CN111150628A

CN111150628A - Vibration type pregnancy aid

Info

Publication number: CN111150628A
Application number: CN202010008878.5A
Authority: CN
Inventors: 朱振荣; 姜辉; 朱佳; 孙朴; 王国耀
Original assignee: Ronghui Medical Technology Suzhou Co Ltd
Current assignee: Ronghui Medical Technology Suzhou Co Ltd
Priority date: 2020-01-06
Filing date: 2020-01-06
Publication date: 2020-05-15

Abstract

A vibrating type pregnancy assisting device, which belongs to the technical field of insemination instruments. Comprises a shell consisting of a front shell flap and a rear shell flap; the inner core is arranged in the inner core cavity, and the right end of the inner core extends out of the inner core cavity to form an inner core handle; the semen sac pressing mechanism is arranged in the semen collecting container connecting seat, the semen collecting container connecting seat is positioned at the left end of the inner core cavity and matched with the left end of the inner core, the right end of the semen collecting container is positioned in the semen collecting container connecting seat, the semen sac pressing mechanism is contacted with the end face of the right end of the semen collecting container, and the left end of the traction rope is connected with the semen sac pressing mechanism; haulage rope control mechanism, with the right side cooperation of inner core handle, the right-hand member of haulage rope is being hung on haulage rope control mechanism, characteristics: the vibration mechanism is arranged between the right ends of the front shell flap and the rear shell flap, and a switch actuating flange is arranged on the outer wall of the right end of the inner core; the middle region of the front shell valve has a front shell valve flange on one side facing away from the rear shell valve, and the middle region of the rear shell valve has a rear shell valve flange on one side facing away from the front shell valve. The whole structure is concise; improve the pregnancy probability.

Description

Vibration type pregnancy aid

Technical Field

The invention belongs to the technical field of insemination instruments, and particularly relates to a vibrating type pregnancy assisting device.

Background

Artificial assisted pregnancy can increase the chance of pregnancy in women who are difficult to naturally pregnancy, and is usually assisted by an assisted pregnancy tool, typically a syringe or catheter, for example. Because the semen is injected into the vagina, the periphery of the cervix and the cervix by the injector or the catheter, the operation is often required by a professional doctor, so the operation is troublesome, and because the vagina opening and the cervix opening have a certain distance, the semen is difficult to be delivered to the cervix opening, which is not beneficial to improving the conception probability.

An artificial pregnancy-aid device capable of operating autonomously is beneficial to protecting female privacy on one hand and is helpful to improve pregnancy probability on the other hand, and a typical example of the artificial pregnancy-aid device is "an artificial insemination stick" recommended by CN206252535U, which can embody a plurality of technical effects summarized in paragraphs 0018 to 0025 of the specification to a certain extent, but has the following disadvantages: the ejection trigger mechanism is provided for controlling a traction rope (called a "hanging rope") having one end connected to the ejection head and the other end hung on the inner core, but the arrangement of the ejection trigger mechanism significantly complicates the overall structure, and a button acting on the ejection trigger mechanism needs to be provided on the housing, which causes malfunction when the button is touched carelessly.

The defects of the CN206252535U are remedied by the 'pregnancy aid device' provided by CN109646098A and the 'semen delivery pregnancy aid device' introduced by CN109646099A, and both the patents abandon an ejection trigger mechanism so as to remarkably simplify the structure and meet the requirement of convenient operation during autonomous pregnancy aid. However, the above two patents still have the effect of enhancing sexual well-being or even orgasm of women with low natural pregnancy probability, because there are no people who are affected by psychological, physiological and traditional conception factors and have no good or bad sexual feeling in the female group with relatively low natural pregnancy probability, because the female ovulation is about fourteen days before the next menstruation, that is, the female ovulation once in one month, and because the female group with relatively low natural pregnancy probability, if accompanied by frigidity, will have the psychological resistance or rejection to the use of the pregnancy-aid device. Based on the foregoing factors, it would be beneficial if the pregnancy-aid device could be made to provide a sexual wellness or orgasm to a woman, which could induce the advanced ovulation period in the ovulatory period of the woman, in which context the following technical solutions are given.

Disclosure of Invention

The invention aims to provide a vibrating pregnancy aid which is beneficial to autonomous operation of a female with low pregnancy probability and improvement of the sexual interest of the female with low pregnancy probability so as to improve the pregnancy probability.

The object of the invention is achieved by a vibrating pregnancy-aid device, comprising a shell body, which is composed of a front shell flap and a back shell flap which are matched with each other in a face-to-face manner, wherein the space between the front shell flap and the back shell flap is formed into an inner core cavity; the inner core is arranged in the inner core cavity in a left-right moving mode, and the right end of the inner core extends out of the inner core cavity to form an inner core handle; the semen bag pressing mechanism is movably arranged in the semen collection container connecting seat, the semen collection container connecting seat is positioned at the left end of the inner core cavity, the right end of the semen collection container connecting seat is movably matched with the left end of the inner core, the right end of the semen collection container is positioned in the semen collection container connecting seat, the semen bag pressing mechanism is in end surface contact with the right end of the semen collection container, and the left end of the traction rope is connected with the semen bag pressing mechanism; the traction rope control mechanism is in sliding fit with the right side of the inner core handle, the right end of the traction rope sequentially penetrates through the sperm collection container connecting seat, the inner core and the inner core handle and then is hung on the traction rope control mechanism, the traction rope control mechanism is characterized by further comprising a vibration mechanism, the vibration mechanism is arranged between the right ends of the front shell flap and the rear shell flap, and a switch actuating flange for controlling the vibration mechanism to work is formed on the outer wall of the right end of the inner core and at a position corresponding to the vibration mechanism; a front shell flange projecting from the surface of the front shell is formed in a spaced state on a side of the middle region of the front shell facing away from the rear shell, and a rear shell flange projecting from the surface of the rear shell is formed in a spaced state on a side of the middle region of the rear shell facing away from the front shell.

