CN115638830B - Disposable aseptic vaginal dilator's check out test set - Google Patents

Abstract

The invention belongs to the technical field of medical inspection equipment, in particular to inspection equipment for a disposable sterile vaginal dilator, which aims at the problems of single detection mode, relatively limited detection range and capability of only detecting the pressure resistance degree of the disposable sterile vaginal dilator. The invention discloses a disposable sterile vaginal dilator inspection device which actually detects the smoothness of the outer wall of a vaginal dilator by simulating the scene that the vaginal dilator enters the vaginal orifice, utilizes the pressure value obtained by a first pressure sensor to feed back the smoothness degree, and adopts a data feedback mode to more accurately obtain detection data, thereby improving the accuracy of a detection result and the detection range of the disposable sterile vaginal dilator.

Description

Disposable aseptic vaginal dilator's check out test set

Technical Field

The invention relates to the technical field of medical inspection equipment, in particular to inspection equipment for a disposable sterile vaginal dilator.

Background

The vaginal dilator is a vaginal dilator, which consists of an upper page, a lower page and a handle, is mainly used for gynecological routine examination and operation, is usually made of metal materials, and is usually made of polystyrene, polypropylene and other materials.

The vaginal dilator is mainly used for dilating the vagina, thereby facilitating the observation of the specific conditions of the vaginal wall and the cervix, and is an instrument with a structure similar to a duckbill.

The disposable sterile vaginal dilator needs to be detected before leaving a factory, at present, a pressure tester is mostly adopted to detect the pressure resistance degree of the disposable sterile vaginal dilator, the detection mode is single, the detection range is limited, and the pressure resistance degree of the disposable sterile vaginal dilator can only be detected.

Disclosure of Invention

The invention discloses a checking device of a disposable sterile vaginal dilator, aiming at solving the technical problems that the checking device of the disposable sterile vaginal dilator in the background technology is limited in checking range and can only detect the pressure-resistant degree of the vaginal dilator.

The invention provides an inspection device for a disposable sterile vaginal dilator, which comprises a detection table, a track seat and a side attached support, wherein the detection table is fixedly connected with the track seat, the track seat is fixedly connected with the side attached support, a smoothness detection assembly is arranged above the side attached support, the smoothness detection assembly comprises a vaginal opening simulator and two movable inner blocks, two rectangular grooves which are vertically symmetrical are formed in the vaginal opening simulator, the two movable inner blocks are respectively positioned in the two rectangular grooves and are symmetrically distributed, a silica gel bag layer is arranged on one opposite side of each of the two movable inner blocks, symmetrical round holes are formed in the two movable inner blocks, slide bars are movably connected in the round holes, two ends of each slide bar are respectively and fixedly connected with the inner walls of the rectangular grooves of the vaginal opening simulator, a first pressure sensor is arranged on one side of each movable inner block, the two pressure sensors are respectively and fixedly connected with the inner walls of the vaginal opening simulator, a plurality of equidistant functional springs are fixedly connected on one side of the two movable inner blocks close to the first pressure sensors, a plurality of equidistant functional springs are positioned on the same movable inner block, and a tabletting sensor is fixedly connected with the input end of a tabletting.

By arranging the smoothness detection assembly, the smoothness of the outer wall of the vaginal dilator is actually detected by simulating the scene that the vaginal dilator enters the vaginal opening, the smoothness degree is fed back by utilizing the pressure value obtained by the first pressure sensor, and the detection data can be more accurately obtained by adopting a data feedback mode, so that the accuracy of a detection result is improved, and the detection range of the disposable sterile vaginal dilator is improved; the silica gel sac layer is utilized to simulate the real situation of the vaginal orifice, thereby further improving the accuracy of the smoothness detection of the external wall of the vaginal dilator.

In a preferred scheme, a middle seat and a tailstock are fixedly connected to the side-attached support, a supporting block is fixedly connected to the lower side of the vaginal opening simulator, the supporting block is located between the middle seat and the tailstock, a round hole is formed in the supporting block, a rail rod is movably connected to the inside of the round hole, two ends of the rail rod are fixedly connected with the outer walls of the middle seat and the tailstock respectively, a mounting groove is formed in the middle seat, a first hydraulic rod is fixedly connected to the inside of the mounting groove, and the other end of the first hydraulic rod is fixedly connected with the supporting block.

