coil 560, and the other end of the second traction rope 561 is sequentially wound around the first fixed pulley 562, the second fixed pulley 564, The third fixed pulley 566 is wound and connected with the rotary transmission mechanism 57, the first fixed pulley 562 is welded with the inner wall of the machine body shell 3 through a first pulley frame 563, the second fixed pulley 564 is welded with the inner wall of the machine body shell 3 through a second pulley frame 565, the third fixed pulley 566 is welded with the inner wall of the machine body shell 3 through a third pulley frame 567, the rotary transmission mechanism 57 is composed of a rotary disk 570, a rotary disk frame 571, a third kinking wheel 572, a connecting wire 573, a balancing weight 574, a rotary rod 575, a fourth kinking wheel 576 and a third traction rope 577, the rotary disk 570 is arranged at the upper left inside the machine body shell 3, the rotary disk 570 is welded with the inner wall of the machine body shell 3 through the rotary disk frame 571, the third kinking wheel 572 is arranged at the right side of the rotary disk 570 and is vertically connected with the edge of the right side of the rotary disk 570 through electric welding, the second traction rope 561 is connected with the rotary disk 570 through the third kinking wheel, the other end of the connecting wire 573 is connected with a balancing weight 574 in a winding manner, the rotating rod 575 is arranged at the left side of the rotating disk 570 and the left side edge of the rotating disk 570, the right end of the rotating rod 575 is vertically connected through electric welding, the fourth cord wheel 576 is arranged at the left end of the rotating rod 575, one end of the third traction rope 577 is connected with the rotating rod 575 in a winding manner through the fourth cord wheel 576, the other end of the third traction rope 577 prompts the starting mechanism 58 to be connected in a winding manner, the prompting starting mechanism 58 is composed of an arc-shaped rod 580, a sliding sleeve 581, a push rod 582 and a fourth spring 583, the arc-shaped rod 580 is arranged at the upper left part inside the body shell 3 and fixedly connected with the inner wall of the body shell 3 through electric welding, the sliding sleeve 581 is sleeved on the arc-shaped rod 580 and is connected with the arc-shaped rod 580 in a sliding manner, the push, the lower end of the fourth spring 583 is connected with the sliding sleeve 581, and the upper end of the fourth spring 583 is welded with the inner wall of the machine body shell 3.

The invention relates to an automatic washing type uterine curettage device for gynecology, which has the working principle that: the power supply of the connecting device is used for filling flushing liquid into the flushing liquid storage cylinder 54, the uterus scraper 10 is used for scraping intrauterine residues firstly, then the start button 500 is pressed to drive the press rod 502 to press down, the convex end of the cam 510 is pressed to the left, meanwhile, the first winding coil 512 originally positioned at the left side of the cam 510 is rotated to the lower side, the first traction rope 513 loses tension, the lifting push rod 516 loses tension to limit and is ejected downwards under the action of the second spring 517, the lifting push rod 516 moves downwards and simultaneously drives the lifting slide block 518 to slide downwards, the lifting slide block 518 drives the transverse sliding sleeve 520 to slide leftwards along the fixed cross rod 521 through the movable connecting rod 522, the transverse sliding sleeve 520 drives the electric connection slide block 524 to slide leftwards through the connecting rod 523 to be in contact with the fixed block 526 for electrification, the servo motor 530 is started to drive the pump 532 to start work, and flushing liquid in the flushing liquid storage cylinder 54 is ejected from the, starting to perform uterine irrigation; with the reduction of the amount of the flushing fluid in the flushing fluid storage cylinder 54 and the reduction of the pressure of the movable top plate 551, the movable top plate 551 raises the third spring 555 under the action of the elastic force, and at the same time, drives the prismatic movable frame 552 to deform, and changes the original wide and short shape into a narrow and high shape, and at the same time, pulls out the piston rod 556 from the piston tube 557, and drives the second winding coil 560 to pull one end of the second traction rope 561, and the other end of the second traction rope 561 bypasses the first fixed pulley 562, the second fixed pulley 564, and the third fixed pulley 566 to apply a pulling force to the third winding wheel 572, so that the rotating wheel 570 is driven to rotate clockwise by 90 degrees, the rotating rod 575 originally positioned at the left side of the rotating wheel 570 is rotated to the upper side, the pulling force of the rotating rod 575 to the third traction rope 577 is reduced, the pulling force of the third traction rope 577 to the sliding sleeve 581 is reduced, and the sliding sleeve 581 slides up along the arc-shaped rod, the switch of the prompter 59 is pressed by the ejector rod 582, and the prompter 59 is started to give out a prompt sound indicating that the residual quantity of the flushing liquid is insufficient; when the flushing liquid is supplemented in time, the flushing liquid in the flushing liquid storage cylinder 54 is increased, the weight is increased, the movable top plate 551 is pressed down, the pulling force applied to the second traction rope 561 is reduced, the rotary disc 570 is restored under the action of the gravity of the counterweight block 574, the sliding sleeve 581 is pulled down through the third traction rope 577, the ejector rod 582 is separated from the switch of the prompter 59 and does not apply pressure to the ejector rod, and the prompter 59 is closed; after the flushing operation is finished, the start button 500 is pressed again, the cross rod 501 leaves the clamping groove 506, when the user looses his hand, the cross rod pops up under the elastic action of the first spring 504, the cam 510 loses the jacking force and recovers the original state, meanwhile, the lifting ejector rod 516 is pulled up through the first traction rope 513, the lifting sliding block 518 recovers the initial position, the electric connection sliding block 524 slides to the original position on the right, the booster pump 53 stops working after power failure, and the flushing operation is finished.

