CN116769594A - Flexible separation self-inflating pressurized drainage storage treatment equipment for induced abortion - Google Patents

Abstract

The invention discloses flexible separation self-inflating pressurized drainage storage treatment equipment for artificial abortion, which comprises a wavy flexible separation treatment mechanism, a self-inflating micro-pressurizing liquid dispersing component, an electric abortion suction device, a separation treatment container and a movable base. The invention belongs to the field of abortion drainage, and particularly relates to flexible separation self-inflating pressurized drainage, storage and treatment equipment for artificial abortion; aiming at the contradictory characteristics that impurities on the surface of embryo tissues extracted by artificial abortion are treated (whether fluff exists in a group fabric or not is conveniently observed, whether the extracted tissues are human embryos or not is judged), and embryos cannot be directly treated, is provided with a wavy flexible separation treatment mechanism.

Description

Flexible separation self-inflating pressurized drainage storage treatment equipment for induced abortion

Technical Field

The invention belongs to the technical field of abortion drainage, and particularly relates to flexible separation self-inflating pressurized drainage storage treatment equipment for artificial abortion.

Background

The negative pressure suction induced abortion is suitable for people within ten weeks of pregnancy, a suction tube can be used for extending into an official cavity, embryo tissues are sucked out by negative pressure to terminate pregnancy, the conventional method generally adopts an electric abortion suction device for auxiliary operation, sucked out tissues need to be taken out from equipment after the operation is finished, induced abortion belongs to incomplete abortion, possibly the taken out tissues are not embryo tissues or the taken out embryo tissues are incomplete, the taken out tissues need to be filtered and cleaned, whether fluff and the quantity of the fluff exist in the tissue are carefully checked, the tissues still remain in a patient body are prevented, the conventional artificial abortion suction device does not have the function, the embryo tissues just taken out are fragile, the conventional artificial treatment mode is easy to cause the damage of the tissues, the follow-up procedures of observing, analyzing, testing and the like are affected, and therefore the flexible separation self-inflating pressurized drainage storage treatment equipment for artificial abortion needs to be provided.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides flexible separation self-inflating pressurized drainage storage treatment equipment for artificial abortion, which effectively solves the technical problems that the embryo is difficult to filter and clean after being taken out by artificial abortion and the embryo tissue is easy to damage in the operation process in the current market.

The technical scheme adopted by the invention is as follows: the invention provides flexible separation self-inflating pressurized drainage storage treatment equipment for artificial abortion, which comprises a wavy flexible separation treatment mechanism, a self-inflating micro-pressurizing liquid dispersing component, an electric abortion suction device, a separation treatment container and a movable base, wherein the separation treatment container is arranged on the movable base, the wavy flexible separation treatment mechanism is arranged on the separation treatment container, the self-inflating micro-pressurizing liquid dispersing component is arranged in the separation treatment container, and the electric abortion suction device is arranged on the movable base.

Preferably, the self-inflatable micro-pressurized liquid dispersing component comprises a gas generating driving mechanism, a mixing reaction container, small magnetic blocks, small iron blocks, a water storage bag, a sliding top cover, a gas conveying straight pipe, a gas transfer container, a gas conveying bent pipe, a gas storage balloon and a puncture body, wherein the mixing reaction container is fixedly connected to the inner wall of the separation treatment container, the gas generating driving mechanism is arranged in the mixing reaction container, the sliding top cover is embedded and slidingly arranged at the top opening of the mixing reaction container, the small iron blocks are embedded and fixedly connected to the side wall of the top opening of the mixing reaction container, the small magnetic blocks are embedded and fixedly connected to the outer wall of the sliding top cover, the water storage bag is fixedly connected to the inner wall of the sliding top cover, the gas conveying straight pipe is communicated and arranged on the mixing reaction container, the gas transfer container is communicated and arranged on the gas conveying straight pipe, the gas storage balloon is hermetically arranged at the end part of the gas conveying bent pipe, and the puncture body is fixedly connected to the inner wall of the separation treatment container.