In a preferred scheme, a sliding groove is formed in the rail seat, an electric sliding rail is arranged in the sliding groove, a base is movably connected in the sliding groove, an annular supporting table is arranged on the base, a placing seat is rotatably connected to the annular supporting table, a first reversing motor is fixedly connected to the lower end of the base, the output end of the first reversing motor is connected with a short shaft through a coupling, the other end of the short shaft is fixedly connected with the lower side of the placing seat, an arc-shaped placing groove is formed in the placing seat, and a fixing component is arranged in the arc-shaped placing groove; the retention component comprises a plurality of built-in blocks and a rubber layer, a plurality of symmetrical grooves are formed in the arc-shaped placing groove on the placing seat, the built-in blocks are fixedly connected with the inner wall of the grooves respectively, a plurality of equidistant suckers are arranged on the outer sides of the built-in blocks, the built-in blocks are connected through pipelines, a rectangular hole is formed in the placing seat, an air flow control valve is fixedly connected to the inside of the rectangular hole, an output port of the air flow control valve is connected with an air delivery pipe through a flange, the air delivery pipe is fixedly connected with the pipelines, the rubber layer is located inside the arc-shaped placing groove on the placing seat, symmetrical irregular grooves are formed in the inner walls of the two sides of the arc-shaped placing groove, a side pressing block is movably connected to the inside of the irregular grooves, and a retention spring is fixedly connected between the side pressing block and the inner wall of the irregular grooves.

The fixing component is arranged and is attached to the outer wall of the vaginal dilator in a sucking mode of a sucking disc so as to perform sucking and fixing, the traditional clamping is replaced by the sucking and fixing, and the problems that the fixing is incomplete because the external part of the vaginal dilator is arc-shaped, the vaginal dilator moves or falls off in the detection process and the accuracy of the detection result is influenced are avoided; the rubber layer can avoid pressing and the sucking disc adsorption process appearance expand the external genitals and place the excessive contact of seat, cause and expand the external wall of external genitals impaired.

In a preferred scheme, a support frame is fixedly connected to the upper side of the detection table, a detection frame is arranged on one side, close to the rail seat, of the support frame, a side supporting boss is fixedly connected to the detection frame, a sliding seat is arranged on the side supporting boss, a sliding groove is formed in the support frame, the side supporting boss is movably connected with the support frame, a support rod is fixedly connected to one side, far away from the rail seat, of the detection frame, a round hole is formed in the support frame, the support rod is movably connected with the round hole in the support frame, a mounting groove is formed in the detection frame, a second hydraulic rod is fixedly connected to the interior of the mounting groove, and the output end of the second hydraulic rod is fixedly connected with the outer wall of the detection frame; the pressure-resistant detection assembly is arranged on the detection frame and located above the rail seat, the deflection angle detection assembly is arranged on the detection frame, and the deflection angle detection assembly is located on one side of the base.

In a preferred scheme, the withstand voltage detection assembly comprises a contact block and a second pressure sensor, a rectangular mounting groove is formed in the top end of the detection frame, the second pressure sensor is fixedly connected with the rectangular mounting groove, a middle layer plate is arranged below the second pressure sensor, two round holes are formed in the middle layer plate and fixedly connected with the detection frame, the contact block is located below the middle layer plate, an auxiliary roller is arranged on the contact block, an ejector rod is fixedly connected with the upper side of the contact block, the top end of the ejector rod penetrates through a round hole fixedly connected with an ejector block in the middle layer plate, a detection spring is fixedly connected with the upper side of the ejector block, the other end of the detection spring is fixedly connected with the input end of the second pressure sensor, a limit rod is fixedly connected with the top plate, the lower end of the limit rod penetrates through another round hole in the middle layer plate, and the upper end of the limit rod is movably connected with the detection frame.

By arranging the pressure-resistant detection assembly, the actual pressure-resistant numerical value of the opened vaginal dilator can be obtained by using the pressure-resistant detection assembly, and meanwhile, the detection spring can be adjusted and replaced according to actual requirements, so that the pressure-resistant degree data of the vaginal dilator can be further obtained, and the accuracy of the detection result of the pressure-resistant degree of the vaginal dilator is improved; the setting of auxiliary drum on the contact piece can improve withstand voltage testing process's smoothness nature, and along with expanding the increase of external genitals opening degree, auxiliary drum can roll in the outer wall that expands external genitals at the in-process that shifts up.

In a preferred scheme, deflection angle detection subassembly is including shelving the board, shelve fixed connection between board and the test rack, shelve and be provided with the angle scale on the board, shelve and seted up the rectangle recess on the board, swing joint has the bull stick between the both sides inner wall of rectangle recess, the outside fixedly connected with deflection board of bull stick, the deflection board is located the top of contact piece, and has seted up the round hole on the angle scale, the inside swing joint of round hole has the quarter butt, fixed connection between the one end of quarter butt and the bull stick, the other end fixedly connected with pointer of bull stick.