The gynecological automatic flushing type uterine curettage device comprises a flushing liquid storage tank, a flushing liquid reminding automatic flushing device, a flushing liquid reminding device, a control device and a control device

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a gynaecology's automatic washing formula uterine curettage device, its structure includes device base (1), removal gyro wheel (2), organism shell (3), visual window (4), automatic washing unit of surplus suggestion (5), control panel (6), transfer line (7), controls grab handle (8), stretches into flushing pipe (9), uterus scrapes (10), puts thing ring (11), its characterized in that:

the movable idler wheels (2) are four and are respectively arranged at four corners below the device base (1), the movable idler wheels (2) are spirally connected with the device base (1) through screws, the machine body shell (3) is arranged above the device base (1) and is connected with the device base (1) through electric welding, the visual window (4) is arranged at the center of the front surface of the machine body shell (3) and is bonded with the machine body shell (3) through glass glue, the residual prompt automatic flushing device (5) is arranged inside the machine body shell (3), the control panel (6) is embedded on the upper surface of the machine body shell (3) and is electrically connected with the residual prompt automatic flushing device (5), one end of the infusion tube (7) penetrates through the machine body shell (3) and is communicated with the residual prompt automatic flushing device (5), the other end of the infusion tube (7) penetrates through the control handle (8) and is communicated with the extending flushing tube (9), the control grab handle (8) is arranged below the extending flushing pipe (9), the uterus scraper (10) is arranged above the extending flushing pipe (9), the uterus scraper (10) and the upper end of the extending flushing pipe (9) are connected in a vertical manner through electric welding, the storage ring (11) is arranged above the right side surface of the machine body shell (3) and is connected with the machine body shell (3) in a vertical manner through electric welding, and the control grab handle (8) is clamped inside the storage ring (11) and is movably connected with the storage ring (11);

the allowance prompting automatic flushing device (5) consists of a starting mechanism (50), a transmission mechanism (51), an electrifying mechanism (52), a booster pump (53), a flushing liquid storage cylinder (54), an allowance sensing mechanism (55), a transmission pulley block (56), a rotary transmission mechanism (57), a prompting starting mechanism (58) and a prompter (59);