Further, the wave-type flexible separation treatment mechanism comprises a flexible separation driving assembly and a flexible separation bearing pad, the flexible separation driving assembly is arranged on two sides of the separation treatment container in two groups, the flexible separation bearing pad is arranged between the flexible separation driving assemblies, the flexible separation driving assembly comprises a flexible separation driving motor, a motor base, an output long shaft, a staggered cam, a long shaft supporting seat, a reciprocating sliding rod, a sliding guide frame, a flexible movement through groove, a blocking sliding strip and a sliding strip guide groove, the motor base is fixedly connected to the outer wall of the separation treatment container, a machine body of the flexible separation driving motor is arranged on the motor base, the long shaft supporting seat is fixedly connected to the outer wall of the separation treatment container, the output long shaft penetrates through and is arranged on the long shaft supporting seat, the output long shaft is connected to the output end of the flexible separation driving motor, the staggered cam is arranged on the output long shaft in a plurality of groups in a staggered mode, the sliding guide frame is fixedly connected to the outer wall of the separation treatment container, the reciprocating sliding rod penetrates through and is arranged on the sliding guide frame, the bottom of the reciprocating sliding rod is in contact with the staggered cam, the flexible movement through groove is arranged on the side wall of the separation treatment container in two groups, the sliding strip guide groove is arranged on the side wall of the separation treatment container, the sliding strip guide groove is arranged on the outer wall of the separation treatment container, and the output long shaft is arranged on the output long shaft.

Preferably, the gas generating driving mechanism comprises a waterproof motor, a motor mounting groove, a driving gear, a transmission toothed ring, a rotary ring, a waist-shaped chute, a ring jogging groove, an auxiliary sliding block, a pushing sliding bar, a sliding bar moving groove and a protruding thorn tip, wherein the motor mounting groove is arranged on the inner wall of the mixed reaction container, the body of the waterproof motor is arranged in the motor mounting groove, the driving gear is arranged at the output end of the waterproof motor, the ring jogging groove is circumferentially arranged on the inner wall of the mixed reaction container, the rotary ring jogging rotation is arranged on the ring jogging groove, the transmission toothed ring is fixedly connected to the top of the rotary ring, the waist-shaped chute penetrates through the array and is arranged on the rotary ring, the sliding bar moving groove is circumferentially arranged on the inner wall of the mixed reaction container, the pushing sliding bar jogging sliding is arranged on the sliding bar, one end of the auxiliary sliding bar is jogged and sliding is arranged on the waist-shaped chute, and the other end of the auxiliary sliding bar is arranged on the pushing sliding bar.

Wherein, the flexible separation bearing pad is provided with a separation small hole in a penetrating way.

In order to ensure that the water storage bag can be smoothly punctured when the spike tip moves, the water storage bag passes through the transmission toothed ring and the rotary ring when moving.

Wherein, the small magnetic block is connected with the small iron block through magnetic adsorption.

Preferably, the bottom of the flexible separation bearing pad is fixedly connected to the reciprocating sliding rod in a bonding way, the top of the flexible separation bearing pad is contacted to the blocking sliding strip in a bonding way, the flexible separation bearing pad penetrates through the separation treatment container through the flexible movement through groove, and the flexible separation bearing pad is made of rubber materials for improving bending resistance and softness of the flexible separation bearing pad.

Further, the puncture body is L-shaped.

In order to ensure the normal operation of the gas generating driving mechanism, the driving gear and the transmission gear ring are in meshed connection.