The deflection angle detection assembly is arranged and utilizes the deflection plate to synchronously deflect along with the upper blade of the vaginal dilator, so that the pointer is driven to rotate, the actual deflection angle is obtained by observing the dial data, and the actual angle deflection degree of the vaginal dilator under different pressures and openings is more accurately detected by utilizing a data feedback mode.

In a preferable scheme, a flaring driving assembly is arranged above the detection table; flaring drive assembly includes two mount tables and upset pieces, two mount tables and the equal fixed connection of upside of examining the platform, the upset piece is located between two mount tables, the round hole has been seted up on the upset piece, the inside fixedly connected with axostylus axostyle of round hole, the axostylus axostyle is swing joint between two mount tables, one side of a mount table is provided with the second reversal motor, the output of the second reversal motor has the pivot through the coupling joint, fixed connection between the other end of pivot and the axostylus axostyle, and be provided with two lugs on the upset piece, swing joint has the cylinder of exerting pressure between two lugs.

Through being provided with flaring drive assembly, utilize flaring drive assembly can replace artifical manual pressure to expand the external genitals to make expand the external genitals and open more even of process, improve the holistic degree of automation of detection link.

Therefore, the disposable sterile vaginal dilator inspection device provided by the invention has the advantages that the smoothness of the outer wall of the vaginal dilator is actually detected by simulating the scene that the vaginal dilator enters the vaginal orifice, the smoothness degree is fed back by using the pressure value obtained by the first pressure sensor, and the detection data can be more accurately obtained by adopting a data feedback mode, so that the accuracy of the detection result is improved, and the detection range of the disposable sterile vaginal dilator is enlarged.

Drawings

FIG. 1 is a schematic view of the overall structure of a disposable sterile vaginal dilator test device according to the present invention;

FIG. 2 is a schematic front view of the disposable sterile vaginal dilator test device according to the present invention;

FIG. 3 is a schematic view of a side-attached seat structure of the inspection device for a disposable sterile vaginal dilator;

FIG. 4 is a schematic view of the smoothness testing assembly of the testing apparatus for disposable sterile vaginal dilator according to the present invention;

FIG. 5 is a schematic view of the structure of the base of the disposable sterile vaginal dilator test device;

FIG. 6 is a schematic view of a retention assembly of an inspection apparatus for a disposable sterile vaginal dilator;

FIG. 7 is a schematic structural view of a bracket of the inspection device for the disposable sterile vaginal dilator;

fig. 8 is a schematic structural view of a testing stand of the testing device for the disposable sterile vaginal dilator.

In the figure: 1. a detection table; 2. a rail seat; 3. a support is attached beside; 4. a smoothness detection component; 401. a vaginal orifice simulator; 402. moving the inner block; 403. a silica gel capsule layer; 404. a slide bar; 405. a first pressure sensor; 406. a functional spring; 407. tabletting; 5. a middle seat; 6. a tailstock; 7. a support block; 8. a rail bar; 9. a first hydraulic lever; 10. an electric slide rail; 11. a base; 12. an annular support platform; 13. a placing seat; 14. a first counter-rotating motor; 15. a retention assembly; 1501. a built-in block; 1502. a rubber layer; 1503. a suction cup; 1504. an airflow control valve; 1505. a side pressing block; 1506. a retention spring; 16. a support frame; 17. a detection frame; 18. a side supporting boss; 19. a stay bar; 20. a second hydraulic rod; 21. a pressure resistance detection assembly; 2101. a contact block; 2102. a second pressure sensor; 2103. a middle layer plate; 2104. an auxiliary drum; 2105. a top rod; 2106. a top block; 2107. a limit rod is attached beside the bracket; 2108. detecting a spring; 22. a deflection angle detection assembly; 2201. a shelf board; 2202. an angle scale; 2203. a deflection plate; 2204. a pointer; 23. a flaring drive assembly; 2301. a mounting table; 2302. a turning block; 2303. a pressure applying roller; 2304. a shaft lever; 2305. a second counter-rotating electric machine.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

The invention discloses a disposable sterile vaginal dilator inspection device which is mainly applied to scenes with limited inspection range of the disposable sterile vaginal dilator inspection device.