In a specific embodiment of the present invention, a front shell chamber is partitioned at a side of the right end of the front shell towards the rear shell, a rear shell chamber is partitioned at a side of the right end of the rear shell towards the front shell, the front shell chamber and the rear shell chamber together form a vibration mechanism accommodating shielding cavity, the vibration mechanism is arranged in the vibration mechanism accommodating shielding cavity, and the switch actuating flange formed on the outer wall of the right end of the inner core corresponds to the vibration mechanism accommodating shielding cavity.

In another specific embodiment of the invention, the vibration mechanism is shielded by the front shell-lobe chamber when disposed in the rear shell-lobe chamber and by the rear shell-lobe chamber when disposed in the front shell-lobe chamber.

In yet another specific embodiment of the present invention, said vibration mechanism comprises a vibration motor, a switch and a battery, which are connected in series with each other and arranged in said back shell compartment or said front shell compartment, the vibration motor being operated when said switch flange acts on the switch.

In a further specific embodiment of the present invention, front-shell-segment caulking portions are formed at intervals at the lengthwise edge portions of the side of the front shell segment facing the rear shell segment, rear-shell-segment caulking grooves are formed at intervals at the lengthwise edge portions of the side of the rear shell segment facing the front shell segment and at positions corresponding to the front-shell-segment caulking portions, and the front-shell-segment caulking portions are fitted in the rear-shell-segment caulking grooves.

In another specific embodiment of the present invention, a T-shaped position-limiting piece insertion groove is formed on one side of the rear shell towards the front shell and at a position corresponding to the upper right of the cavity of the rear shell, a T-shaped position-limiting piece is inserted and inserted at a position corresponding to the T-shaped position-limiting piece insertion groove, a position-limiting piece left insertion groove and a position-limiting piece right insertion groove are formed on the inner core and at a position corresponding to the T-shaped position-limiting piece insertion groove, when the inner core moves to the left to a degree that the position-limiting piece right insertion groove is matched with the T-shaped position-limiting piece, the inner core does not move to the left, and when the inner core moves to the right to a degree that the position-limiting piece left insertion groove is matched with the T-shaped position-limiting piece, the inner core does.

In a more specific embodiment of the present invention, an inner core pulling rope opening groove extending from the left end to the right end of the inner core and communicating with the outside is formed at one side of the inner core in the length direction, and a connecting seat plug is narrowly contracted at the left end of the inner core, a connecting seat plug cavity is formed at the center position of the right end face of the connecting seat of the concentration container, and the left end of the connecting seat plug is movably matched with the connecting seat plug cavity; the central point of inner core handle puts and corresponding to the position of inner core haulage rope opening groove is seted up one and is link up to the inner core handle haulage rope guide hole on right side from the left side of inner core handle, the right-hand member of haulage rope is passing behind this inner core handle haulage rope guide hole and is hanging haulage rope control mechanism's left side, inner core handle haulage rope guide hole through set up on the inner core handle and the haulage rope that the position and inner core haulage rope opening groove correspond lets the groove and communicates with each other with the external world.

In a further specific embodiment of the present invention, a pair of guide blocks and a pair of locking blocks are formed on the right side of the core handle, the pair of guide blocks correspond to each other in the front-back direction, the pair of locking blocks correspond to each other in the front-back direction, and the pair of guide blocks and the pair of locking blocks are spaced from each other by 180 ° around the circumferential direction of the core handle; the traction rope control mechanism comprises a traction rope hook plate and a traction rope hook, a pair of hook plate guide grooves are arranged on the left side of the traction rope hook plate and at the positions corresponding to the pair of guide blocks, the pair of hook plate guide grooves are in sliding fit with the pair of guide blocks, a pair of clamping block grooves are arranged on the left side of the traction rope hook plate and at the positions corresponding to the pair of clamping blocks, the pair of clamping block grooves are matched with the pair of clamping blocks, the traction rope hook is directly or indirectly formed on the left side of the traction rope hook plate and corresponds to the traction rope guide hole of the inner core handle, wherein a locking hook clamping groove is formed at the edge part of the inner core handle and at the position corresponding to the lower part of the pair of clamping blocks, a locking hook is formed on the traction rope hook plate and at a position corresponding to the locking hook clamping groove, and the locking hook is matched with the locking hook clamping groove; a traction rope ring is formed at the right end of the traction rope and is hung on the traction rope hook; and a traction rope hook plate pushing direction mark is formed on the right side surface of the traction rope hook plate.

