CN116087187B

CN116087187B - Semen detection device capable of preventing waste

Info

Publication number: CN116087187B
Application number: CN202310285916.5A
Authority: CN
Inventors: 武建亮; 孟庆利; 马小军; 王朝军; 徐利; 卢纪和; 李智
Original assignee: Beijing Zhongyu Pig Co ltd
Current assignee: Beijing Zhongyu Pig Co ltd
Priority date: 2023-03-22
Filing date: 2023-03-22
Publication date: 2023-06-02
Anticipated expiration: 2043-03-22
Also published as: CN116087187A

Abstract

The invention discloses a semen detection device capable of preventing waste, which comprises a detection ring frame, wherein a square round rod is inserted in the center of the detection ring frame, the bottom end of the square round rod is correspondingly inserted in the center of a detection connecting frame, and a square round hole correspondingly matched with the square round rod is arranged in the center of the detection connecting frame. According to the invention, the semen in the storage device enters the liquid discharge storage hole, the downward-moving liquid discharge rod drives the storage hole to move downwards, until the storage hole moves out of the storage device, the rotating storage device enables the liquid discharge rod to rotate synchronously, the rotating liquid discharge rod conveniently throws the semen in the storage hole into the detection frame, the PH test paper in the detection frame is used for conveniently detecting the semen, and meanwhile, the transparent detection frame is also used for detecting the liquefaction capacity of the semen; when the liquid draining rod extends out of the storage device, the quantity of storage holes extending out of the storage device is limited according to detection requirements, and the semen waste in the detection process is avoided.

Description

Semen detection device capable of preventing waste

Technical Field

The invention belongs to the technical field of semen detection, and particularly relates to a semen detection device capable of preventing waste.

Background

With the continuous development of society, people increasingly pursue prenatal and postnatal care, wherein the detection of the sperm quality of men is very important for the prenatal and postnatal care, and one of the core technical indexes for measuring the sperm quality of men is sperm morphology.

When the PH value of semen is detected, the semen is generally dripped on the PH test paper, the PH value of the semen can be obtained by comparing the PH test paper, but in the actual dripping process, medical staff can easily cause excessive dripping of the semen after long-time work, so that the semen is wasted.

Therefore, it is necessary to invent a semen detecting device that prevents waste to solve the above problems.

Disclosure of Invention

In view of the above, the present invention provides a semen detecting device capable of preventing waste, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a prevent extravagant semen detection device, includes the detection ring frame, it has square pole to detect ring frame center department grafting, square pole bottom corresponds grafting in detection link center department, and detects link center department and be provided with the square round hole that corresponds complex with square pole, it all is provided with the nut to detect link top and bottom, and the nut spiral cup joints in square pole surface, the outside end fixedly connected with of detection link detects the frame, the inboard rotation of detecting ring frame is provided with the roof, roof center department is provided with logical groove, and the equidistant array of circumference side of logical groove is provided with a plurality of detection and places the hole, detect and place the hole inside and correspondingly place the strorage device, a plurality of strorage devices and a plurality of detection frame one-to-one set up, and the bottom of the strorage device detects the opening at liquid outlet and detects the frame top and match, square pole utilizes limit structure and roof to correspond the buckle, and a plurality of strorage device annular equidistance distributes around the square pole.

Further, the detection ring frame is internally provided with a ring groove corresponding to the top plate, an annular rack is arranged in the ring groove, the circumferential side surface of the top plate is attached to the inner side surface of the annular rack, a plurality of gears are arranged in the ring of the top plate at equal intervals, the gears are rotatably arranged in the top plate and are meshed and matched with the annular rack, a plurality of gears are arranged in one-to-one correspondence with a plurality of detection placement holes, a plurality of teeth matched with the gears are arranged on the circumferential side surface of the storage device, and the storage device is enabled to rotate in the detection placement holes by the teeth during rotation of the gears.