The beneficial effects obtained by the invention by adopting the structure are as follows: the technical problems that after the embryo is taken out by artificial abortion in the current market, the embryo is difficult to filter and clean and the embryo tissue is easy to damage in the operation process are effectively solved, and the technical scheme of the invention brings the following benefits:

(1) Aiming at the contradictory characteristics that sundries on the surface of embryo tissues taken out by artificial abortion are treated (whether fluff exists in a group fabric or not is convenient to observe, whether the taken-out tissue is a human embryo or not is judged), and the embryo tissues cannot be directly treated (the embryo tissues are prevented from being damaged), is provided with a wavy flexible separation treatment mechanism, after the human embryo tissues are taken out by utilizing an electric abortion suction device, the embryo tissues are placed on a flexible separation bearing pad, after the flexible separation driving motor is started, the output end of the flexible separation bearing pad drives an output long shaft to rotate, a plurality of groups of staggered cams continuously rotate, the groups of staggered cams undulate, a plurality of groups of reciprocating sliding rods are repeatedly lifted up, the groups of reciprocating sliding rods on the upper part of the flexible separation bearing pad are in wavy motion, the embryo tissues on the flexible separation bearing pad are gradually caused to fall to the bottom of a separation treatment container through separation pores, the reciprocating wave motion of the reciprocating sliding rods on two sides of the flexible separation bearing pad is used for driving the flexible separation bearing pad to slowly, the embryo tissues can be continuously driven to roll, and the embryo tissues on the two sides of the flexible separation bearing pad are not only, but also the embryo tissues can not be damaged by the embryo tissues of the conventional tissue can be continuously and the embryo tissues of the embryo tissues can be continuously researched, and the embryo tissue can not be conveniently removed by the embryo tissue under the conditions of the condition that the following the condition that the embryo tissue is completely and the embryo tissue is convenient to be researched;

(2) Aiming at the contradictory characteristics that liquid on the surface of embryo tissues is removed and the integrity of the embryo tissues is ensured, the invention provides a self-inflatable micropressure liquid dispersing component, a water storage bag is filled with water, a sliding top cover is buckled into the top opening of a mixing reaction container in a sliding way, the sliding top cover slowly slides downwards along the inner wall of the top opening of the mixing reaction container under the action of gravity, so that small magnetic blocks gradually contact with the small iron blocks on two sides of the opening of the mixing reaction container, at the moment, the small magnetic blocks and the small iron blocks are adsorbed, the sliding top cover is static, the water storage bag is driven to synchronously static, at the moment, the water storage bag passes through a transmission toothed ring and a rotary ring, a driving gear is driven to rotate after a waterproof motor is started, the transmission toothed ring is driven to rotate, the rotary ring below is enabled to be embedded and rotated along circular ring embedded grooves on two sides, and auxiliary sliding blocks distributed in a waist-shaped chute, the inclined waist-shaped chute which rotates clockwise along with the rotating ring makes the auxiliary slide block slide in the waist-shaped chute, so that a plurality of groups of pushing slide bars are driven to draw close to the middle and slide, the water storage bag is gradually punctured to burst the water storage bag, a proper amount of citric acid and baking soda are added into the mixed reaction container in advance, so that water in the water storage bag is fully mixed with the citric acid and the baking soda to quickly generate more carbon dioxide, a small amount of sodium citrate and water generated by the chemical reaction can not influence the implementation process, the carbon dioxide enters the gas transfer container through the gas conveying straight pipe to be gathered and is flushed into the gas storage balloon through the gas conveying bent pipe, the gas storage balloon is gradually inflated and ruptured after contacting the puncture body, the carbon dioxide has a certain pressure after the gas storage balloon is ruptured, the accumulated carbon dioxide in the gas storage balloon is sprayed to the embryo tissues on the flexible separation bearing pad, so that waste liquid such as human tissue liquid on the embryo tissues splashes out, the pressure of the carbon dioxide gas is moderate when the gas storage balloon is broken, the embryo tissues are not damaged, the embryo tissues can be efficiently and automatically cleaned on the premise of keeping the integrity of the embryo tissues, a worker can be helped to observe the specific external structure of the extracted embryo tissues, and the study is convenient;