the automatic flushing device is characterized in that the starting mechanism (50) is arranged at the upper right inside the machine body shell (3), the transmission mechanism (51) is arranged below the starting mechanism (50) and connected with the starting mechanism (50) through a traction rope, the electrifying mechanism (52) is arranged at the lower left side of the transmission mechanism (51), the electrifying mechanism (52) is movably connected with the transmission mechanism (51) through a connecting rod, the booster pump (53) is arranged at the right side of the bottom inside the machine body shell (3) and is spirally connected with the inner wall of the bottom of the machine body shell (3) through a screw, the flushing fluid storage cylinder (54) is arranged at the center inside the machine body shell (3) and is positioned above the residue sensing mechanism (55), the bottom of the flushing fluid storage cylinder (54) is adhesively connected with the upper part of the residue sensing mechanism (55) through glue, the flushing fluid storage cylinder (54) is communicated with the booster pump (53) through a water pipe, and the transmission pulley block (, the driving pulley block (56) is movably connected with the allowance sensing mechanism (55) through a traction rope, the rotating transmission mechanism (57) is arranged above the driving pulley block (56), the rotating transmission mechanism (57) is movably connected with the driving pulley block (56) through the traction rope, the prompting starting mechanism (58) is arranged at the left upper corner inside the body shell (3) and fixedly connected with the inner wall of the body shell (3) through electric welding, and the prompting device (59) is embedded in the left upper corner inside the body shell (3) and is positioned on the left side of the prompting starting mechanism (58);

the starting mechanism (50) consists of a starting button (500), a cross rod (501), a pressure rod (502), a fixing plate (503), a first spring (504), a clamping block (505) and a clamping groove (506), the starting button (500) is embedded on the right side of the upper surface of the control panel (6) through a button slot, the cross bar (501) is vertically welded with the pressure lever (502), the pressure lever (502) is arranged below the starting button (500), the upper end of the pressure lever (502) is fixedly connected with the lower surface of the starting button (500), the lower end of the pressure lever (502) penetrates through the upper surface and the lower surface of the fixed plate (503), the first spring (504) is arranged between the cross rod (501) and the fixed plate (503), the clamping blocks (505) are arranged above the fixed plate (503) and positioned at two sides of the pressure lever (502), the clamping groove (506) is arranged on the inner side surface of the clamping block (505) and is in an integrated structure with the clamping block (505); the transmission mechanism (51) comprises a cam (510), a cam fixing rod (511), a first winding ring (512), a first traction rope (513), a fixing tube (514), a rotating wheel (515), a lifting ejector rod (516), a second spring (517), a lifting slider (518) and a sliding wheel (519), wherein the cam (510) is welded with the inner wall of the machine body shell (3) through the cam fixing rod (511), the first winding ring (512) is arranged at the left side edge of the cam (510) and is vertically connected with the cam (510) through electric welding, one end of the first traction rope (513) is connected with the left side edge of the cam (510) through the first winding ring (512), the other end of the first traction rope (513) penetrates through the inside of the fixing tube (514) and is connected with the upper end of the lifting ejector rod (516), the fixing tube (514) is vertically arranged below the cam (510) and is welded with the inner wall of the machine body shell (3), the rotating wheel (515) is arranged on the left side of the upper end of the fixed pipe (514) and movably connected with the fixed pipe (514), the lifting ejector rod (516) is arranged inside the fixed pipe (514) and is in transition fit with the fixed pipe (514), the second spring (517) is arranged inside the fixed pipe (514), the upper end and the lower end of the second spring (517) are respectively connected with the upper inner wall of the fixed pipe (514) and the upper end of the lifting ejector rod (516) through electric welding, the lifting sliding block (518) is arranged at the lower end of the lifting ejector rod (516) and is vertically connected with the lifting ejector rod (516) through electric welding, the sliding wheel (519) is arranged on the right side of the lifting sliding block (518), and the lifting sliding block (518) is in sliding connection with the inner wall of the machine body shell (3); the power-on mechanism (52) comprises a transverse sliding sleeve (520), a fixed cross rod (521), a movable connecting rod (522), a connecting rod (523), a power connection sliding block (524), a supporting plate (525), a power connection fixed block (526), a power line (527) and a connecting wire (528), wherein the transverse sliding sleeve (520) is sleeved on the fixed cross rod (521) and is movably connected with the fixed cross rod (521), the fixed cross rod (521) is horizontally and vertically connected with the inner wall of the engine shell (3) through electric welding, one end of the movable connecting rod (522) is connected with a lifting sliding block (518) through a hinge, the other end of the movable connecting rod (522) is connected with the transverse sliding sleeve (520) through a hinge, one end of the connecting rod (523) is vertically connected with the transverse sliding sleeve (520) through electric welding, the other end of the connecting rod (523) is fixedly connected with the power connection sliding block (524), the supporting plate (525) is arranged below the fixed cross rod (521 The power connection device is characterized in that the power connection sliding block (524) and the power connection fixing block (526) are vertically connected, the power connection sliding block (524) is in sliding connection with the supporting plate (525), the power connection fixing block (526) is fixedly connected with the supporting plate (525), the power connection sliding block (524) is connected with a power supply through a power line (527), and the power connection fixing block (526) is electrically connected with the booster pump (53) through a connecting wire (528); the booster pump (53) comprises a servo motor (530), a power connection box (531), a pump (532), a pump seat (533), a water pumping connection pipe (534) and a water outlet connection pipe (535), wherein the power connection box (531) is arranged on the left side surface of the servo motor (530) and is in screw connection with the servo motor (530), the servo motor (530) is arranged at the center above the pump (532) and is connected with the pump (532) through electric welding, the pump seat (533) is arranged below the pump (532), the pump (532) is in screw connection with the inner wall of the bottom of the body shell (3) through a bolt through the pump seat (533), one end of the water pumping connection pipe (534) is in through connection with the flushing liquid storage cylinder (54), the other end of the water pumping connection pipe (534) is in through connection with the pump (532), one end of the water outlet connection pipe (535) is in through connection with the pump (532), the other end of the water outlet connecting pipe (535) is connected with an infusion pipe (7); the allowance sensing mechanism (55) consists of a fixed bottom plate (550), a movable top plate (551), a prismatic movable frame (552), a welding block (553), a telescopic rod (554), a third spring (555), a piston rod (556) and a piston tube (557), wherein the fixed bottom plate (550) and the movable top plate (551) are distributed in an up-and-down parallel manner, the prismatic movable frame (552) is arranged between the fixed bottom plate (550) and the movable top plate (551), the upper end and the lower end of the prismatic movable frame (552) are respectively welded with the lower surface of the movable top plate (551) and the upper surface of the fixed bottom plate (550) through the welding block (553), the telescopic rod (554) is vertically arranged inside the prismatic movable frame (552), the third spring (555) is arranged inside the telescopic rod (554), one end of the piston rod (556) is connected with the left part of the prismatic movable frame (552) through a hinge, the other end of the piston rod (556) is embedded into the piston pipe (557) and movably connected with the piston pipe (557), and the piston pipe (557) is movably connected with the inner wall of the machine body shell (3) through a hinge;

