CN111956185B - Device for measuring penis surface hardness - Google Patents

Abstract

The invention relates to the technical field of penis measuring instruments, in particular to a device for measuring the hardness of the surface of a penis, which comprises a driving motor, a speed reducer arranged at the end part of an output shaft of the driving motor and a connecting shaft connected with the speed reducer, wherein the connecting shaft is connected with a connecting disc sleeved outside, a sensitive resistor is arranged on the connecting disc, the connecting disc is connected with one end of a metal wire, the other end of the metal wire is sleeved on the surface of the penis in a loose joint mode, and the device is further provided with a structure for fixing and guiding the metal wire. The connecting disc is driven to rotate by the driving motor, so that the sensitive resistor on the connecting disc can accurately measure the line length change and the tension value on the metal wire, the hardness of the surface of the penis is measured and calculated, the device is convenient to mount and measure, the reliability is high, and a doctor can conveniently diagnose the illness state of a patient.

Description

Device for measuring penis surface hardness

Technical Field

The invention relates to the technical field of penis measuring instruments, in particular to a device for measuring the hardness of the surface of a penis.

Background

The nocturnal penile erection process is currently widely used to identify psychological and organic erectile dysfunction. The night penis erection measuring recorder can continuously record and quantitatively analyze the change of the erection times, duration, length, circumference, surface hardness and the like of the penis of a patient in a night natural sleeping environment under the sleeping state of the patient, and gives a primary identification result to assist a clinician to determine the nature of the erection dysfunction of the patient.

In the prior art, the surface hardness of the penis is difficult to directly measure, and the surface hardness of the penis cannot be directly determined according to the erection length of the penis, the circumference of the cross section of the penis, the radius and the like. The penis surface hardness is indirectly estimated by calculating the absolute and relative distension of the penis, typically by circumference change. According to the clinical application result, the method can reflect the hardness of the surface of the penis of a patient to a certain extent. However, the individual variability of the patient leads to a low accuracy of this approach, which increases the difficulty for the physician to diagnose the condition of the patient.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a device capable of directly measuring the surface hardness of the penis, which reflects the surface hardness value through the change of the tension and the length of the stay wire, has accurate measurement result, is convenient for doctors to diagnose the illness state of patients, and has convenient installation and measurement operation and high reliability.

In order to achieve the above objects, the present invention provides a device for measuring the hardness of the surface of penis, comprising a driving motor, a reducer provided at an end of an output shaft of the driving motor, and a connecting shaft connected to the reducer, the connecting shaft is connected with a connecting disc sleeved outside the connecting shaft, a sensitive resistor is arranged on the connecting disc, the connecting disc is connected with the first end of the metal wire, the second end of the metal wire is sleeved on the surface of the penis in a loose joint mode, the device is also provided with a structure for fixing and guiding the metal wire, which comprises a front end mouth and a wire clip, the front end nozzle is connected with a structure supporting the connecting disc, a metal wire at the connecting disc passes through a through hole of the front end nozzle and is led out from the front end nozzle, the wire clip is provided with a clamping groove, and the second end of the metal wire penetrates through the through hole of the wire clip and then is movably connected to the clamping groove.

Further, the connection pad rotates and sets up in the through-hole of an installation piece, the upper surface of installation piece is provided with a plurality of installation screws, the installation piece passes through mounting screw and a support frame fixed connection, the support frame includes integrative top backup pad, bottom suspension fagging and the riser that sets up, correspond on the top backup pad and set up through-hole and installation screw, the top backup pad with the top fixed connection of installation piece just the top backup pad with the through-hole of installation piece is aimed at.

Furthermore, the connecting shaft is arranged in the through hole of the mounting block and rotatably supported by the connecting disc through a bearing, a through hole is formed in the connecting shaft, a transmission shaft is arranged in the through hole of the connecting shaft and fixedly connected with the connecting shaft, and the top end of the transmission shaft is fixedly connected with the output end of the speed reducer.

Further, the upper portion and the lower part external diameter of connecting axle set up differently, and the upper portion external diameter is less, and the lower part external diameter is great, forms the stair structure, be provided with an annular step board in the through-hole of connection pad, the step board will the connection pad divide into upper strata and lower floor, the upper portion of connecting axle is located the upper strata of connection pad, lower part is located the lower floor of connection pad, the bearing sets up the upper strata of connection pad, through the step board supports.