Further, the limit structure includes a plurality of cardboards, the logical groove top side of roof is provided with a plurality of draw-in grooves, and the square round bar utilizes a plurality of cardboards to correspond the buckle with a plurality of draw-in grooves, the limit structure still includes a plurality of limit framves, and a plurality of limit framves and a plurality of detection place the hole one-to-one cooperation, and limit frame outside end and a plurality of tooth outside ends of strorage device correspond the laminating, limit frame and detection place the hole and correspond the strorage device of prescribing a limit.

Further, the tooth tops of the storage device are provided with semi-annular plates, the outer diameter of the semi-annular plates is larger than the diameter of the detection placement hole, the tooth bottoms of the storage device are fixedly provided with annular plates, the outer diameter of the annular plates is identical to that of the semi-annular plates, and the semi-annular plates and the annular plates are respectively attached to the top surface and the bottom surface of the top plate.

Further, the toothed ring is spirally sleeved on the surface of the storage device, the top surface of the toothed ring is connected with the bottom surface of the annular plate by using the torsion spring, the torsion spring is sleeved on the surface of the storage device, the lifting ring is arranged inside the detection ring frame, annular teeth which are arranged in parallel are arranged on the inner side surface of the circumference of the lifting ring, and the inner side surface of the lifting ring is meshed and matched with the toothed ring by using the annular teeth.

Further, the swivel is cup jointed to detection ring frame circumference lateral surface spiral, lifting ring circumference lateral surface annular equidistance is provided with a plurality of protruding poles, detection ring frame circumference lateral surface is provided with a plurality of perpendicular grooves, a plurality of perpendicular grooves and a plurality of protruding pole one-to-one cooperation, and protruding pole outside end runs through perpendicular groove, swivel circumference medial surface center department is provided with and protruding pole outside end corresponding complex inside groove, and the swivel utilizes protruding pole to drive lifting ring in the inboard reciprocating of detection ring frame with the spiral cooperation of detection ring frame.

Further, the container circumference side is provided with a plurality of grooves, the inside ring frame that is provided with of container, ring frame circumference lateral surface and the laminating of container inside wall, ring frame top surface is provided with the inclined plane, and inclined plane outside limit place horizontal plane is higher than inclined plane inside limit place horizontal plane, the annular equidistance in inclined plane top of ring frame is provided with a plurality of connecting strips, the length of connecting strip is the same with the groove length, connecting strip top outside end is connected with the ring strip, and tooth ring circumference medial surface is provided with and corresponds complex recess with the ring strip.

Further, the bottom of the inner side of the storage device is provided with a liquid draining rod, the bottom end of the liquid draining rod is correspondingly matched with the detection liquid outlet, the top end of the liquid draining rod is fixedly connected with the ring frame through a plurality of supporting rods, and a plurality of storage holes are formed in the surface of the liquid draining rod at vertical equal intervals.

The invention has the technical effects and advantages that:

1. according to the invention, the ring strips and the connecting strips are utilized to drive the liquid discharging rods to synchronously move downwards, the semen in the storage device enters the liquid discharging storage hole, when the downwards moving liquid discharging rods drive the storage hole to move downwards, until the storage hole moves out of the storage device, the rotating storage device enables the liquid discharging rods to synchronously rotate, the rotating liquid discharging rods conveniently throw the semen in the storage hole out of the detection frame, the PH test paper in the detection frame is utilized to conveniently detect the semen, and meanwhile, the transparent detection frame is also utilized to detect the liquefaction capacity of the semen; when the liquid draining rod extends out of the storage device, the quantity of storage holes extending out of the storage device is limited according to detection requirements, and the semen waste in the detection process is avoided.

2. When the motor works to drive the square round rod to rotate clockwise, the square round rod drives the top plate to rotate clockwise on the inner side of the annular groove by utilizing the limiting structure, and simultaneously drives the gears to synchronously rotate when the top plate rotates clockwise. Semen with different concentrations is deposited respectively inside a plurality of pivoted strorage device, and the motor drives square pole and detects when the ring frame inboard clockwise and anticlockwise rotation, utilizes two-way pivoted strorage device also can carry out intensive mixing to its inside semen, and simultaneously, pivoted strorage device can avoid the semen to deposit, avoids influencing the precision that the semen detected.