Referring to fig. 1-4, an inspection apparatus for a disposable sterile vaginal dilator, including detecting platform 1, track seat 2 and side attaches support 3, detect through bolted connection between platform 1 and the track seat 2, pass through bolted connection between track seat 2 and the side attaches support 3, and the side top of attaching support 3 is provided with smoothness detection subassembly 4, smoothness detection subassembly 4 includes vaginal opening simulator 401 and two movable inner blocks 402, and vaginal opening simulator 401's inside has seted up two rectangular channels that are symmetrical from top to bottom, two movable inner blocks 402 are located the inside of two rectangular channels respectively and are the symmetric distribution, two relative one side on movable inner blocks 402 all is provided with silica gel 403 layer, and all seted up symmetrical round hole on two movable inner blocks 402, the inside of round hole all sliding connection has slide bar 404, the both ends of slide bar 404 are connected through the bolted connection respectively with between the rectangular channel inner wall of vaginal opening simulator 401, one side of two movable inner blocks 402 all is provided with first pressure sensor 405, two pressure sensors 406 respectively pass through bolted connection with the inner wall of the same pressure sensor 402 through bolted connection has a plurality of pressure sensor 405, the other end is connected with preforming sensor 405 through the same function of a plurality of bolt 407 through the same bolt 407 on the same movable inner block 402.

Specifically, the vaginal dilator moves to the smoothness detection position and adjusts the angle, the smoothness detection component 4 moves towards the vaginal dilator, the vaginal dilator enters the vaginal orifice simulator 401, along with the increase of the insertion distance, the silicone capsule layer 403 on the movable inner block 402 can be contacted with the outer walls of the upper side and the lower side of the vaginal dilator, the using environment of the vaginal dilator in the actual using process is simulated, because the silicone capsule layer 403 is in a contact state with the outer wall of the vaginal dilator, along with the continuous insertion, the silicone capsule layer 403 is stressed to drive the movable inner block 402 to move, the functional spring 406 is elastically deformed to press the first pressure sensor 405 through the pressing sheet 407, the actual friction coefficient of the outer wall of the vaginal dilator is obtained through the value fed back by the first pressure sensor 405, and the smoothness of the outer wall is obtained (when the smoothness specification of the outer wall of the vaginal dilator is not met, the pressure of the first pressure sensor 405 is increased, the fed back value is higher).

In a specific application scene, the smoothness detection assembly is suitable for a smoothness detection link of the external wall of the vaginal dilator, the smoothness of the external wall of the vaginal dilator is actually detected by simulating a scene that the vaginal dilator enters the vaginal opening, the smoothness degree is fed back by using a pressure value obtained by the first pressure sensor 405, and detection data can be more accurately obtained by adopting a data feedback mode, so that the accuracy of a detection result is improved, and the detection range of the disposable sterile vaginal dilator is widened; the silica gel sac layer 403 is utilized to simulate the real situation of the vaginal opening, so that the accuracy of detecting the smoothness of the outer wall of the vaginal dilator is further improved.

Referring to fig. 1, 2, 3 and 5, in a preferred embodiment, the side-attached support 3 is connected with a middle seat 5 and a tailstock 6 through bolts, the lower side of the vaginal orifice simulator 401 is connected with a support block 7 through bolts, the support block 7 is located between the middle seat 5 and the tailstock 6, a circular hole is formed in the support block 7, a rail rod 8 is slidably connected inside the circular hole, two ends of the rail rod 8 are respectively connected with the outer walls of the middle seat 5 and the tailstock 6 through bolts, a mounting groove is formed in the middle seat 5, a first hydraulic rod 9 is connected inside the mounting groove through bolts, and the other end of the first hydraulic rod 9 is connected with the support block 7 through bolts; the spout has been seted up on track seat 2, the inside of spout is provided with electronic slide rail 10, and the inside sliding connection of spout has base 11, be provided with annular platform 12 on the base 11, it is connected with and places seat 13 to rotate on the annular platform 12, there is first reversal motor 14 base 11's lower extreme through bolted connection, there is the minor axis first reversal motor 14's output through the coupling joint, the other end of minor axis passes through bolted connection with the downside of placing seat 13, place and seted up the arc standing groove on the seat 13, the inside of arc standing groove is provided with maintenance subassembly 15.

Specifically, the vaginal dilator is moved to the smoothness detection position and the angle is adjusted, namely: electronic slide rail 10 removes base 11 to other 3 positions of attaching the support, and first reverse motor 14 drives and places seat 13 rotatory 90, and the position that expands the external genitals keeps fixed, and the shrink of first hydraulic stem 9 afterwards drives supporting shoe 7 and vaginal orifice simulator 401 and carries out lateral shifting, and smoothness determine module 4 draws close to expanding the external genitals.