Further, the lower part external diameter of connecting axle is less than the through-hole aperture of connection pad, the step board with be provided with a vertical bolt between the bottom of connection pad, the lower part of connecting axle is provided with a horizontally control screw, control screw with connecting axle fixed connection, just control screw's part extends to the connecting axle outside.

Further, the top outside of connection pad is provided with the annular wire winding groove of round, one of them position in wire winding groove is provided with a spherical ball draw-in groove, the first end of metal wire is provided with a fixed ball, the fixed ball joint sets up in the ball draw-in groove, make the metal wire with the connection pad is connected.

Further, the fixing ball is a metal ball or a rubber ball.

Furthermore, the device also comprises a front wire end and a rear wire end, wherein the first end of the front wire end penetrates through the wire hole in the side wall of the mounting block and is aligned with the wire winding groove of the connecting disc, the second section of the front wire end penetrates through the front end nozzle and can freely rotate relative to the front end nozzle, the rear wire end can be freely arranged, and the two ends of the rear wire end can be connected with the second end of the front wire end or the tail end of the wire clip.

Furthermore, the device further comprises a limiting structure, wherein the limiting structure comprises a thimble and an elastic sheet, a first end of the thimble penetrates through a thimble hole in the mounting block and penetrates back into the mounting block after being bent and is inserted into a limiting hole formed in the side wall of the connecting disc, a second end of the thimble is inserted into a blind hole in one side of the through hole of the front end nozzle, a control pin is further convexly arranged on the side wall of the front end nozzle at the front end of the cable, an n-type control groove is formed in the corresponding position of the front end nozzle, and the control pin is slidably arranged in the control groove.

The scheme of the invention has the following beneficial effects:

according to the device for measuring the penis surface hardness, the connecting disc is driven to rotate by the driving motor, so that the sensitive resistor on the connecting disc can accurately measure the line length change and the tension value on the metal wire, the penis surface hardness can be measured and calculated, the device is convenient to install and measure, the connecting disc, the connecting shaft, the transmission shaft and the like are stable in mutual rotation transmission, the measuring precision is high, the installation and use convenience and reliability of the device can be improved due to the arrangement of the limiting bolt, the control screw matching mechanism, the limiting structure and the like, and a doctor can diagnose the illness state of a patient conveniently.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the mounting block of the present invention;

FIG. 3 is a schematic view of the connection of the connecting shaft and the transmission shaft of the present invention;

FIG. 4 is a cross-sectional view of a connection disc of the present invention;

FIG. 5 is a schematic view of the wire clamp of the present invention connected to the front end of a wire;

fig. 6 is a schematic view of the mounting wire of the present invention.

[ description of reference ]

1-driving a motor; 2-a reducer; 3-connecting the shaft; 4-a connecting disc; 5-a metal wire; 6-front end mouth; 7-wire clips; 8-a clamping groove; 9-mounting a block; 10-a support frame; 11-a bearing; 12-a drive shaft; 13-a step plate; 14-a latch; 15-control screw; 16-a winding slot; 17-ball catch groove; 18-line front end; 19-rear end of line; 20-a thimble; 21-a spring plate; 22-a limiting hole; 23-a control pin; 24-control slot.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, 2 and 6, the embodiment of the present invention provides a device for measuring the hardness of the surface of penis, comprising a driving motor 1, a decelerator 2 disposed at an end of an output shaft of the driving motor 1, and a connecting shaft 3 connected to the decelerator 2. The connecting shaft 3 is connected with a connecting disc 4 sleeved outside the connecting shaft, so that the driving motor 1 drives the connecting disc 4 to rotate, a sensitive resistor is arranged on the connecting disc 4, and the rotating distance and the torque of the connecting disc 4 can be recorded in the rotating process of the connecting disc 4. The connecting disc 4 is connected with the first end of the metal wire 5, the second end of the metal wire 5 is sleeved on the surface of the penis in a loose joint mode, so that the loose joint of the metal wire 5 is gradually tightened through the rotation of the connecting disc 4, and the hardness of the surface of the penis is measured. For reliability and convenience of use of the device, the device is further provided with a structure for fixing and guiding the metal wire, the structure comprises a front end nozzle 6 and a wire clip 7, the front end nozzle 6 is structurally connected with the supporting connection disc 4, the first end of the metal wire 5 at the connection disc 4 is made to penetrate through a through hole of the front end nozzle 6 and is led out from the front end nozzle 6, and the sensitive resistor is prevented from being influenced by overlarge disturbance of the metal wire 5 when the connection disc 4 rotates. And the wire clip 7 is provided with a clamping groove 8, the second end of the metal wire 5 passes through the through hole of the wire clip 7 and then is movably connected on the clamping groove 8 to form a loose joint state, and the loose joint freely slides along the clamping groove 8 when the metal wire 5 is tightened, so that the relative data of the penis can be accurately measured.