(3) In the process of the fluctuation movement of the flexible separation bearing pad, a plurality of groups of blocking sliding strips above two sides of the flexible separation bearing pad are driven to carry out the wave movement, the plurality of groups of blocking sliding strips slide along the sliding strip guide grooves, and the bottoms of the blocking sliding strips are continuously attached to the flexible separation bearing pad, so that embryo tissues cannot fall off from the flexible separation bearing pad due to the movement, and the smooth implementation process is ensured;

(4) The chemical reaction process of the citric acid and the baking soda in the mixed reaction vessel is quite stable, and can generate more carbon dioxide gas which is safe gas with stable properties, thereby meeting the requirements of the invention.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion;

FIG. 2 is a schematic diagram of the structure of the separation treatment vessel and the wave-type flexible separation treatment mechanism provided by the invention;

FIG. 3 is a cross-sectional view of a separation treatment vessel and a wave-like flexible separation treatment mechanism provided by the present invention;

FIG. 4 is a second cross-sectional view of the separation treatment vessel and the wavy flexible separation treatment mechanism provided by the present invention;

FIG. 5 is a schematic cross-sectional view of a self-inflating micro-pressurized liquid dissipating assembly provided by the present invention;

FIG. 6 is a schematic perspective view of an interlaced cam and reciprocating slide bar provided in accordance with the present invention;

FIG. 7 is a schematic top view of a gas generating drive mechanism according to the present invention;

FIG. 8 is a schematic top view of a gas generating drive mechanism provided by the present invention;

FIG. 9 is an enlarged partial view of portion A of FIG. 4;

fig. 10 is a partial enlarged view of a portion B of fig. 5.

The device comprises a wave-shaped flexible separation treatment mechanism, a self-inflating micro-pressurized liquid dispersing component, a 3, an electric abortion suction device, a 4, a separation treatment container, a 5, a movable base, a 6, a gas generation driving mechanism, a 7, a mixed reaction container, a 8, a small magnet, a 9, a small iron block, a 10, a water storage bag, a 11, a sliding top cover, a 12, a gas conveying straight pipe, a 13, a gas transfer container, a 14, a gas conveying bent pipe, a 15, a gas storage balloon, a 16, a puncture body, a 17, a flexible separation driving component, a 18, a flexible separation bearing pad, a 19, a flexible separation driving motor, a 20, a motor base, a 21, an output long shaft, a 22, a staggered cam, a 23, a long shaft supporting seat, a 24, a reciprocating sliding rod, a 25, a sliding guide frame, a 26, a flexible movement through groove, a 27, a blocking sliding strip, a 28, a sliding strip guide groove, a 29, a waterproof motor, a 30, a motor mounting groove, a 31, a driving gear, a 32, a transmission toothed ring, a 33, a rotating ring, a 34, a waist-shaped chute, a 35, a ring jogging groove, a 36, an auxiliary sliding block, a 37, a sliding rod 38, a moving tip, a 39, a small hole and a small-end separation groove.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1, the invention provides flexible separation self-inflating pressurized drainage storage treatment equipment for induced abortion, which comprises a wavy flexible separation treatment mechanism 1, a self-inflating micro-pressurizing liquid dispersing component 2, an electric abortion suction device 3, a separation treatment container 4 and a movable base 5, wherein the separation treatment container 4 is arranged on the movable base 5, the wavy flexible separation treatment mechanism 1 is arranged on the separation treatment container 4, the self-inflating micro-pressurizing liquid dispersing component 2 is arranged in the separation treatment container 4, and the electric abortion suction device 3 is arranged on the movable base 5.