In a still more specific embodiment of the present invention, a front clip and a rear clip extend from the left end of the semen collection container connecting seat, a pair of front clip locking cavities are formed at the left end of the front clip, a pair of rear clip locking flanges are formed at the left end of the rear clip and at positions corresponding to the pair of front clip locking cavities, the pair of rear clip locking flanges are matched with the pair of front clip locking cavities, the space between the front clip and the rear clip is a semen collection container semen sac cavity, the semen sac pressing mechanism is located in the semen collection container semen sac cavity, the right end of the semen collection container is located in the semen collection container semen sac cavity and corresponds to the left side of the semen sac pressing mechanism, and the left end of the pulling rope is connected with the semen sac pressing mechanism in the semen collection container semen sac cavity; a front shell valve bell mouth cap base extends from the left end of the front shell valve, a rear shell valve bell mouth cap base extends from the left end of the rear shell valve, and the front shell valve bell mouth cap base and the rear shell valve bell mouth cap base are in inserted fit with the left end of the semen collection container; the semen collecting container consists of an insemination rubber sleeve and a semen bag, a rubber sleeve reinforcing ring is formed at the left end of the insemination rubber sleeve and around the insemination rubber sleeve, a bell-mouth cap seat inserting and embedding groove is formed at the right side of the rubber sleeve reinforcing ring and around the circumferential direction of the rubber sleeve reinforcing ring, the semen bag is positioned at the right end of the insemination rubber sleeve and is connected with the right end of the insemination rubber sleeve through a rubber sleeve neck, the semen bag is positioned in the semen bag cavity of the semen collecting container, the left end of the front clamping piece and the left end of the rear clamping piece are matched with the rubber sleeve neck, a semen discharging hole is formed in the center of the rubber sleeve neck, and the semen discharging hole is communicated with the insemination rubber sleeve cavity of the insemination rubber sleeve and is also communicated with the semen bag cavity of the semen bag; the semen sac pressing mechanism is contacted with the right end face of the semen sac; the hauling rope is a natural fiber rope or a chemical fiber rope; the left ends of the front shell valve bell mouth cap seat and the rear shell valve bell mouth cap seat are in inserted fit with the inserting groove of the bell mouth cap seat; the semen sac pressing mechanism comprises a semen sac pressing head and a spring, the semen sac pressing head and the spring are arranged in the semen sac cavity of the semen collection container, the spring is positioned at the right end of the semen sac pressing head, the left end of the spring is supported at the right end of the semen sac pressing head, the right end of the spring is supported on the bottom wall of the semen sac cavity, and the left end of the semen sac pressing head is in contact with the end face of the right end of the semen sac; the left end of the traction rope penetrates through the spring and then is fixedly connected with the right end of the semen sac pressing head; wherein the seminal fluid sac pressing head is in the shape of a bullet.

In yet another specific embodiment of the present invention, a front-flap inner-core limiting flange cavity is provided at a position on one side of the front flap facing the rear flap and on the left side of the front-flap cavity, a rear-flap inner-core limiting flange cavity is provided at a position on one side of the rear flap facing the front flap and corresponding to the front-flap inner-core limiting flange cavity, and an inner-core left-right displacement limiting flange is formed on the inner core and around the circumferential direction of the inner core, the inner-core left-right displacement limiting flange corresponding to a position between the front-flap inner-core limiting flange cavity and the rear-flap inner-core limiting flange cavity; the lengths of the front shell valve inner core limiting flange cavity and the rear shell valve inner core limiting flange cavity are the same and are 1-1.5cm, and the distance between the left and right movement of the inner core is 1-1.5 cm.

The technical scheme provided by the invention has the technical effects that: the whole structure is simple and can meet the autonomous operation requirement of the female with low pregnancy probability, so that the privacy is protected without depending on medical staff; because the vibrating mechanism is additionally arranged, the front shell flap flange is additionally arranged on the front shell flap, and the rear shell flap flange is additionally arranged on the rear shell flap, when the switch actuating flange on the inner core acts on the vibrating mechanism, the circuit of the vibrating mechanism is switched on to make the front shell flap and the rear shell flap vibrate together, which is beneficial to improving the sexual interest of women with low pregnancy probability and frigidity, thereby improving the pregnancy probability.

Drawings

Fig. 1 is an assembly structure view of the present invention.

Fig. 2 is a detailed structural view of the pull-cord control mechanism shown in fig. 1 in cooperation with a core handle.

Fig. 3 is a cross-sectional view of fig. 1 assembled.

Fig. 4 is a schematic external view of the present invention.

Detailed Description

In order to clearly understand the technical spirit and the advantages of the present invention, the applicant below describes in detail by way of example, but the description of the example is not intended to limit the technical scope of the present invention, and any equivalent changes made according to the present inventive concept, which are merely in form and not in material, should be considered as the technical scope of the present invention.

In the following description, all the concepts related to the directions or orientations of up, down, left, right, front and rear are based on the position state shown in fig. 1, and thus, it should not be understood as a particular limitation to the technical solution provided by the present invention.

Referring to fig. 1 and 3, there is shown a housing 1 made of medical grade plastic, the housing 1 being composed of a front shell 11 and a rear shell 12 which fit over each other in a face-to-face relationship, the space between the front and

rear shells

11, 12 being defined as an inner core cavity 13; an inner core 2 is shown, the inner core 2 is arranged in the inner core cavity 13 in a left-right movement mode, the right end of the inner core 2 extends out of the inner core cavity 13 and is formed with an inner core handle 21; a semen sac pressing mechanism 3, a semen collecting container 4, a semen collecting container connecting seat 5 and a traction rope 6 are shown, the semen sac pressing mechanism 3 is movably arranged in the semen collecting container connecting seat 5, the semen collecting container connecting seat 5 is positioned at the left end of the inner core cavity 13, the right end of the semen collecting container connecting seat 5 is movably matched with the left end of the inner core 2, the right end of the semen collecting container 4 is positioned in the semen collecting container connecting seat 5, the semen sac pressing mechanism 3 is contacted with the right end face of the semen collecting container 4, and the left end of the traction rope 6 is connected with the semen sac pressing mechanism 3; a traction rope control mechanism 7 is shown, the traction rope control mechanism 7 is in sliding fit with the right side of the inner core handle 21, and the right end of the traction rope 6 is hung on the traction rope control mechanism 7 after sequentially passing through the sperm collecting container connecting seat 5, the inner core 2 and the inner core handle 23.

The technical key point of the technical scheme provided by the invention is that the structural system of the vibration pregnancy-assisting device also comprises a vibration mechanism 8, the vibration mechanism 8 is arranged between the right ends of the front shell flap 11 and the rear shell flap 12, and a switch actuating flange 22 for controlling the vibration mechanism 8 to work is formed on the outer wall of the right end of the inner core 2 and at a position corresponding to the vibration mechanism 8; a front-shell-lobe flange 111 projecting from the surface of the front shell lobe 11 is formed in a spaced state on the side of the central region of the front shell lobe 11 facing away from the rear shell lobe 12, and a rear-shell-lobe flange 121 projecting from the surface of the rear shell lobe 12 is formed in a spaced state on the side of the central region of the rear shell lobe 12 facing away from the front shell lobe 11.