Referring to fig. 5 and 6, in a preferred embodiment, the retention assembly 15 includes a plurality of built-in blocks 1501 and a rubber layer 1502, a plurality of symmetrical grooves are formed in the arc-shaped placing groove on the placing base 13, the built-in blocks 1501 are respectively connected with the inner walls of the grooves through bolts, a plurality of equidistant suckers 1503 are arranged on the outer sides of the built-in blocks 1501, the built-in blocks 1501 are connected through pipelines, a rectangular hole is formed in the placing base 13, an airflow control valve 1504 is connected in the rectangular hole through a bolt, an output port of the airflow control valve 1504 is connected with an air pipe through a flange, the air pipe is connected with the pipelines through bolts, the rubber layer 1502 is located in the arc-shaped placing groove on the placing base 13, symmetrical irregular grooves are formed in the inner walls on the two sides of the arc-shaped placing groove, side pressure blocks 1505 are connected in a sliding manner inside the irregular grooves, and a retention spring 1506 is connected between the side pressure blocks 1505 and the inner walls of the irregular grooves through bolts.

Specifically, the vaginal dilator is placed in an arc-shaped placing groove on the placing seat 13, the airflow control valve 1504 is started in the pressing process, and the suction disc 1503 contacts with the outer wall of the vaginal dilator and is gradually attached to the outer wall of the vaginal dilator until the suction disc 1503 is completely attached to the outer wall of the vaginal dilator; when the vaginal dilator is taken out after detection, the suction cup 1503 is separated from the vaginal dilator through the airflow control valve 1504.

In a specific application scene, the retention component is suitable for a fixing link before the detection of the vaginal dilator, namely, the retention component 15 is attached to the outer wall of the vaginal dilator in a sucking mode of a sucking disc 1503 for sucking and fixing, and the traditional clamping is replaced by sucking and fixing, so that the phenomenon that the external part of the vaginal dilator is in an arc shape to cause incomplete fixing, and the vaginal dilator moves or falls off in the detection process to influence the accuracy of the detection result is avoided; the rubber layer 1502 can avoid pressing and excessively contacting the external wall of the vaginal dilator with the placing base 13 in the sucking process of the sucking disc 1503, so that the external wall of the vaginal dilator is damaged.

It should be noted that, during the placement of the vaginal speculum on the arc-shaped placement groove, the side pressure blocks 1505 on both sides will press the retention spring 1506 due to the pressure exerted by the external wall of the vaginal speculum, so that after the vaginal speculum is placed, the elastic property of the retention spring 1506 is utilized to provide the side clamping of the side pressure blocks 1505 to the vaginal dilator, thereby further improving the stability of the vaginal dilator after placement.

Referring to fig. 1, 2, 7 and 8, in a preferred embodiment, a supporting frame 16 is connected to the upper side of the detection table 1 through a bolt, a detection frame 17 is arranged on one side of the supporting frame 16 close to the rail seat 2, a side supporting boss 18 is connected to the detection frame 17 through a bolt, a sliding seat is arranged on the side supporting boss 18, a sliding groove is formed in the supporting frame 16, the side supporting boss 18 is connected to the supporting frame 16 in a sliding manner, a supporting rod 19 is connected to one side of the detection frame 17 far away from the rail seat 2 through a bolt, a round hole is formed in the supporting frame 16, the supporting rod 19 is connected to the round hole in the supporting frame 16 in a sliding manner, a mounting groove is formed in the detection frame 17, a second hydraulic rod 20 is connected to the inside of the mounting groove through a bolt, and an output end of the second hydraulic rod 20 is connected to the outer wall of the detection frame 17 through a bolt; the detection frame 17 is provided with a pressure-resistant detection assembly 21, the pressure-resistant detection assembly 21 is positioned above the rail seat 2, the detection frame 17 is provided with a deflection angle detection assembly 22, and the deflection angle detection assembly 22 is positioned on one side of the base 11.

Specifically, after the vaginal dilator is placed, the second hydraulic rod 20 is extended to push the detection frame 17 to move towards the placing seat 13 until the pressure-resistant detection assembly 21 and the deflection angle detection assembly 22 are both at the detection position.

Referring to fig. 7 and 8, in a preferred embodiment, the pressure-resistant detection assembly 21 includes a contact block 2101 and a second pressure sensor 2102, a rectangular installation slot is opened at the top end of a detection frame 17, the second pressure sensor 2102 is connected with the rectangular installation slot by a bolt, a middle layer plate 2103 is arranged below the second pressure sensor 2102, the middle layer plate 2103 is connected with the detection frame 17 by a bolt, two circular holes are opened on the middle layer plate 2103, the contact block 2101 is positioned below the middle layer plate 2103, an auxiliary roller 2104 is arranged on the contact block 2101, an ejector rod 2105 is connected to the upper side of the contact block 2101 by a bolt, the top end of the ejector rod 2105 penetrates through one circular hole on the middle layer plate 2103 and is connected with an ejector block 2106 by a bolt, a detection spring 2108 is connected to the upper side of the ejector block 2106 by a bolt, the other end of the detection spring 2108 is connected with the input end of the second pressure sensor 2102 by a bolt, a side-attached limiting rod 2107 is connected to the top plate by a bolt, the lower end of the side-attached limiting rod 2107 penetrates through another circular hole on the middle layer plate 2103, and the upper end of the detection frame 2107 is connected with the circular hole 17 in a sliding manner.