the transmission pulley block (56) consists of a second winding coil (560), a second traction rope (561), a first fixed pulley (562), a first pulley frame (563), a second fixed pulley (564), a second pulley frame (565), a third fixed pulley (566) and a third pulley frame (567), the second winding coil (560) is arranged above the right end of the piston rod (556) and fixedly connected with the piston rod (556) through electric welding, one end of the second traction rope (561) is connected with the second winding coil (560) in a winding manner, the other end of the second traction rope (561) is sequentially connected with the rotary transmission mechanism (57) in a winding manner around the first fixed pulley (562), the second fixed pulley (564) and the third fixed pulley (566), the first fixed pulley (562) is welded with the inner wall of the machine body shell (3) through the first pulley frame (563), and the second fixed pulley (564) is welded with the inner wall of the machine body shell (3) through the second pulley frame (565), the third fixed pulley (566) is welded with the inner wall of the machine body shell (3) through a third pulley frame (567); the rotary transmission mechanism (57) consists of a rotary disk (570), a rotary disk frame (571), a third wire winding wheel (572), a connecting wire (573), a balancing weight (574), a rotary rod (575), a fourth wire winding wheel (576) and a third traction rope (577), the rotary disk (570) is arranged at the upper left of the inner part of the machine shell (3), the rotary disk (570) is welded with the inner wall of the machine shell (3) through the rotary disk frame (571), the third wire winding wheel (572) is arranged at the right side of the rotary disk (570) and is vertically connected with the edge of the right side of the rotary disk (570), the second traction rope (561) is connected with the rotary disk (570) through the third wire winding wheel (571), one end of the connecting wire (573) is electrically welded with the lower end edge of the rotary disk (570), the other end of the connecting wire (574) is wound and connected with the balancing weight (573), the rotary rod (575) is arranged at the left side of the rotary disk (570) and is connected, the right end of the rotating rod (575) is vertically connected through electric welding, the fourth wire winding wheel (576) is arranged at the left end of the rotating rod (575), one end of the third traction rope (577) is connected with the rotating rod (575) in a winding mode through the fourth wire winding wheel (576), and the other end of the third traction rope (577) is connected with the prompting starting mechanism (58) in a winding mode; the prompting starting mechanism (58) comprises an arc-shaped rod (580), a sliding sleeve (581), a push rod (582) and a fourth spring (583), wherein the arc-shaped rod (580) is arranged at the upper left inside the body shell (3) and fixedly connected with the inner wall of the body shell (3) through electric welding, the sliding sleeve (581) is sleeved on the arc-shaped rod (580) and is in sliding connection with the arc-shaped rod (580), the push rod (582) is arranged at the left side of the sliding sleeve (581) and is vertically connected with the sliding sleeve (581) through electric welding, the fourth spring (583) is wound on the upper part of the arc-shaped rod (580), the lower end of the fourth spring (583) is connected with the sliding sleeve (581), and the upper end of the fourth spring (583) is welded with the inner wall of the body shell (3);