3. According to the invention, when semen is stored in the storage device, the toothed ring is adjusted at the top end of the strip groove, the torsion spring is in a relaxed state, the plurality of connecting strips are respectively in one-to-one correspondence with the plurality of strip grooves, the connecting strips are used for plugging the strip grooves, so that the semen poured into the storage device is prevented from leaking out of the strip grooves, after the semen enters the storage device, the semen falls on the top surface of the ring frame, the ring frame arranged on the inclined surface is convenient for the semen to slide to the bottom of the inner side of the storage device, the semen is prevented from accumulating on the top surface of the ring frame to form a condensate, the storage of the semen is completed, and the semen with different concentrations or different types can be conveniently stored in the storage devices respectively.

Drawings

FIG. 1 is a schematic view showing the overall structure of a semen detecting device for preventing waste according to an embodiment of the present invention;

FIG. 2 is a schematic view of the internal structure of a detection ring frame according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a detection ring frame according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view of a storage device according to an embodiment of the present invention;

in the figure: 1. detecting a ring frame; 2. a square round bar; 3. detecting a connecting frame; 4. a screw cap; 5. a detection frame; 6. a top plate; 7. detecting a placement hole; 8. a storage; 9. detecting a liquid outlet; 10. an annular rack; 11. a gear; 12. teeth; 13. a clamping plate; 14. a defining rack; 15. a semi-annular plate; 16. a ring plate; 17. a toothed ring; 18. a torsion spring; 19. a lifting ring; 20. a swivel; 21. a protruding rod; 22. a vertical groove; 23. a strip groove; 24. a ring frame; 25. a connecting strip; 26. a ring strip; 27. a liquid discharge rod; 28. and a storage hole.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present 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.

The invention provides a semen detection device capable of preventing waste, as shown in fig. 1 to 4, the semen detection device comprises a detection ring frame 1, a square round rod 2 is inserted in the center of the detection ring frame 1, the bottom end of the square round rod 2 is correspondingly inserted in the center of a detection connecting frame 3, square round holes which are correspondingly matched with the square round rod 2 are formed in the center of the detection connecting frame 3, nuts 4 are arranged at the top and the bottom of the detection connecting frame 3, the nuts 4 are spirally sleeved on the surface of the square round rod 2, a plurality of detection frames 5 are fixedly connected to the outer side end of the detection connecting frame 3, and when the positions of the detection frames 5 on the inner side of the detection ring frame 1 need to be adjusted, two nuts 4 are screwed simultaneously. The inboard rotation of detection ring frame 1 is provided with roof 6, roof 6 center department is provided with logical groove, and the equidistant array of circumference side of logical groove is provided with a plurality of detection and places hole 7, the inside correspondence of hole 7 has been placed to the detection and has been placed the strorage device 8, and a plurality of strorage devices 8 set up with a plurality of detection frame 5 one-to-one, and the opening correspondence of strorage device 8 bottom detection liquid outlet 9 and detection frame 5 top matches, square round bar 2 utilizes limit structure and roof 6 to correspond the buckle, and a plurality of strorage devices 8 annular equidistance distributes around square round bar 2. The position of the detection connecting frame 3 is adjusted, when the detection connecting frame 3 drives the detection frame 5 to move on the surface of the square round rod 2, the position of the detection frame 5 can be conveniently adjusted in real time according to the position of the detection liquid outlet 9 at the bottom of the storage device 8, and when the detection frame 5 moves, the detection liquid outlet 9 enters into the opening at the top of the detection frame 5, and at the moment, the regulation and control on the detection frame 5 are completed.

The whole test paper that sets up to transparent glass of strorage 8, the seminal fluid PH value that will detect different concentration, the inside seminal fluid of strorage 8 is through detecting liquid outlet 9 entering into detection frame 5 inside after, utilizes the inside PH test paper of detection frame 5 in the detection of different concentration seminal fluid, also can observe the liquefaction ability of the inside seminal fluid of detection frame 5 through strorage 8 in real time.