Specifically, the vaginal dilator is in the detection position of withstand voltage detection assembly 21 (contact piece 2101 is located directly over the vaginal dilator, auxiliary drum 2104 contacts with the upper side outer wall of the vaginal dilator), the vaginal dilator slowly opens, contact piece 2101 is moved up after the atress, ejector pin 2105 moves up and drives ejector block 2106 to extrude detection spring 2108, detection spring 2108 takes place elastic deformation and applies pressure to the input of second pressure sensor 2102, second pressure sensor 2102 feedback pressure data.

In a specific application scenario, the pressure-resistant detection assembly 21 is suitable for a step of detecting the pressure-resistant degree of the external wall of the vaginal dilator after the vaginal dilator is opened, that is, the actual pressure-resistant numerical value of the opened vaginal dilator can be obtained by using the pressure-resistant detection assembly 21, and the detection spring 2108 can be adjusted and replaced according to actual requirements, so that the pressure-resistant degree data of the vaginal dilator can be further obtained, and the accuracy of the detection result of the pressure-resistant degree of the vaginal dilator is improved; the auxiliary roller 2104 is disposed on the contact block 2101, so that the smoothness of the pressure-resistance detection process can be improved, and the auxiliary roller 2104 can roll on the outer wall of the vaginal dilator during the upward movement of the vaginal dilator with the increase of the opening degree of the vaginal dilator.

Referring to fig. 7 and 8, in a preferred embodiment, the deflection angle detection assembly 22 includes a resting plate 2201, the resting plate 2201 is connected to the detection frame 17 through a bolt, an angle disc 2202 is arranged on the resting plate 2201, a rectangular groove is formed in the resting plate 2201, a rotating rod is rotatably connected between inner walls of two sides of the rectangular groove through a bearing, a deflection plate 2203 is connected to the outer portion of the rotating rod through a bolt, the deflection plate 2203 is located above the contact block 2101, a round hole is formed in the angle disc 2202, a short rod is rotatably connected to the inner portion of the round hole through a bearing, one end of the short rod is connected to the rotating rod through a bolt, and a pointer 2204 is connected to the other end of the rotating rod through a bolt.

Specifically, the vaginal dilator is at the detection position of the deflection angle assembly (the lower blade of the vaginal dilator is positioned on the resting plate 2201, when the vaginal dilator is not opened, the deflection plate 2203 is in a horizontal state, the pointer 2204 points to a zero graduation line), after the vaginal dilator is opened, the contact block 2101 moves upwards initially to drive the deflection plate 2203 to deflect, the pointer 2204 rotates along with the deflection of the deflection plate 2203, and when the opening of the vaginal dilator is too large, the upper blade of the vaginal dilator drives the deflection plate 2203 to deflect.

In a specific application scenario, the deflection angle detection assembly 22 is suitable for an opening degree detection scenario of the vaginal dilator, that is, the deflection angle detection assembly 22 uses the deflection plate 2203 to synchronously deflect along with the upper blade of the vaginal dilator, so as to drive the pointer 2204 to rotate, obtain an actual deflection angle by observing dial data, and more accurately detect actual angle deflection degrees of the vaginal dilator under different pressures and openings by using a data feedback mode.

Referring to fig. 1 and 2, in a preferred embodiment, a flare driving assembly 23 is disposed above the inspection station 1; flaring drive assembly 23 includes two mount tables 2301 and upset piece 2302, two mount tables 2301 all pass through bolted connection with the upside of examining test table 1, upset piece 2302 is located between two mount tables 2301, the round hole has been seted up on upset piece 2302, there is axostylus axostyle 2304 through bolted connection in the inside of round hole, axostylus axostyle 2304 rotates through the bearing between two mount tables 2301 to be connected, one side of a mount table 2301 is provided with second reversal motor 2305, there is the pivot second reversal motor 2305's output through the coupling joint, pass through bolted connection between the other end of pivot and the axostylus axostyle 2304, and be provided with two lugs on the upset piece 2302, it exerts pressure cylinder 2303 to rotate through the bearing between two lugs.