As shown in fig. 4 and 5, the self-inflating micro-pressurized liquid dispersing assembly 2 comprises a gas generating driving mechanism 6, a mixing reaction container 7, a small magnetic block 8, a small iron block 9, a water storage bag 10, a sliding top cover 11, a gas conveying straight pipe 12, a gas transfer container 13, a gas conveying bent pipe 14, a gas storage balloon 15 and a puncture body 16, wherein the mixing reaction container 7 is fixedly connected to the inner wall of the separation processing container 4, the gas generating driving mechanism 6 is arranged in the mixing reaction container 7, the sliding top cover 11 is embedded and slidingly arranged at the top opening of the mixing reaction container 7, the small iron block 9 is embedded and fixedly connected to the side wall of the top opening of the mixing reaction container 7, the small magnetic block 8 is embedded and fixedly connected to the outer wall of the sliding top cover 11, the water storage bag 10 is fixedly connected to the inner wall of the sliding top cover 11, the gas conveying straight pipe 12 is communicated and arranged on the mixing reaction container 7, the gas transfer container 13 is communicated and arranged on the gas conveying straight pipe 12, the gas conveying bent pipe 14 is communicated and arranged at the top of the gas transfer container 13, the gas storage balloon 15 is hermetically arranged at the end of the gas transfer container 14, and the puncture body 16 is fixedly connected to the inner wall of the separation processing container 4.

As shown in fig. 1-4, fig. 6 and fig. 9, the wave-type flexible separation treatment mechanism 1 comprises a flexible separation driving assembly 17 and a flexible separation bearing pad 18, the flexible separation driving assembly 17 is arranged on two sides of a separation treatment container 4 in two groups, the flexible separation bearing pad 18 is arranged between the flexible separation driving assemblies 17, the flexible separation driving assembly 17 comprises a flexible separation driving motor 19, a motor base 20, an output long shaft 21, a staggered cam 22, a long shaft supporting seat 23, a reciprocating sliding rod 24, a sliding guide frame 25, a flexible motion through groove 26, a blocking sliding strip 27 and a sliding strip guide groove 28, the motor base 20 is fixedly connected to the outer wall of the separation treatment container 4, a machine body of the flexible separation driving motor 19 is arranged on the motor base 20, the long shaft supporting seat 23 is fixedly connected to the outer wall of the separation treatment container 4, the output long shaft 21 is rotatably arranged on the long shaft supporting seat 23 in a penetrating manner, the staggered cam 22 is arranged on the output long shaft 21 in a plurality of groups, the sliding guide frame 25 is fixedly connected to the outer wall of the separation treatment container 4, the reciprocating sliding rod 24 is arranged on the sliding guide frame 25 in a penetrating manner, the bottom of the reciprocating sliding rod 24 is fixedly arranged on the sliding guide frame 25, the sliding guide frame 24 is in a penetrating manner, the sliding guide groove 26 is arranged on the sliding guide groove 28 and the sliding guide groove 28 is arranged on the side wall of the sliding guide groove 28, which is fixedly arranged on the sliding guide groove 28 and is in contact with the sliding guide groove 28.

As shown in fig. 7 to 8 and 10, the gas generating driving mechanism 6 includes a waterproof motor 29, a motor mounting groove 30, a driving gear 31, a transmission toothed ring 32, a rotary ring 33, a waist-shaped chute 34, a ring engaging groove 35, an auxiliary slider 36, a push slider 37, a slider moving groove 38 and a spur tip 39, the motor mounting groove 30 is provided on the inner wall of the mixing reaction vessel 7, the body of the waterproof motor 29 is provided in the motor mounting groove 30, the driving gear 31 is provided on the output end of the waterproof motor 29, the ring engaging groove 35 is circumferentially provided on the inner wall of the mixing reaction vessel 7, the rotary ring 33 is rotationally engaged with the ring engaging groove 35, the transmission toothed ring 32 is fixedly connected to the top of the rotary ring 33, the waist-shaped chute 34 is penetratingly arranged on the rotary ring 33, the slider moving groove 38 is circumferentially provided on the inner wall of the mixing reaction vessel 7, the push slider 37 is slidably engaged with the slider moving groove 38, the spur tip 39 is provided on the push slider 37, one end of the auxiliary slider 36 is slidably provided on the waist-shaped chute 34, and the other end of the auxiliary slider 36 is provided on the push slider 37.