In the present embodiment, the region of the front lobe flange 111 is preferably 1.2 to 1.8cm, more preferably 1.5cm, from the left end of the front lobe 11, and the region of the rear lobe flange 121 is preferably 1.2 to 1.8cm, more preferably 1.5cm, from the left end face of the rear lobe 12.

Continuing to refer to fig. 1 and 3, a front-lobe chamber 112 is partitioned by a pair of front-lobe chamber-constructing pieces 1121 at the right end of the front lobe 11 toward the side of the rear lobe 12 toward the front lobe 11

A rear shell chamber 122 is partitioned by a pair of rear shell chamber constructing pieces 1221, the front shell chamber 112 and the rear shell chamber 122 together form a vibration mechanism accommodating shielding chamber, the vibration mechanism 8 is disposed in the vibration mechanism accommodating shielding chamber, and the switch actuating flange 22 formed on the outer wall of the right end of the inner core 2 corresponds to the vibration mechanism accommodating shielding chamber.

When the aforementioned vibration mechanism 8 is disposed in the aforementioned rear-lobe chamber 122, it is shielded by the aforementioned front-lobe chamber 112 in cooperation with the rear-lobe chamber 122, and when the vibration mechanism 8 is disposed in the front-lobe chamber 112, it is shielded by the rear-lobe chamber 122 in cooperation with the front-lobe chamber 112.

In the present embodiment, the aforementioned vibration mechanism 8 is provided in the aforementioned rear shell-and-valve chamber 122, the vibration mechanism 8 includes a vibration motor 81, a switch 82, and a battery 83, the vibration motor 81, the switch 82, and the battery 83 are connected in series with each other and provided in the aforementioned rear shell-and-valve chamber 122 or the aforementioned front shell-and-valve chamber 112, and when the aforementioned switch flange 22 acts on the switch 82, the vibration motor 81 operates.

As shown in fig. 1 and 3, the vibration motor 81 has a vibration plate 811, and the vibration motor 81 is fitted in a vibration motor face 1222 formed in, i.e., enclosed in, the rear housing piece chamber 122, the switch 82 is fixed to a switch base 1223 formed in the rear housing piece chamber 122, and the switch 82 has a switch reed 821 and a switch contact 822, and when the switch reed 821 is brought into contact with the switch contact 822 of the switch 82, the circuit is conducted (turned on), and vice versa. The battery 83 is inserted into a battery insertion cavity 1224 formed in the rear housing flap cavity 122 and is electrically connected to the vibration motor 81 through a lead relief groove 12221 formed in the cavity wall of the vibration motor cavity 1222, the contact between the switch reed 821 and the switch contact 822 depends on the switch actuating flange 22, and specifically, when the core handle 21 moves the core 2 to such an extent that the switch actuating flange 22 presses the free end of the switch reed 821, the power circuit of the switch 82 is turned on, the vibration motor 81 operates to vibrate the vibration plate 811, the front and

rear housing flaps

11 and 12 vibrate, and the vagina is stimulated by the front and rear

housing flap flanges

111 and 121.

As shown in fig. 1 and 3, a cavity for the left and right movement of the inner core is formed by the cooperation of the front-shell-valve inner-core sliding guide cavity 11211 formed on the pair of front-shell-valve-cavity constructing pieces 1121 and the rear-shell-valve inner-core sliding guide cavity 12211 formed on the pair of rear-shell-valve-cavity constructing pieces 1221. Preferably, in order to prevent the inner core 2 from rotating, a core rotation preventing chamfer 27 is formed at the right end of the inner core 2 and in the area corresponding to the front shell core slide guide cavity 11211.

Preferably, a positioning pin hole post 116 may be formed at the right end of the front shell segment 11 and at a position on the right side of the aforementioned front shell segment chamber 112 toward the side of the rear shell segment 12, and a positioning pin 127 for insertion-fitting with the positioning pin hole post 116 may be formed at the side of the rear shell segment 12 toward the front shell segment 11 and at a position corresponding to the positioning pin hole post 116.

Front shell segment pins 113 are formed at intervals at the longitudinal edge of the front shell segment 11 on the side facing the rear shell segment 12, rear shell segment pin grooves 123 are formed at intervals at the longitudinal edge of the rear shell segment 12 on the side facing the front shell segment 11 and at positions corresponding to the front shell segment pins 113, and the front shell segment pins 113 are fitted to the rear shell segment pin grooves 123.

Continuing to refer to fig. 1 and 3, a T-shaped stop tab slot 124 is formed on the side of the rear shell 12 facing the front shell 11 and at a position corresponding to the upper right of the rear shell cavity 122, a T-shaped stop tab 1241 is inserted and inserted at a position corresponding to the T-shaped stop tab slot 124, a left stop tab slot 23a and a right stop tab slot 23b are formed on the inner core 2 and at a position corresponding to the T-shaped stop tab slot 124, when the inner core 2 moves leftward to a degree that the right stop tab slot 23b is engaged with the T-shaped stop tab 1241, the inner core 2 does not move leftward, and when the inner core moves rightward to a degree that the left stop tab slot 23a is engaged with the T-shaped stop tab 1241, the inner core 2 does not move rightward.