Specifically, second reversal motor 2305 drives axostylus axostyle 2304 and rotates, and upset piece 2302 overturns until the cylinder 2303 of exerting pressure contacts with the press surface that expands the vulva ware, and in the detection process, second reversal motor 2305 continuously drives upset piece 2302 and deflects to expand the vulva ware and be pressed and open.

In specific application scene, flaring drive assembly 23 is applicable to and makes its link of opening to pressing down of expanding the external genitals among the testing process, utilizes flaring drive assembly 23 can replace artifical manual pressing to expand the external genitals to make expand external genitals and open process more even, improve the holistic degree of automation of testing link.

The working principle is as follows: during use, the vaginal dilator is placed in the arc-shaped placing groove on the placing seat 13, the airflow control valve 1504 is started in the pressing process, the suction disc 1503 contacts with the outer wall of the vaginal dilator and is gradually attached until the suction disc 1503 is completely attached to the outer wall of the vaginal dilator, the second hydraulic rod 20 extends to push the detection frame 17 to move towards the placing seat 13 until the pressure-resistant detection assembly 21 and the deflection angle detection assembly 22 are both positioned at the detection position, the second reversing motor 2305 drives the shaft lever 2304 to rotate, the turnover block 2302 turns over until the pressure-applying roller 2303 contacts with the pressing surface of the vaginal dilator, and in the detection process, the second reversing motor 2305 continuously drives the turnover block 2302 to deflect, so that the vaginal dilator is pressed to be opened;

the negative expander is located at the detection position of the pressure-resistant detection assembly 21 (the contact block 2101 is located right above the negative expander, the auxiliary roller 2104 is in contact with the outer wall of the upper side of the negative expander), the negative expander is slowly opened, the contact block 2101 moves upwards after being stressed, the push rod 2105 moves upwards to drive the push block 2106 to extrude the detection spring 2108, the detection spring 2108 generates elastic deformation to apply pressure to the input end of the second pressure sensor 2102, and the second pressure sensor 2102 feeds back pressure data;

the vaginal dilator is in the detection position of the deflection angle assembly (the lower blade of the vaginal dilator is positioned on the resting plate 2201, when the vaginal dilator is not opened, the deflection plate 2203 is in the horizontal state, the pointer 2204 points to the zero graduation line), after the vaginal dilator is opened, the contact block 2101 moves up initially to drive the deflection plate 2203 to deflect, the pointer 2204 rotates along with the deflection of the deflection plate 2203, when the opening of the vaginal dilator is too large, the upper blade of the vaginal dilator drives the deflection plate 2203 to deflect;

subsequently, each part is reset, the base 11 is moved to the position of the side-attached support 3 by the electric sliding rail 10, the first reversing motor 14 drives the placing seat 13 to rotate by 90 degrees, the position of the vaginal dilator is kept fixed, then the first hydraulic rod 9 contracts to drive the supporting block 7 and the vaginal opening simulator 401 to move transversely, the smoothness detection assembly 4 approaches the vaginal dilator, the vaginal dilator enters the vaginal opening simulator 401, along with the increase of the insertion distance, the silica gel bag layer 403 on the movable inner block 402 can be contacted with the outer walls of the upper side and the lower side of the vaginal dilator, the using environment of the vaginal dilator in the actual using process is simulated, because the silica gel bag layer 403 is in a contact state with the outer wall of the vaginal dilator, along with the continuous insertion, the silica gel bag layer is stressed to drive the movable inner block 402 to move, the functional spring 406 generates elastic deformation to press the first pressure sensor 405 through the pressing sheet 407, the value fed back by the first pressure sensor 405 is used for obtaining the actual friction coefficient of the outer wall of the vaginal dilator, and thus obtaining the smoothness of the outer wall (when the smoothness specification of the outer wall of the vaginal dilator, the first pressure sensor 403 is not in accordance with the higher feedback value).

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. The inspection equipment for the disposable sterile vaginal dilator comprises an inspection table (1), a track seat (2) and a side attached support (3), and is characterized in that the inspection table (1) is fixedly connected with the track seat (2), the track seat (2) is fixedly connected with the side attached support (3), a smoothness detection assembly (4) is arranged above the side attached support (3), the smoothness detection assembly (4) comprises a vaginal opening simulator (401) and two movable inner blocks (402), two rectangular grooves which are symmetrical up and down are formed in the vaginal opening simulator (401), the two movable inner blocks (402) are respectively positioned in the two rectangular grooves and are symmetrically distributed, a silica gel capsule layer (403) is arranged on one opposite side of each movable inner block (402), symmetrical round holes are formed in each of the two movable inner blocks (402), a sliding rod (404) is movably connected in each round hole, two ends of each sliding rod (404) are respectively and fixedly connected with the inner wall of the rectangular groove of the vaginal opening simulator (401), a first movable inner block (402) is provided with a pressure sensor (405), and a plurality of pressure sensors (405) are respectively fixedly connected with one side of the vaginal opening simulator (402), the other ends of the functional springs (406) positioned on the same movable inner block (402) are fixedly connected with the same pressing sheet (407), and the pressing sheet (407) is fixedly connected with the input end of the first pressure sensor (405);