when the device is used, a power supply of the device is connected firstly, flushing fluid is filled into a flushing fluid storage cylinder, intrauterine residues are scraped firstly by using a uterine scraper, then a start button is pressed to drive a pressure rod to press down, a convex end of a cam is pressed to rotate left, meanwhile, a first winding coil originally positioned on the left side of the cam is rotated to the lower side, a first traction rope loses tension, a lifting ejector rod loses tension and is limited to be ejected downwards under the action of a second spring, the lifting ejector rod moves downwards and simultaneously drives a lifting slide block to slide downwards, the lifting slide block drives a transverse slide sleeve to slide leftwards along a fixed cross rod through a movable connecting rod, the transverse slide sleeve drives an electric connection slide block to slide leftwards through the connecting rod to be in contact with an electric connection fixed block for electrification, a servo motor is started to drive a pump to work, the flushing fluid of the storage cylinder is ejected from the top end of; along with the reduction of the amount of flushing fluid in the flushing fluid storage cylinder, the pressure of the flushing fluid storage cylinder on the movable top plate is reduced, the movable top plate raises under the action of the elastic force of a third spring, simultaneously drives the prismatic movable frame to deform, the original wide and short shape is changed into the narrow and high shape, simultaneously the piston rod is pulled out of the piston tube to drive the second winding coil to pull one end of the second traction rope, the other end of the second traction rope bypasses the first fixed pulley, the second fixed pulley and the third fixed pulley to apply the pulling force on the third winding wheel, so that the third winding wheel is driven by the piston rod to rotate 90 degrees clockwise, the rotating rod originally positioned on the left side of the rotating disk is rotated to the upper part, the pulling force of the rotating rod on the third traction rope is reduced, the pulling force of the third traction rope on the sliding sleeve is reduced, the sliding sleeve slides upwards along the arc-shaped rod under the action of a fourth spring arranged above the, starting a prompter to send out prompt sound of insufficient residual flushing liquid; when the flushing liquid is supplemented in time, the flushing liquid in the flushing liquid storage cylinder is increased, the weight is increased, the movable top plate is pressed downwards, the pulling force applied to the second traction rope is reduced, the rotating disc is restored under the action of the gravity of the balancing weight, the sliding sleeve is pulled downwards through the third traction rope, the switch of the ejector rod away from the prompter does not apply pressure to the ejector rod, and the prompter is closed; after the washing work is finished, the starting button is pressed again, the cross rod leaves the clamping groove, the cross rod bounces under the elastic action of the first spring when the hand is loosened, the cam loses the jacking force and restores the original state, the lifting ejector rod is pulled upwards through the first traction rope simultaneously, the lifting sliding block restores the initial position, the electric connecting sliding block slides to the original position on the right, the booster pump stops working after power failure, and the washing work is finished.

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