The connecting disc 4 is supported by an external mounting block 9, a through hole is formed in the middle of the mounting block 9, a plurality of mounting screw holes are formed in the upper surface of the connecting disc, and the connecting disc is connected with the top end of a support frame 10 through mounting screws. Support frame 10 includes integrative top backup pad, the bottom suspension fagging and the riser that sets up in this embodiment, sets up through-hole and installation screw on the top backup pad equally, and top backup pad and the top fixed connection of installation piece 9, and both through-holes align. The connecting shaft 3 is disposed in a through hole of the mounting block 9 and rotatably supported with the connecting plate 4 through a bearing 11. As shown in fig. 3, a through hole is also formed in the connecting shaft 3, a transmission shaft 12 is disposed in the through hole, and is in rotational transmission with the connecting shaft 3 through a key or the like, and the top end of the transmission shaft 12 is in transmission connection with the output end of the speed reducer 2, so that the connecting shaft 3 is driven to rotate by the transmission shaft 12 under the driving of the driving motor 1.

Wherein, the upper portion of connecting axle 3 sets up differently with lower part external diameter, and upper portion external diameter is less, and lower part external diameter is great, forms the stair structure. As shown in fig. 4, an annular step plate 13 is provided in the through hole of the land 4 to divide the land 4 into an upper layer and a lower layer. The upper part of the connecting shaft 3 is positioned at the upper layer of the connecting disc 4, and the lower part is positioned at the lower layer of the connecting disc 4. The bearing 11 is provided on the upper layer of the land 4 and supported by the step plate 13.

The outer diameter of the lower part of the connecting shaft 3 is smaller than the aperture of the through hole of the connecting disc 4, and a certain space is formed between the connecting shaft and the through hole. The bottom end of the through hole of the connecting disc 4 is reduced in aperture and communicated with the outside, and the lower part of the connecting shaft 3 is supported by a supporting surface at the bottom end of the through hole. In addition, a vertical bolt 14 is arranged between the step plate 13 and the supporting surface at the bottom end of the through hole, a horizontal control screw 15 is arranged at the lower part of the connecting shaft 3, is fixedly connected with the connecting shaft 3 and partially extends into the space, so that the connecting disc 4 cannot be driven to rotate temporarily when the connecting shaft 3 rotates, and when the control screw 15 rotates to be in cross contact with the bolt 14, the connecting shaft 3 drives the connecting disc 4 to rotate synchronously when continuing to rotate. The purpose of designing above-mentioned structure is when metal wire 5 is in the installation, can not drive connecting axle 3, driving motor 1 etc. rotation with line checkpost 7 loose joint in-process, leads to receiving the interference in the installation of sensitive resistor, finally influences measurement accuracy.

In this embodiment, a ring of winding grooves 16 are formed on the outer side of the top end of the connecting disc 4, a spherical ball locking groove 17 is formed in one position of the winding grooves 16, and a fixing ball is arranged at the first end of the metal wire 5 and is locked in the ball locking groove 17 so that the metal wire 5 is connected with the connecting disc 4. Wherein the fixed ball can be metal ball or rubber ball, adopts the metal ball to need install in advance in ball draw-in groove 17, adopts the rubber ball can form elastic connection mode of dismantling, because ball draw-in groove 17 communicates the inside wall and the lateral wall of connection pad 4, consequently can follow the inboard ejecting with the rubber ball.