An inner core traction rope open slot 24 which extends from the left end to the right end of the inner core 2 and is communicated with the outside is arranged on one side of the length direction of the inner core 2, a connecting seat plug connector 25 is narrowly contracted at the left end of the inner core 2, a connecting seat plug connector cavity 51 is formed in the center position of the end face of the right end of the connecting seat 5 of the fine collection container, and the left end of the connecting seat plug connector 25 is movably matched with the connecting seat plug connector cavity 51; a core handle pulling rope guide hole 211 penetrating from the left side to the right side of the core handle 21 is formed at the center of the core handle 21 and at a position corresponding to the core pulling rope open slot 24, the right end of the pulling rope 6 is hung at the left side of the pulling rope control mechanism 7 after passing through the core handle pulling rope guide hole 211, and the core handle pulling rope guide hole 211 is communicated with the outside through a pulling rope relief slot 215 formed in the core handle 21 and at a position corresponding to the core pulling rope open slot 24.

Referring to fig. 2 in conjunction with fig. 1 and 3, a pair of guide blocks 212 and a pair of latch blocks 213 are formed on the right side of the core handle 21, the pair of guide blocks 212 correspond to each other in the front-back direction, the pair of latch blocks 213 correspond to each other in the front-back direction, and the pair of guide blocks 212 and the pair of latch blocks 213 are spaced from each other by 180 ° around the circumferential direction of the core handle; the traction rope control mechanism 7 includes a traction rope hooking plate 71 and a traction rope hook 72, a pair of hooking plate guide grooves 711 are formed at a left side of the traction rope hooking plate 7 and at positions corresponding to the pair of guide blocks 212, the pair of hooking plate guide grooves 711 are slidably engaged with the pair of guide blocks 212, a pair of block grooves 712 are formed at a left side of the traction rope hooking plate 7 and at positions corresponding to the pair of block blocks 213, the pair of block grooves 712 are engaged with the pair of block blocks 213, the traction rope hook 72 is directly or indirectly formed at a left side of the traction rope hooking plate 71 and corresponds to the core handle traction rope guide hole 211, wherein a locking hook groove 214 is formed at an edge portion of the core handle 21 and at a position corresponding to a lower portion of the pair of block blocks 213, and a locking hook 713 is formed at the traction rope hooking plate 71 and at a position corresponding to the locking hook groove 214, the locking hook 713 mates with the locking hook slot 214; a pull rope loop 61 is formed at the right end of the pull rope 6, and the pull rope loop 61 is hung on the pull rope hook 72.

A traction rope hook plate pushing direction mark 714 is formed on the right side surface of the aforementioned traction rope hook plate 71.

Continuing to refer to fig. 1 and 3, a front clip 52 and a rear clip 53 extend from the left end of the semen collection container connecting seat 5, a pair of front clip locking cavities 521 are formed at the left end of the front clip 52, a pair of rear clip locking flanges 531 are formed at the left end of the rear clip 53 and at positions corresponding to the pair of front clip locking cavities 521, the pair of rear clip locking flanges 531 are matched with the pair of front clip locking cavities 521, the space between the front clip 52 and the rear clip 53 is formed into a semen collection container cavity 54, the semen collection container pressing mechanism 3 is located in the semen collection container cavity 54, the right end of the semen collection container 4 is located in the semen collection container cavity 54 and corresponds to the left side of the semen collection container pressing mechanism 3, and the left end of the traction rope 6 is connected with the semen collection container pressing mechanism 3 in the semen collection container cavity 54; a front shell flap bell mouth cap seat 114 extends from the left end of the front shell flap 11, a rear shell flap bell mouth cap seat 125 extends from the left end of the rear shell flap 12, and the front shell flap bell mouth cap seat 114 and the rear shell flap bell mouth cap seat 125 are inserted into and fitted with the left end of the semen collection container 4.

The semen collecting container 4 comprises an insemination rubber sleeve 41 and a semen sac 42, a rubber sleeve reinforcing ring 411 is formed at the left end of the insemination rubber sleeve 41 and around the insemination rubber sleeve 41, a horn mouth cap seat inserting and embedding groove 4111 is formed at the right side of the rubber sleeve reinforcing ring 411 and around the circumferential direction of the rubber sleeve reinforcing ring 411, the semen sac 42 is positioned at the right end of the insemination rubber sleeve 41, the left end of the semen sac 42 is connected with the right end of the insemination rubber sleeve 41 through a rubber sleeve neck 43, wherein the semen sac 42 is positioned in a semen sac cavity 54 of the semen collecting container, the left end of the front clamping piece 52 and the left end of the rear clamping piece 53 are matched with the rubber sleeve neck 43, a semen discharging hole 431 is formed in the center of the rubber sleeve neck 43, and the semen discharging hole 431 is communicated with the insemination rubber sleeve cavity 412 of the insemination rubber sleeve 41 and is also communicated with a semen sac cavity 421 of the semen sac 42; the seminal fluid vesicle pressing mechanism 3 is in contact with the right end face of the seminal fluid vesicle 42; the hauling rope 6 is a natural fiber rope or a chemical fiber rope; the left ends of the front shell flap bell cup 114 and the rear shell flap bell cup 125 are fitted into the bell cup insertion groove 4111.

The semen sac pressing mechanism 3 comprises a semen sac pressing head 31 and a spring 32, the semen sac pressing head 31 and the spring 32 are arranged in the semen sac cavity 54 of the semen collection container, the spring 32 is positioned at the right end of the semen sac pressing head 31, the left end of the spring 32 is supported at the right end of the semen sac pressing head 31, the right end of the spring 32 is supported on the cavity bottom wall of the semen sac cavity 54, and the left end of the semen sac pressing head 31 is in end surface contact with the right end of the semen sac 42; the left end of the pulling rope 6 passes through the spring 32 and then is fixedly connected with a pulling rope fixing seat 311 formed at the right end of the seminal vesicle pressing head 31; wherein the seminal fluid sac pressing head 31 is in the shape of a bullet.