In fig. 2 and 3, the detection ring frame 1 inboard is provided with the annular of corresponding complex with roof 6, the annular is inside to be provided with annular rack 10, and roof 6 circumference side and annular rack 10 medial surface laminating, the inside annular equidistance of roof 6 is provided with a plurality of gears 11, gear 11 rotates and installs inside roof 6, and gear 11 and annular rack 10 meshing cooperation, a plurality of gears 11 and a plurality of detection place hole 7 one-to-one setting, the 8 circumference side of strorage device is provided with a plurality of teeth 12 with gear 11 meshing complex, utilizes tooth 12 to make strorage device 8 at the inside rotation of detection place hole 7 when gear 11 rotates. After the storage device 8 is correspondingly placed in the detection placement hole 7, the storage device 8 is limited in the detection placement hole 7 by utilizing a limiting structure on the surface of the square round rod 2, the square round rod 2 is externally connected with an output end of a motor, when the motor works to drive the square round rod 2 to rotate clockwise, the square round rod 2 drives the top plate 6 to rotate clockwise in the inner side of the annular groove by utilizing the limiting structure, and simultaneously drives the plurality of gears 11 to rotate synchronously when the top plate 6 rotates clockwise, and due to the meshing fit of the gears 11 and the annular racks 10, the gears 11 also rotate anticlockwise in the inner side of the top plate 6 in the rotation process of the top plate 6, and the gears 11 drive the storage device 8 to rotate clockwise in the detection placement hole 7 by utilizing the plurality of teeth 12 when rotating anticlockwise. Semen with different concentrations is deposited respectively inside a plurality of pivoted strorage 8, and the motor drives square pole 2 when detecting ring frame 1 inboard clockwise and anticlockwise rotation, utilizes two-way pivoted strorage 8 also can carry out intensive mixing to its inside semen, and simultaneously, pivoted strorage 8 can avoid the semen to deposit, avoids influencing the precision that the semen detected.

In fig. 1 and 2, the limiting structure includes a plurality of clamping plates 13, a plurality of clamping grooves are formed in the side edge of the top portion of the through groove of the top plate 6, the square round rod 2 is correspondingly buckled with the plurality of clamping grooves by utilizing the plurality of clamping plates 13, the limiting structure further includes a plurality of limiting frames 14, the plurality of limiting frames 14 are correspondingly matched with the plurality of detection placement holes 7 one by one, the outer side ends of the limiting frames 14 are correspondingly attached to the outer side ends of the plurality of teeth 12 of the storage 8, and the limiting frames 14 correspondingly limit the storage 8 with the detection placement holes 7. When the storage device 8 is required to be limited, after the storage device 8 is matched and installed in the detection placement hole 7, the square round rod 2 is downwards moved, the bottom of the square round rod 2 penetrates through the through groove in the center of the top plate 6 until a plurality of clamping plates 13 are buckled with a plurality of clamping grooves on the surface of the top plate 6 in a one-to-one correspondence manner, at the moment, the outer ends of the plurality of limiting frames 14 are completely buckled in the detection placement hole 7, the storage device 8 is limited by the limiting frames 14, and due to the corresponding matching of the clamping plates 13 and the clamping grooves, the square round rod 2 with the proper length can be selected according to the lengths of the storage device 8 and the detection frame 5, and the storage device 8 and the detection frame 5 are conveniently matched in a corresponding manner by using the matching of the nuts 4 and the detection connecting frames 3.

In fig. 1 and 4, the top of the teeth 12 of the storage device 8 is provided with a half ring plate 15, the outer diameter of the half ring plate 15 is larger than the diameter of the detection placement hole 7, the bottom of the teeth 12 of the storage device 8 is fixedly provided with a ring plate 16, the outer diameter of the ring plate 16 is the same as the outer diameter of the half ring plate 15, and the half ring plate 15 and the ring plate 16 are respectively attached to the top surface and the bottom surface of the top plate 6. After the storage device 8 is initially placed in the detection placement hole 7 under the limitation of the limiting frame 14, the semi-annular plate 15 and the annular plate 16 are respectively attached to the top surface and the bottom surface of the top plate 6, so that the storage device 8 can be conveniently rotated in the detection placement hole 7 by utilizing the semi-annular plate 15 and the annular plate 16, and meanwhile, the storage device 8 is prevented from moving up and down in the detection placement hole 7 of the top plate 6.