In order to provide a better guidance of the wire 5 and to obtain a more accurate measurement result, a wire front end 18 and a wire rear end 19 are also provided in this embodiment. Wherein a first end of the wire front end 18 passes through the wire hole on the side wall of the mounting block 9 and is aligned with the wire winding groove 16 of the connecting disc 4, and a second section of the wire front end 18 is disposed through the front end mouth 6 and is freely rotatable relative to the front end mouth 6. The rear end 19 of the wire can be freely positioned and both ends can be connected to the second end of the front end 18 of the wire or the rear end of the wire clip 7 to adaptively change the orientation of the wire 5.

In a preferred embodiment, the device is further provided with a limiting structure, when the device is in an unused state, the limiting structure fixes the connecting disc 4 and prevents the connecting disc 4 from freely rotating, and when the device is in an used state, the limiting structure can be switched to enable the connecting disc 4 to freely rotate, and the sensitive resistor measures relevant data. Specifically, the limiting structure comprises a thimble 20 and an elastic sheet 21, wherein a first end of the thimble 20 penetrates through a thimble hole in the mounting block 9, and penetrates back into the mounting block 9 after being bent, and is inserted into a limiting hole 22 formed in the side wall of the connecting disc 4. The second end of the thimble 20 is inserted into the blind hole on the side of the through hole of the front end nozzle 6, and as shown in fig. 5, the side wall of the front end 18 of the wire located on the front end nozzle 6 is further provided with a control pin 23 in a protruding manner, an n-type control groove 24 is arranged at the corresponding position of the front end nozzle 6, and when the control pin 23 is located at the a point position of the control groove 24, the thimble 20 is inserted into the limit hole 22 under the elastic force of the elastic sheet 21 arranged on the mounting block 9, so as to limit the connection disc 4. When the device is used, the connecting disc 4 needs to be unlocked and rotated, the control pin 23 moves to a point b along the control groove 24 by rotating the front end 18 of the wire, the front end mouth 6 is pushed forwards to enable the ejector pin 20 to leave the limiting hole 22 without limiting the connecting disc 4, the control pin 23 is located at a point c of the control groove 24, the front end 18 of the wire is rotated again to enable the control pin 23 to move to a point d, a stable state is formed, and the bent part of the ejector pin 20 jacks up the elastic sheet 21. After the measurement, the above process is performed in the reverse direction, and the thimble 20 is inserted into the limiting hole 22 again under the elastic force of the elastic sheet 21. The spring plate 21 is made of thin steel plate, two ends of the spring plate are fixedly connected with the side wall of the mounting block 9, and the bent part of the thimble 20 is in contact with the inner side of the spring plate 21.

When the connecting disc 4 is in a coil twisting mode in the use process, one end of the metal wire 5 is slowly tightened, the acting force and the reacting force of the metal wire 5 and the surface of the penis are fed back to the connecting disc 4, the connecting disc 4 and the sensitive resistor move synchronously, and the accurate numerical value is measured through the change of the sensitive resistance value and a software algorithm. Specifically, the test was performed by first controlling the driving motor 1 to gently wrap the penis with a linear tension of 4 ounces (114g) in a manner of one test every 15 seconds, and then to suddenly relax to return to a no-load state, thereby performing the swelling degree test. The test value of the swelling degree is compared with the previous baseline, and when the swelling degree is increased by 6mm or more than the baseline, erection is indicated. After the swelling degree test, the drive motor 1 is controlled to surround the penis for several seconds at intervals of 30s with a linearly increasing pulling force of 0-10 ounces (283.5g), the pulling force value when the line length obviously changes is recorded, and the hardness measurement is realized by comparing with a pulling force-hardness curve.