As shown in fig. 9, the flexible separation bearing pad 18 is provided with a separation small hole 40 in a penetrating manner, the bottom of the flexible separation bearing pad 18 is fixedly connected to the reciprocating sliding rod 24 in a fitting manner, the top of the flexible separation bearing pad 18 is contacted to the blocking sliding strip 27 in a fitting manner, the flexible separation bearing pad 18 penetrates through the separation processing container 4 through the flexible movement through groove 26, and in order to improve the bending resistance and softness of the flexible separation bearing pad 18, the flexible separation bearing pad 18 is made of rubber materials.

As shown in fig. 5, in order to smoothly pierce the water storage bag 10 when the piercing tip 39 moves, the water storage bag 10 moves through the driving gear ring 32 and the rotating ring 33.

As shown in fig. 10, the small magnet blocks 8 and the small iron blocks 9 are magnetically adsorbed and connected, and in order to ensure the normal operation of the gas generating driving mechanism 6, the driving gear 31 and the transmission toothed ring 32 are in meshed connection.

As shown in fig. 5, the puncture body 16 has an L-shape.

When the embryo tissue treatment device is specifically used, firstly, the electric abortion suction device 3 is started to suck out embryo tissues in a patient, then the sucked embryo tissues are taken out, the embryo tissues are placed on the flexible separation bearing pad 18, after the flexible separation driving motor 19 is started, the output end of the flexible separation driving motor drives the output long shaft 21 to rotate, then a plurality of groups of staggered cams 22 continuously rotate, a plurality of groups of staggered cams 22 undulate in a wavy manner, then a plurality of groups of reciprocating sliding rods 24 are reciprocally jacked up, so that a plurality of groups of reciprocating sliding rods 24 undulate in a wavy manner, the flexible separation bearing pad 18 of a rubber material at the top is driven to undulate in a wavy manner, then the embryo tissues are subjected to undulation on the flexible separation bearing pad 18, so that impurities on the surface of the embryo tissues gradually fall to the bottom of the separation processing container 4 through the separation small holes 40 to be collected, and the reciprocating wavy movement of the reciprocating sliding rods 24 at the two sides drives the flexible separation bearing pad 18 to perform very slow movement and can continuously drive the embryo tissues to perform displacement to a certain extent; closing the flexible separation driving motor 19, wherein embryo tissues are still positioned on the flexible separation bearing pad 18, the water storage bag 10 is filled with water, after the sliding top cover 11 is buckled into the top opening of the mixing reaction container 7 in a sliding manner, the sliding top cover 11 slowly slides downwards along the inner wall of the top opening of the mixing reaction container 7 under the action of gravity, then the small magnetic blocks 8 gradually contact the small iron blocks 9 at two sides of the opening of the mixing reaction container 7, at the moment, the small magnetic blocks 8 and the small iron blocks 9 are adsorbed, the sliding top cover 11 is static, the water storage bag 10 is driven to synchronously rest, at the moment, the water storage bag 10 passes through the transmission toothed ring 32 and the rotary ring 33, after the waterproof motor 29 is started, the driving gear 31 is driven to rotate, the transmission toothed ring 32 is driven to rotate, the rotary ring 33 below is enabled to be embedded and rotated along the annular embedded grooves 35 at two sides, and the auxiliary sliding blocks 36 distributed in an array are slid in the waist-shaped chute 34, the inclined waist-shaped chute 34 rotating clockwise along with the rotating circular ring 33 causes the auxiliary sliding blocks 36 to slide in the waist-shaped chute 34, so that the groups of pushing sliding rods 37 are driven to slide towards the middle, the water storage bag 10 is gradually punctured, the water storage bag 10 is exploded, a proper amount of citric acid and baking soda are added into the mixing reaction container 7 in advance, water in the water storage bag 10 is fully mixed with the citric acid and the baking soda, more carbon dioxide is quickly generated, the small amount of sodium citrate and water generated by the chemical reaction does not influence the implementation process, the carbon dioxide enters the gas transfer container 13 through the gas conveying straight pipe 12 to be gathered, and is flushed into the gas storage balloon 15 through the gas conveying bent pipe 14, the gas storage balloon 15 is gradually inflated, and is ruptured after contacting the puncturing body 16, the carbon dioxide in the gas storage balloon 15 has a certain pressure after being broken, and then the carbon dioxide accumulated in the gas storage balloon 15 is sprayed to embryo tissues on the flexible separation bearing pad 18, so that waste liquid such as human tissue liquid on the embryo tissues splashes out, the carbon dioxide gas pressure in the gas storage balloon 15 when broken is moderate, the damage of the embryo tissues is avoided, the high-efficiency automatic cleaning of the embryo tissues can be carried out on the premise of keeping the integrity of the embryo tissues, workers can be helped to observe the specific external structure of the taken embryo tissues, the research is convenient, in the process of the fluctuation movement of the flexible separation bearing pad 18, a plurality of groups of blocking slide bars 27 above two sides of the flexible separation bearing pad 18 are driven to move in a wave mode, the groups of blocking slide bars 27 slide along the slide bar guide grooves 28, the bottoms of the blocking slide bars 27 are continuously attached to the flexible separation bearing pad 18, the embryo tissues cannot fall off from the flexible separation bearing pad 18 due to the movement, the fact that the implementation process is ensured to be carried out smoothly, and after the use is finished, the sliding top cover 11 is lifted upwards with force, the small magnetic blocks 8 can be taken off from the small blocks 9, and the inside of the device can be conveniently cleaned.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (10)