In fig. 2, the surface of the storage 8 is spirally sleeved with a toothed ring 17, the top surface of the toothed ring 17 is connected with the bottom surface of a ring plate 16 by a torsion spring 18, the torsion spring 18 is sleeved on the surface of the storage 8, a lifting ring 19 is arranged in the detection ring frame 1, annular teeth which are arranged in parallel are arranged on the inner side surface of the circumference of the lifting ring 19, and the inner side surface of the lifting ring 19 is meshed and matched with the toothed ring 17 by the annular teeth. When the lifting ring 19 is not in contact with the toothed ring 17, the top plate 6 drives the storage device 8 to rotate, and the rotation of the storage device 8 is utilized to facilitate rotating and stirring of semen in the storage device 8, so that semen is prevented from standing and precipitating in the storage device 8. After the lifting ring 19 is meshed with the toothed ring 17, as the lifting ring 19 is static, when the storage 8 rotates clockwise, the toothed ring 17 rotates anticlockwise on the surface of the storage 8 under the limit of annular teeth, the anticlockwise rotating toothed ring 17 moves downwards on the surface of the storage 8, the rotating toothed ring 17 twists the torsion spring 18, when the storage 8 rotates anticlockwise, the toothed ring 17 rotates clockwise on the surface of the storage 8 under the limit of annular teeth, the clockwise rotating toothed ring 17 moves upwards on the surface of the storage 8, and the twisted torsion spring 18 gradually returns to the original state.

In fig. 2 and fig. 3, the outer circumferential side of the detection ring frame 1 is spirally sleeved with a swivel 20, a plurality of convex rods 21 are annularly equidistant on the outer circumferential side of the lifting ring 19, a plurality of vertical grooves 22 are formed in the outer circumferential side of the detection ring frame 1, the plurality of vertical grooves 22 are in one-to-one corresponding fit with the plurality of convex rods 21, the outer lateral ends of the convex rods 21 penetrate through the vertical grooves 22, an inner groove corresponding to the outer lateral ends of the convex rods 21 is formed in the center of the inner circumferential side of the swivel 20, and the spiral fit of the swivel 20 and the detection ring frame 1 drives the lifting ring 19 to move up and down on the inner side of the detection ring frame 1 by utilizing the convex rods 21. When the actual position of the toothed ring 17 needs to be adjusted, the rotating ring 20 is rotated, the rotating ring 20 and the detection ring frame 1 have the spiral effect, so that when the rotating ring 20 moves up and down on the surface of the detection ring frame 1, the rotating ring 20 which moves up and down drives the protruding rod 21 to move up and down on the inner side of the vertical groove 22 due to the snap fit of the outer side end of the protruding rod 21 and the inner groove, the lifting ring 19 can be conveniently adjusted to the real-time position of the inner side of the detection ring frame 1 by utilizing the up-down protruding rod 21, and the position of the lifting ring 19 on the inner side of the detection ring frame 1 can be adjusted according to the detection requirement.

In fig. 4, a plurality of grooves 23 are formed in the circumferential side surface of the storage device 8, a ring frame 24 is arranged in the storage device 8, the circumferential outer side surface of the ring frame 24 is attached to the inner side wall of the storage device 8, an inclined surface is formed in the top surface of the ring frame 24, the horizontal surface where the outer side edge of the inclined surface is higher than the horizontal surface where the inner side edge of the inclined surface is located, a plurality of connecting strips 25 are annularly and equidistantly arranged at the top of the inclined surface of the ring frame 24, the length of each connecting strip 25 is identical to that of each groove 23, a ring strip 26 is connected to the outer side end of the top of each connecting strip 25, and grooves corresponding to the ring strips 26 are formed in the circumferential inner side surface of the toothed ring 17. When the semen needs to be stored in the storage device 8, the toothed ring 17 is adjusted at the top end of the strip groove 23, the torsion spring 18 is in a loosening state, the plurality of connecting strips 25 are in one-to-one correspondence with the plurality of strip grooves 23 respectively, the strip grooves 23 are plugged by the connecting strips 25, the semen poured into the storage device 8 is prevented from leaking out of the inside of the strip grooves 23, after the semen enters the storage device 8, the semen falls on the top surface of the ring frame 24, the ring frame 24 arranged on the inclined surface facilitates the semen to slide to the bottom inside the storage device 8, the semen is prevented from being accumulated on the top surface of the ring frame 24 to form a condensate, the storage of the semen is completed, and the semen level in the storage device 8 is lower than the lowest end of the strip grooves 23.