The device of the invention can realize two detection modes, namely a night mode (NPTR) and a daytime stimulation mode (AVSS), wherein the NPTR is mainly used for continuously monitoring in a night sleep state to detect the penile erection condition when a patient moves eyes rapidly in the sleep state, and generally a subject is required to sleep for more than 6 hours continuously (preferably 8 hours). The latter is mainly used for detecting the erectile function of a patient in a waking state under audio-visual stimulation, and the audio-visual stimulation can induce the sexual excitation of the brain of the patient so as to generate conscious erection.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. A device for measuring the hardness of the surface of penis is characterized by comprising a driving motor, a speed reducer arranged at the end part of an output shaft of the driving motor and a connecting shaft connected with the speed reducer, the connecting shaft is connected with a connecting disc sleeved outside the connecting shaft, a sensitive resistor is arranged on the connecting disc, the connecting disc is connected with the first end of the metal wire, the second end of the metal wire is sleeved on the surface of the penis in a loose joint mode, the device is also provided with a structure for fixing and guiding the metal wire, which comprises a front end mouth and a wire clip, the front end nozzle is connected with a structure supporting the connecting disc, a metal wire at the connecting disc passes through a through hole of the front end nozzle and is led out from the front end nozzle, a clamping groove is formed in the wire clamp, and the second end of the metal wire penetrates through the through hole of the wire clamp and then is movably connected to the clamping groove;

the connecting disc is rotatably arranged in a through hole of the mounting block; the connecting shaft is arranged in the through hole of the mounting block and rotatably supported with the connecting disc through a bearing; an annular step plate is arranged in the through hole of the connecting disc, the connecting disc is divided into an upper layer and a lower layer by the step plate, the upper part of the connecting shaft is positioned on the upper layer of the connecting disc, and the lower part of the connecting shaft is positioned on the lower layer of the connecting disc; the lower part external diameter of connecting axle is less than the through-hole aperture of connection pad, the step board with be provided with a vertical bolt between the bottom of connection pad, the lower part of connecting axle is provided with a horizontally control screw, control screw with connecting axle fixed connection, just control screw's part extends to the connecting axle outside.

2. The device of claim 1, wherein the upper surface of the mounting block is provided with a plurality of mounting screws, the mounting block is fixedly connected with a supporting frame through mounting screws, the supporting frame comprises a top supporting plate, a bottom supporting plate and a vertical plate which are integrally arranged, the top supporting plate is correspondingly provided with through holes and mounting screws, the top supporting plate is fixedly connected with the top end of the mounting block, and the top supporting plate is aligned with the through holes of the mounting block.

3. The apparatus for measuring the hardness of a surface of a penis according to claim 2, wherein a through hole is formed in the connecting shaft, a transmission shaft is disposed in the through hole of the connecting shaft, the transmission shaft is fixedly connected with the connecting shaft, and the top end of the transmission shaft is fixedly connected with the output end of the speed reducer.

4. The apparatus for measuring hardness of a surface of penis according to claim 3, wherein the coupling shaft is formed in a stepped structure in which outer diameters of upper and lower portions are differently set, the upper portion having a smaller outer diameter and the lower portion having a larger outer diameter, and the bearing is provided at an upper layer of the coupling pad to be supported by the stepped plate.

5. The apparatus for measuring the hardness of a surface of a penis according to claim 4, wherein a ring-shaped winding groove is formed at an outer side of a top end of the connecting plate, a spherical ball clamping groove is formed at one position of the winding groove, and a fixing ball is arranged at a first end of the metal wire and clamped in the ball clamping groove so that the metal wire is connected with the connecting plate.

6. The apparatus for measuring hardness of a surface of a penis of claim 5, wherein the fixing ball is a metal ball or a rubber ball.

7. The apparatus for measuring hardness of a surface of a penis according to claim 6, further comprising a front end of a wire and a rear end of a wire, wherein a first end of the front end of the wire passes through the wire hole of the side wall of the mounting block and is aligned with the wire winding groove of the connecting plate, a second end of the front end of the wire passes through the front mouth and is freely rotatable with respect to the front mouth, and the rear end of the wire is freely positionable and has both ends connectable to the second end of the front end of the wire or the rear end of the wire clip.

8. The device for measuring the hardness of a surface of a penis according to claim 7, further comprising a limiting structure, wherein the limiting structure comprises a thimble and a spring plate, a first end of the thimble penetrates through a thimble hole in the mounting block and is bent to penetrate back into the mounting block and to be inserted into a limiting hole formed in the side wall of the connecting disc, a second end of the thimble is inserted into a blind hole in one side of the through hole of the front end mouth, a control pin is further protruded from the side wall of the front end mouth at the front end of the line, an n-shaped control slot is formed in the corresponding position of the front end mouth, and the control pin is slidably disposed in the control slot.

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