Continuing with fig. 1 and 3, a front-flap core-defining flange cavity 115 is provided at a position on the side of the front flap 11 facing the rear flap 12 and on the left side of the front-flap cavity 112, a rear-flap core-defining flange cavity 126 is provided at a position on the side of the rear flap 12 facing the front flap 11 and corresponding to the front-flap core-defining flange cavity 115, and a core left-right displacement-defining flange 26 is formed on the core 2 and around the core 2 in the circumferential direction, the core left-right displacement-defining flange 26 corresponding to between the front-flap core-defining flange cavity 115 and the rear-flap core-defining flange cavity 126.

In this embodiment, the lengths of the front-flap inner core limiting flange cavity 115 and the rear-flap inner core limiting flange cavity 126 are the same and are preferably 1-1.5cm, and more preferably 1.2cm, the distance from the inner core 2 to the left and right is preferably 1-1.5cm, and more preferably 1.2cm, and the distance between the left and right engaging grooves 23a and 23b of the limiting piece is the same.

An inner core guide sliding cavity for the inner core 2 to slide is formed by a front shell inner core limiting flange cavity wall concave channel formed on a pair of cavity walls of the front shell inner core limiting flange cavity 115 and a rear shell inner core limiting flange cavity wall concave channel 1261 formed on a pair of cavity walls of the rear shell inner core limiting flange cavity 126.

Referring to fig. 4, fig. 4 shows the assembled external shape of fig. 1, and the cavity sleeve reinforcing ring 411 of the sperm collecting container 4 protrudes out of the left end face of the housing 1.

Continuing with fig. 1 and 3 and with reference to fig. 2, when collecting sperm, the aforementioned sperm collecting container 4 (also referred to as "cervical cap") is taken away from the sperm collecting container connecting seat 5 (also referred to as "cervical cap connecting seat"), specifically: the force that pushes left is exerted to the inner core handle 21 by the user, drive inner core 2 and shift left, when shifting to the degree that aforementioned spacing piece right draw-in groove 24b suffers the spacing piece 1241 of T shape and block, inner core 2 moves left and reaches the limit, expose collection smart container connecting seat 5 this moment, will collect the front clamping piece 52 of smart container connecting seat 5 and the left end of back clamping piece 53 separately by man's side or woman's side after that, make preceding, back clamping piece 52, 53 remove the cooperation with aforementioned rubber sleeve neck 43, alright take off whole collection smart container 4 under this state.

Sperm is shot into the insemination rubber sleeve cavity 412 of the sperm collection container 4 by a man such as a husband or a sperm donor by masturbation or the like, the sperm in the insemination rubber sleeve cavity 412 enters the sperm sac cavity 421 of the sperm sac 42 through the sperm discharge hole 431, and then the sperm collection container 4 containing the sperm is returned to the state shown in fig. 3, in which the sperm collection container connecting seat 5 together with the sperm collection container 4 is retracted into the left end of the inner core cavity 13 due to the aforementioned right movement of the inner core 2, only the aforementioned rubber sleeve reinforcing ring 411 is positioned outside the inner core cavity 13, and the front and rear jaws 52, 53 are positioned at the rubber sleeve neck 43, and a pair of rear jaw locking flanges 531 are engaged with a pair of front jaw locking cavities 521 to be tied to the aforementioned rubber sleeve neck 43, as shown in the illustration of fig. 3.

When the female is lying on his back or half of his back, the left end of the pregnancy-aid device of the present invention shown in fig. 3 is inserted into the vagina, that is, the end with the semen collection container 4 is inserted into the vagina, when the semen collection container 4 reaches the deep part of the vagina such as the cervix, the pull rope hook plate 71 is pushed towards the pull rope hook plate pushing direction mark 714 by fingers, so that the pull rope ring 61 at the right end of the pull rope 6 is separated from the pull rope hook 72, at this time, the push force is applied to the semen sac pressing head 31 by the restoring force of the spring 32, because the insemination rubber sleeve 41 is covered on the cervix, and because the inner core 2 moves leftwards, the left ends of the front shell flap bell mouth cap seat 114 and the rear shell flap bell mouth cap seat 125 are separated from the bell mouth cap seat insertion groove 4111, that is withdrawn from the bell mouth cap insertion groove 4111, and before the shell 1 and the inner core 2 are pulled out of the vagina, the inner core 2 is pulled rightwards to the switch actuating flange 22 on the inner core to press the switch reed 821, so that the vibration motor 81 works, the front shell flap flange 111 and the rear shell flap flange 121 jointly stimulate the vagina to improve the sexual feeling, after a reasonable time, the shell 1 and the inner core 2 are pulled out of the vagina, and the whole seminal vesicle pressing mechanism 3, the seminal vesicle collecting container 4, the seminal vesicle collecting container connecting seat 5 and the left end of the traction rope 6 are still temporarily kept in the vagina (the right end of the traction rope 6 is positioned outside the vagina). In the process, the semen in the semen sac chamber 421 enters the cervix via the semen discharging hole 431 and the insemination gel sleeve chamber 412 in sequence due to the extrusion of the semen sac pressing head 31 by the spring 32. Because the semen is directly delivered to the cervix, the sperm can be prevented from being killed when swimming in the vagina, the survival rate of the sperm is effectively improved, and the pregnancy probability is increased. After insemination, the hauling rope 6 is pulled, and the semen sac pressing mechanism 3, the semen collecting container connecting seat 5 and the semen collecting container 4 with the semen removed are taken out (pulled out) of the vagina.

In conclusion, the technical scheme provided by the invention overcomes the defects in the prior art, successfully completes the invention task and truly realizes the technical effects of the applicant in the technical effect column.