In fig. 4, a liquid draining rod 27 is arranged at the bottom of the inner side of the storage device 8, the bottom end of the liquid draining rod 27 is correspondingly matched with the detection liquid outlet 9, the top end of the liquid draining rod 27 is fixedly connected with the ring frame 24 by a plurality of struts, and a plurality of storage holes 28 are vertically and equidistantly arranged on the surface of the liquid draining rod 27. When semen is stored in the storage device 8, the semen can be prevented from directly leaking out from the inside of the detection liquid outlet 9 due to the corresponding matching of the bottom end of the liquid discharging rod 27 and the detection liquid outlet 9. When semen is required to be discharged from the storage device 8, the toothed ring 17 rotates anticlockwise on the surface of the storage device 8 under the limit of the annular teeth, the anticlockwise rotating toothed ring 17 moves downwards on the surface of the storage device 8, the toothed ring 17 rotates downwards to twist the torsion spring 18, the toothed ring 17 drives the liquid discharging rod 27 to synchronously move downwards by using the ring strip 26 and the connecting strips 25, the semen in the storage device 8 enters the liquid discharging storage hole 28, and the downwards moving liquid discharging rod 27 drives the storage hole 28 to downwards move until the storage hole 28 moves out of the storage device 8, the rotating storage device 8 enables the liquid discharging rod 27 to synchronously rotate, the rotating liquid discharging rod 27 conveniently throws the semen in the storage hole 28 into the detection frame 5, the semen is conveniently detected by using the PH test paper in the detection frame 5, and meanwhile, the liquefaction capacity of the semen is also detected by using the transparent detection frame 5. When the liquid discharging rod 27 extends out of the storage device 8, the quantity of storage holes 28 extending out of the storage device 8 is limited according to detection requirements, so that semen waste in the detection process is avoided.

The working principle of the invention is as follows:

referring to fig. 1 to 4 of the drawings, when the storage device 8 is required to be limited, after the storage device 8 is assembled in the detection placement hole 7, the square round bar 2 is moved downwards, the bottom of the square round bar 2 penetrates through the through groove in the center of the top plate 6 until the clamping plates 13 are buckled with the clamping grooves on the surface of the top plate 6 in a one-to-one correspondence manner, at this time, the outer ends of the limiting frames 14 are completely buckled in the detection placement hole 7, the limiting frames 14 are utilized to limit the storage device 8, and the square round bar 2 with proper length can be selected according to the lengths of the storage device 8 and the detection frame 5 due to the corresponding coordination of the clamping plates 13 and the clamping grooves.

After the storage device 8 is correspondingly placed in the detection placement hole 7, the storage device 8 is limited in the detection placement hole 7 by utilizing a limiting structure on the surface of the square round rod 2, the square round rod 2 is externally connected with an output end of a motor, when the motor works to drive the square round rod 2 to rotate clockwise, the square round rod 2 drives the top plate 6 to rotate clockwise in the inner side of the annular groove by utilizing the limiting structure, and simultaneously drives the plurality of gears 11 to rotate synchronously when the top plate 6 rotates clockwise, and due to the meshing fit of the gears 11 and the annular racks 10, the gears 11 also rotate anticlockwise in the inner side of the top plate 6 in the rotation process of the top plate 6, and the gears 11 drive the storage device 8 to rotate clockwise in the detection placement hole 7 by utilizing the plurality of teeth 12 when rotating anticlockwise. Semen with different concentrations is deposited respectively inside a plurality of pivoted strorage 8, and the motor drives square pole 2 when detecting ring frame 1 inboard clockwise and anticlockwise rotation, utilizes two-way pivoted strorage 8 also can carry out intensive mixing to its inside semen, and simultaneously, pivoted strorage 8 can avoid the semen to deposit, avoids influencing the precision that the semen detected.