1. A flexible separation self-inflating pressurized drainage storage treatment device for induced abortion, which is characterized in that: including wave formula flexible separation processing mechanism (1), from inflatable micropressure liquid dispersion subassembly (2), electric abortion aspirator (3), separation processing container (4) and remove base (5), separation processing container (4) are located on removing base (5), on separation processing container (4) was located in wave formula flexible separation processing mechanism (1), in separation processing container (4) were located in self inflatable micropressure liquid dispersion subassembly (2), electric abortion aspirator (3) are located on removing base (5).

2. The flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion according to claim 1, wherein: the self-inflating micro-pressurizing liquid dispersing component (2) comprises a gas generating driving mechanism (6), a mixing reaction container (7), a small magnetic block (8), a small iron block (9), a water storage bag (10), a sliding top cover (11), a gas conveying straight pipe (12), a gas transfer container (13), a gas conveying bent pipe (14), a gas storage balloon (15) and a puncture body (16), wherein the mixing reaction container (7) is fixedly connected to the inner wall of a separation processing container (4), the gas generating driving mechanism (6) is arranged in the mixing reaction container (7), the sliding top cover (11) is embedded and slidingly arranged at the top opening of the mixing reaction container (7), the small iron block (9) is embedded and fixedly connected to the side wall of the top opening of the mixing reaction container (7), the small magnetic block (8) is embedded and fixedly connected to the outer wall of the sliding top cover (11), the gas storage bag (10) is fixedly connected to the inner wall of the sliding top cover (11), the gas conveying straight pipe (12) is communicated and arranged on the mixing reaction container (7), the gas transfer container (13) is communicated with the gas conveying bent pipe (14), the gas storage balloon (14) is communicated with the top end part of the gas conveying straight pipe (14), the puncture body (16) is fixedly connected to the inner wall of the separation treatment container (4).