Claims

1. A vibrating pregnancy-aid device comprises a shell (1), the shell (1) is composed of a front shell flap (11) and a back shell flap (12) which are mutually matched in a face-to-face manner, and the space between the front and back shell flaps (11, 12) is formed into an inner core cavity (13); the inner core (2) is arranged in the inner core cavity (13) in a left-right moving mode, and the right end of the inner core (2) extends out of the inner core cavity (13) and is provided with an inner core handle (21); the semen bag pressing mechanism (3), the semen collecting container (4), the semen collecting container connecting seat (5) and the traction rope (6) are movably arranged in the semen collecting container connecting seat (5), the semen collecting container connecting seat (5) is positioned at the left end of the inner core cavity (13), the right end of the semen collecting container connecting seat (5) is movably matched with the left end of the inner core (2), the right end of the semen collecting container (4) is positioned in the semen collecting container connecting seat (5), the semen bag pressing mechanism (3) is in end face contact with the right end of the semen collecting container (4), and the left end of the traction rope (6) is connected with the semen bag pressing mechanism (3); the traction rope control mechanism (7) is in sliding fit with the right side of the inner core handle (21), the right end of the traction rope (6) sequentially penetrates through the fine particle collecting container connecting seat (5), the inner core (2) and the inner core handle (23) and then is hung on the traction rope control mechanism (7), the traction rope control mechanism is characterized by further comprising a vibration mechanism (8), the vibration mechanism (8) is arranged between the right ends of the front shell flap (11) and the rear shell flap (12), and a switch actuating flange (22) for controlling the vibration mechanism (8) to work is formed on the outer wall of the right end of the inner core (2) and at a position corresponding to the vibration mechanism (8); a front shell flap flange (111) projecting from the surface of the front shell flap (11) is formed in a spaced state on the side of the central region of the front shell flap (11) facing away from the rear shell flap (12), and a rear shell flap flange (121) projecting from the surface of the rear shell flap (12) is formed in a spaced state on the side of the central region of the rear shell flap (12) facing away from the front shell flap (11).

2. A vibrating pregnancy-aid device according to claim 1, characterised in that a front shell compartment (112) is provided at the right end of said front shell (11) towards the side of said rear shell (12) and a rear shell compartment (122) is provided at the right end of said rear shell (12) towards the side of said front shell (11), said front (112) and rear (122) shell compartments together forming a vibrating mechanism housing shelter, said vibrating mechanism (8) being provided in said vibrating mechanism housing shelter, said switch actuation flange (22) formed on the outer wall of the right end of said inner core (2) corresponding to said vibrating mechanism housing shelter.

3. A vibrating pregnancy-aid device according to claim 2, characterised in that when the vibrating mechanism (8) is arranged in the rear shell-lobe chamber (122), it is shielded by the front shell-lobe chamber (112), and when the vibrating mechanism (8) is arranged in the front shell-lobe chamber (112), it is shielded by the rear shell-lobe chamber (122).

4. A vibrating pregnancy-aid device according to claim 3, characterised in that said vibrating mechanism (8) comprises a vibrating motor (81), a switch (82) and a battery (83), the vibrating motor (81), the switch (82) and the battery (83) being connected in series with each other and arranged in said rear shell flap chamber (122) or said front shell flap chamber (112), the vibrating motor (81) being operated when said switch flange (22) acts on the switch (82).

5. A vibrating pregnancy-aid device according to claim 1, characterized in that front shell flap insets (113) are formed at intervals at lengthwise edge portions of a side of said front shell flap (11) facing said rear shell flap (12), rear shell flap insert grooves (123) are formed at lengthwise edge portions of a side of said rear shell flap (12) facing said front shell flap (11) and at intervals at positions corresponding to said front shell flap insets (113), and said front shell flap insets (113) are fitted in said rear shell flap insert grooves (123).

6. A vibrating pregnancy-aid device according to claim 2, characterised in that a T-shaped stopper caulking groove (124) is formed at a side of said rear shell (12) facing said front shell (11) and at a position corresponding to the upper right of said rear shell cavity (122), a T-shaped stopper (1241) is inserted at a position corresponding to said T-shaped stopper caulking groove (124), a stopper left catching groove (23a) and a stopper right catching groove (23b) are formed at a position corresponding to said T-shaped stopper caulking groove (124) on said core (2), when the core (2) is moved leftward to the extent that said stopper right catching groove (23b) is fitted with said T-shaped stopper (1241), the core (2) is not moved leftward, and when the core is moved rightward to the extent that said stopper left catching groove (23a) is fitted with said T-shaped stopper (1241), the inner core (2) is not moved rightwards any more.

7. A vibrating type pregnancy-aid device according to claim 1, characterized in that an inner core pulling rope open slot (24) extending from the left end to the right end of the inner core (2) and communicating with the outside is opened at one side of the inner core (2) in the length direction, and a connecting seat plug (25) is narrowed at the left end of the inner core (2), a connecting seat plug cavity (51) is formed at the center position of the right end face of the semen collection container connecting seat (5), and the left end of the connecting seat plug (25) is movably fitted with the connecting seat plug cavity (51); the central point of inner core handle (21) puts and corresponding to the position of inner core haulage rope open slot (24) is seted up one and is link up to inner core handle haulage rope guide hole (211) on right side from the left side of inner core handle (21), the right-hand member of haulage rope (6) is passing behind this inner core handle haulage rope guide hole (211) and is hanging the left side of haulage rope control mechanism (7), inner core handle haulage rope guide hole (211) let groove (215) communicate with each other with the external world through set up on inner core handle (21) and the haulage rope that the position corresponds with inner core haulage rope open slot (24).