The position of the detection connecting frame 3 is adjusted, when the detection connecting frame 3 drives the detection frame 5 to move on the surface of the square round rod 2, the position of the detection frame 5 can be conveniently adjusted in real time according to the position of the detection liquid outlet 9 at the bottom of the storage device 8, and when the detection frame 5 moves, the detection liquid outlet 9 enters into the opening at the top of the detection frame 5, and at the moment, the regulation and control on the detection frame 5 are completed. The whole test paper that sets up to transparent glass of strorage 8, the seminal fluid PH value that will detect different concentration, the inside seminal fluid of strorage 8 is through detecting liquid outlet 9 entering into detection frame 5 inside after, utilizes the inside PH test paper of detection frame 5 in the detection of different concentration seminal fluid, also can observe the liquefaction ability of the inside seminal fluid of detection frame 5 through strorage 8 in real time.

When semen is required to be discharged from the storage device 8, the toothed ring 17 rotates anticlockwise on the surface of the storage device 8 under the limit of the annular teeth, the anticlockwise rotating toothed ring 17 moves downwards on the surface of the storage device 8, the toothed ring 17 rotates downwards to twist the torsion spring 18, the toothed ring 17 drives the liquid discharging rod 27 to synchronously move downwards by using the ring strip 26 and the connecting strips 25, the semen in the storage device 8 enters the liquid discharging storage hole 28, and the downwards moving liquid discharging rod 27 drives the storage hole 28 to downwards move until the storage hole 28 moves out of the storage device 8, the rotating storage device 8 enables the liquid discharging rod 27 to synchronously rotate, the rotating liquid discharging rod 27 conveniently throws the semen in the storage hole 28 into the detection frame 5, the semen is conveniently detected by using the PH test paper in the detection frame 5, and meanwhile, the liquefaction capacity of the semen is also detected by using the transparent detection frame 5. .

Although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a prevent extravagant semen detection device, includes detection ring frame (1), its characterized in that: the detection ring frame is characterized in that a square round rod (2) is inserted in the center of the detection ring frame (1), the bottom end of the square round rod (2) is correspondingly inserted in the center of the detection connecting frame (3), square round holes which are correspondingly matched with Fang Yuangan (2) are formed in the center of the detection connecting frame (3), nuts (4) are arranged at the top and the bottom of the detection connecting frame (3), the nuts (4) are spirally sleeved on the surface of the square round rod (2), a plurality of detection frames (5) are fixedly connected to the outer side end of the detection connecting frame (3), a top plate (6) is rotatably arranged on the inner side of the detection ring frame (1), through grooves are formed in the center of the top plate (6), a plurality of detection placing holes (7) are formed in an equidistant array on the circumferential side surface of the through grooves, storage devices (8) are correspondingly placed in the detection placing holes, the storage devices (8) are correspondingly arranged on the top of the bottom of the detection connecting frame (5), the square round rods (9) are correspondingly matched with openings in the top of the detection frames (5), and the square rods (2) are correspondingly distributed with the top plate (6) in an equal distance;

the surface of the storage device (8) is spirally sleeved with a toothed ring (17), the top surface of the toothed ring (17) is connected with the bottom surface of the annular plate (16) by using a torsion spring (18), the torsion spring (18) is sleeved on the surface of the storage device (8), a lifting ring (19) is arranged in the detection ring frame (1), annular teeth which are arranged in parallel are arranged on the inner side surface of the circumference of the lifting ring (19), and the inner side surface of the lifting ring (19) is meshed and matched with the toothed ring (17) by using the annular teeth;