3. The flexible separation self-inflating pressurized drainage storage processing apparatus for artificial abortion according to claim 2, wherein: the wave type flexible separation treatment mechanism (1) comprises a flexible separation driving assembly (17) and a flexible separation bearing pad (18), the flexible separation driving assembly (17) is arranged on two sides of a separation treatment container (4) in two groups, the flexible separation bearing pad (18) is arranged between the flexible separation driving assembly (17), the flexible separation driving assembly (17) comprises a flexible separation driving motor (19), a motor base (20), an output long shaft (21), a staggered cam (22), a long shaft supporting seat (23), a reciprocating sliding rod (24), a sliding guide frame (25), a flexible movement through groove (26), a blocking sliding strip (27) and a sliding strip guide groove (28), the motor base (20) is fixedly connected to the outer wall of the separation treatment container (4), the body of the flexible separation driving motor (19) is arranged on the motor base (20), the long shaft supporting seat (23) is fixedly connected to the outer wall of the separation treatment container (4), the output long shaft (21) is rotatably arranged on the long shaft supporting seat (23) in a penetrating mode, the long shaft (21) is connected to the output end of the flexible separation driving motor (19), the long shaft (19) is fixedly arranged on the outer wall of the staggered cam (22) on the outer wall of the separation treatment container (4), the reciprocating sliding rod (24) is arranged on the sliding guide frame (25) in a penetrating and sliding mode, the bottoms of the reciprocating sliding rods (24) are in fit contact with and arranged on the staggered cam (22), the flexible movement through grooves (26) are arranged on the side walls of the separation treatment container (4) in two groups, the sliding strip guide grooves (28) are arranged on the side walls of the separation treatment container (4), and the blocking sliding strip (27) is arranged on the sliding strip guide grooves (28) in a fitting and sliding mode.

4. A flexible separation self-inflating pressurized drainage storage processing apparatus for artificial abortion according to claim 3, wherein: the gas generation driving mechanism (6) comprises a waterproof motor (29), a motor mounting groove (30), a driving gear (31), a transmission toothed ring (32), a rotary annular ring (33), a waist-shaped chute (34), an annular jogging groove (35), an auxiliary sliding block (36), a pushing sliding rod (37), a sliding rod moving groove (38) and a protruding tip (39), wherein the motor mounting groove (30) is arranged on the inner wall of the mixing reaction container (7), a body of the waterproof motor (29) is arranged in the motor mounting groove (30), the driving gear (31) is arranged on the output end of the waterproof motor (29), the annular jogging groove (35) is circumferentially arranged on the inner wall of the mixing reaction container (7), the rotary annular ring (33) is jogged and rotatably arranged on the annular jogging groove (35), the transmission toothed ring (32) is fixedly connected to the top of the rotary annular ring (33), the waist-shaped chute (34) penetrates through the array and is arranged on the rotary annular ring (33), the moving groove (38) is circumferentially arranged on the inner wall of the mixing reaction container (7), the pushing sliding rod (37) is arranged on the protruding tip (37) in a sliding way, the sliding rod (37) is arranged on one end of the sliding rod (37), the other end of the auxiliary sliding block (36) is arranged on the pushing sliding rod (37).

5. The flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion according to claim 4, wherein: and the flexible separation bearing pad (18) is provided with a separation small hole (40) in a penetrating way.

6. The flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion according to claim 5, wherein: the water storage bag (10) passes through the transmission toothed ring (32) and the rotary ring (33) when moving.

7. The flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion according to claim 6, wherein: the small magnetic blocks (8) are connected with the small iron blocks (9) through magnetic adsorption.

8. The flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion according to claim 7, wherein: the bottom laminating rigid coupling of flexible separation loading pad (18) is on reciprocating slide bar (24), the top laminating contact of flexible separation loading pad (18) is on blockking slider (27), flexible separation loading pad (18) run through on separation processing container (4) through flexible motion logical groove (26), in order to promote the bending resistance and the compliance of flexible separation loading pad (18), flexible separation loading pad (18) are made by the rubber material.

9. The flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion according to claim 8, wherein: the puncture body (16) is L-shaped.

10. The flexible separation self-inflating pressurized drainage, storage and treatment device for artificial abortion according to claim 9, wherein: the driving gear (31) is in meshed connection with the transmission toothed ring (32).