8. The vibrating pregnancy-aid device according to claim 7, wherein a pair of guide blocks (212) and a pair of catching blocks (213) are formed on the right side of the core handle (21), the pair of guide blocks (212) correspond to each other in the front-rear direction, the pair of catching blocks (213) also correspond to each other in the front-rear direction, and the pair of guide blocks (212) and the pair of catching blocks (213) are spaced from each other by 180 ° around the circumferential direction of the core handle; the traction rope control mechanism (7) comprises a traction rope hook plate (71) and a traction rope hook (72), a pair of hook plate guide grooves (711) are formed in the left side of the traction rope hook plate (7) and at positions corresponding to the pair of guide blocks (212), the pair of hook plate guide grooves (711) are in sliding fit with the pair of guide blocks (212), a pair of clamping block grooves (712) are formed in the left side of the traction rope hook plate (7) and at positions corresponding to the pair of clamping blocks (213), the pair of clamping block grooves (712) are matched with the pair of clamping blocks (213), the traction rope hook (72) is directly or indirectly formed in the left side of the traction rope hook plate (71) and corresponds to the inner core handle traction rope guide hole (211), wherein a locking hook clamping groove (214) is formed in the edge part of the inner core handle (21) and at a position corresponding to the position between the pair of clamping blocks (213), and a locking hook (713) is formed on the traction rope hook plate (71) at a position corresponding to the locking hook notch (214), the locking hook (713) being engaged with the locking hook notch (214); a traction rope ring (61) is formed at the right end of the traction rope (6), and the traction rope ring (61) is hung on the traction rope hook (72); a traction rope hook plate pushing direction mark (714) is formed on the right side surface of the traction rope hook plate (71).

9. The vibrating pregnancy-aid device according to claim 1, characterized in that said semen collection container attachment seat (5) has a front clip (52) and a rear clip (53) extending from the left end thereof, a pair of front clip locking cavities (521) are formed at the left end of the front clip (52), a pair of rear clip locking flanges (531) are formed at the left end of the rear clip (53) and at positions corresponding to the pair of front clip locking cavities (521), the pair of rear clip locking flanges (531) are engaged with the pair of front clip locking cavities (521), the space between the front clip (52) and the rear clip (53) is formed as a semen collection container semen cavity (54), said semen collection container semen bag pressing means (3) is located in the semen collection container semen bag cavity (54), the right end of said semen collection container (4) is located in said semen collection container semen bag cavity (54) and corresponds to the left side of the semen bag pressing means (3), the left end of the traction rope (6) is connected with the seminal fluid sac pressing mechanism (3) in a seminal fluid sac cavity (54) of the seminal fluid collecting container; a front shell flap bell mouth cap seat (114) extends from the left end of the front shell flap (11), a rear shell flap bell mouth cap seat (125) extends from the left end of the rear shell flap (12), and the front shell flap bell mouth cap seat (114) and the rear shell flap bell mouth cap seat (125) are inserted and matched with the left end of the semen collection container (4); the semen collection container (4) consists of an insemination rubber sleeve (41) and a semen sac (42), a rubber sleeve reinforcing ring (411) is formed at the left end of the insemination rubber sleeve (41) and around the insemination rubber sleeve (41), a horn mouth cap seat inserting and embedding groove (4111) is formed at the right side of the rubber sleeve reinforcing ring (411) and around the circumferential direction of the rubber sleeve reinforcing ring (411), the semen sac (42) is positioned at the right end of the insemination rubber sleeve (41), the left end of the semen sac (42) is connected with the right end of the insemination rubber sleeve (41) through a rubber sleeve neck (43), the semen sac (42) is positioned in a semen collection container sac cavity (54), the left end of the front clamping piece (52) and the left end of the rear clamping piece (53) are matched with the rubber sleeve neck (43), a semen discharge hole (431) is formed in the central position of the rubber sleeve neck (43), the semen discharge hole (431) is communicated with the insemination rubber sleeve cavity (412) of the insemination rubber sleeve (41) and the semen sac (42) is also communicated with the semen discharge hole (431) The seminal vesicle cavities (421) are communicated; the semen sac pressing mechanism (3) is in contact with the right end face of the semen sac (42); the hauling rope (6) is a natural fiber rope or a chemical fiber rope; the left ends of the front shell flap bell mouth cap seat (114) and the rear shell flap bell mouth cap seat (125) are in inserted fit with the bell mouth cap seat insertion groove (4111); the semen sac pressing mechanism (3) comprises a semen sac pressing head (31) and a spring (32), the semen sac pressing head (31) and the spring (32) are arranged in a semen sac cavity (54) of the semen collection container, the spring (32) is positioned at the right end of the semen sac pressing head (31), the left end of the spring (32) is supported at the right end of the semen sac pressing head (31), the right end of the spring (32) is supported on the cavity bottom wall of the semen sac cavity (54), and the left end of the semen sac pressing head (31) is in end face contact with the right end of the semen sac (42); the left end of the traction rope (6) penetrates through the spring (32) and then is fixedly connected with the right end of the seminal fluid sac pressing head (31); wherein the seminal fluid sac compression head (31) is in the shape of a bullet.

10. A vibrating pregnancy-aid device according to claim 2, characterised in that a front-flap inner-core limit flange cavity (115) is provided at a position on the side of said front flap (11) facing the rear flap (12) and to the left of said front-flap cavity (112), a rear-flap inner-core limit flange cavity (126) is provided at a position on the side of the rear flap (12) facing the front flap (11) and corresponding to the front-flap inner-core limit flange cavity (115), a inner-core right-left displacement limit flange (26) is formed on said inner core (2) and around the circumferential direction of the inner core (2), the inner-core right-left displacement limit flange (26) corresponding between said front-flap inner-core limit flange cavity (115) and the rear-flap inner-core limit flange cavity (126); the lengths of the front shell valve inner core limiting flange cavity (115) and the rear shell valve inner core limiting flange cavity (126) are the same and are 1-1.5cm, and the distance of the inner core (2) moving left and right is 1-1.5 cm.