the novel storage device is characterized in that a plurality of strip grooves (23) are formed in the circumferential side face of the storage device (8), a ring frame (24) is arranged in the storage device (8), the circumferential outer side face of the ring frame (24) is attached to the inner side wall of the storage device (8), an inclined face is arranged on the top face of the ring frame (24), the horizontal face of the outer side edge of the inclined face is higher than the horizontal face of the inner side edge of the inclined face, a plurality of connecting strips (25) are annularly arranged at equal intervals on the top of the inclined face of the ring frame (24), the length of each connecting strip (25) is identical to that of each strip groove (23), a ring strip (26) is connected to the outer side end of the top of each connecting strip (25), and grooves corresponding to the ring strips (26) are formed in the circumferential inner side face of the toothed ring (17).

The device is characterized in that a liquid draining rod (27) is arranged at the bottom of the inner side of the storage device (8), the bottom end of the liquid draining rod (27) is correspondingly matched with the detection liquid outlet (9), a plurality of struts are fixedly connected with the annular frame (24) through the top end of the liquid draining rod (27), and a plurality of storage holes (28) are formed in the surface of the liquid draining rod (27) at vertical equal intervals.

2. The waste-preventing semen testing device of claim 1, wherein:

the detection ring frame is characterized in that an annular groove which is correspondingly matched with the top plate (6) is formed in the inner side of the detection ring frame (1), an annular rack (10) is arranged in the annular groove, the circumferential side face of the top plate (6) is attached to the inner side face of the annular rack (10), a plurality of gears (11) are arranged in the annular groove at equal intervals in the top plate (6), the gears (11) are rotatably mounted in the top plate (6), the gears (11) are meshed with the annular rack (10), a plurality of gears (11) are in one-to-one correspondence with a plurality of detection placement holes (7), a plurality of teeth (12) which are meshed with the gears (11) are arranged on the circumferential side face of the storage device (8), and the teeth (12) are utilized when the gears (11) rotate to enable the storage device (8) to rotate in the detection placement holes (7).

3. The waste-preventing semen testing device of claim 2, wherein:

the limiting structure comprises a plurality of clamping plates (13), a plurality of clamping grooves are formed in the side edges of the top portion of the through groove of the top plate (6), the square round rod (2) is buckled with the clamping grooves correspondingly through the clamping plates (13), the limiting structure further comprises a plurality of limiting frames (14), the limiting frames (14) are matched with the detecting placing holes (7) in a one-to-one correspondence mode, the outer side ends of the limiting frames (14) are correspondingly attached to the outer side ends of the teeth (12) of the storage device (8), and the limiting frames (14) are correspondingly matched with the detecting placing holes (7) to limit the storage device (8).

4. The waste-preventing semen testing device of claim 2, wherein:

the utility model discloses a semi-ring plate (15) is provided with at a plurality of tooth (12) tops of strorage device (8), the external diameter of semi-ring plate (15) is greater than the diameter that detects hole (7) of placing, a plurality of tooth (12) bottom fixed mounting of strorage device (8) have annular plate (16), the external diameter of annular plate (16) is the same with the external diameter of semi-ring plate (15), and semi-ring plate (15) and annular plate (16) laminate respectively in the top surface and the bottom surface of roof (6).

5. The waste-preventing semen testing device of claim 4, wherein:

the utility model discloses a detection ring frame, including detection ring frame (1), elevating ring (19), elevating ring (1), detection ring frame (1), swivel (20) have been cup jointed to the spiral of circumference lateral surface, elevating ring (19) circumference lateral surface annular equidistance is provided with a plurality of protruding poles (21), detection ring frame (1) circumference lateral surface is provided with a plurality of perpendicular grooves (22), a plurality of perpendicular grooves (22) and a plurality of protruding poles (21) one-to-one cooperation, and protruding pole (21) outside end runs through perpendicular groove (22), swivel (20) circumference medial surface center department is provided with and protruding pole (21) outside end corresponding complex inside groove, and swivel (20) and the spiral cooperation of detection ring frame (1) utilize protruding pole (21) to drive elevating ring (19) in detection ring frame (1) inboard reciprocates.