a supporting frame (16) is fixedly connected to the upper side of the detection table (1), a detection frame (17) is arranged on one side, close to the rail seat (2), of the supporting frame (16), a side supporting boss (18) is fixedly connected to the detection frame (17), a sliding seat is arranged on the side supporting boss (18), a sliding groove is formed in the supporting frame (16), the side supporting boss (18) is movably connected with the supporting frame (16), a supporting rod (19) is fixedly connected to one side, far away from the rail seat (2), of the detection frame (17), a round hole is formed in the supporting frame (16), the supporting rod (19) is movably connected with the round hole in the supporting frame (16), a mounting groove is formed in the detection frame (17), a second hydraulic rod (20) is fixedly connected to the inside of the mounting groove, and the output end of the second hydraulic rod (20) is fixedly connected with the outer wall of the detection frame (17);

a pressure-resistant detection assembly (21) is arranged on the detection frame (17), the pressure-resistant detection assembly (21) is positioned above the track base (2), a deflection angle detection assembly (22) is arranged on the detection frame (17), and the deflection angle detection assembly (22) is positioned on one side of the base (11);

the pressure resistance detection assembly (21) comprises a contact block (2101) and a second pressure sensor (2102), a rectangular mounting groove is formed in the top end of a detection frame (17), the second pressure sensor (2102) is fixedly connected with the rectangular mounting groove, a middle layer plate (2103) is arranged below the second pressure sensor (2102), the middle layer plate (2103) is fixedly connected with the detection frame (17), two round holes are formed in the middle layer plate (2103), the contact block (2101) is located below the middle layer plate (2103), an auxiliary roller (2104) is arranged on the contact block (2101), a top rod (2105) is fixedly connected to the upper side of the contact block (2101), the top end of the top rod (2105) penetrates through one round hole in the middle layer plate (2103) and is fixedly connected with a top block (2106), a detection spring (2108) is fixedly connected to the upper side of the top block (2106), the other end of the detection spring (2108) is fixedly connected with the input end of the second pressure sensor (2102), a limit auxiliary rod (2107) is fixedly connected to the upper end of the limit rod (2107), and the other limit rod (2107) penetrates through the round hole in the middle layer plate (2103) and is connected with the upper end of the detection frame (17);

the deflection angle detection assembly (22) comprises a placing plate (2201), the placing plate (2201) is fixedly connected with a detection frame (17), an angle scale (2202) is arranged on the placing plate (2201), a rectangular groove is formed in the placing plate (2201), a rotating rod is movably connected between the inner walls of two sides of the rectangular groove, the outer portion of the rotating rod is fixedly connected with a deflection plate (2203), the deflection plate (2203) is located above a contact block (2101), a round hole is formed in the angle scale (2202), a short rod is movably connected inside the round hole, one end of the short rod is fixedly connected with the rotating rod, and a pointer (2204) is fixedly connected to the other end of the rotating rod.

2. The examination device for the disposable sterile vaginal dilator according to claim 1, wherein the side-attached support (3) is fixedly connected with a central seat (5) and a tailstock (6), the lower side of the vaginal opening simulator (401) is fixedly connected with a support block (7), the support block (7) is located between the central seat (5) and the tailstock (6), the support block (7) is provided with a circular hole, the inside of the circular hole is movably connected with a rail rod (8), two ends of the rail rod (8) are respectively fixedly connected with the outer walls of the central seat (5) and the tailstock (6), the central seat (5) is provided with an installation groove, the inside of the installation groove is fixedly connected with a first hydraulic rod (9), and the other end of the first hydraulic rod (9) is fixedly connected with the support block (7).

3. The inspection equipment of the disposable sterile vaginal dilator according to claim 1, characterized in that a sliding groove is formed in the track seat (2), an electric sliding rail (10) is arranged inside the sliding groove, a base (11) is movably connected inside the sliding groove, an annular support (12) is arranged on the base (11), a placing seat (13) is rotatably connected on the annular support (12), a first reversing motor (14) is fixedly connected to the lower end of the base (11), the output end of the first reversing motor (14) is connected with a short shaft through a coupling, the other end of the short shaft is fixedly connected with the lower side of the placing seat (13), an arc-shaped placing groove is formed in the placing seat (13), and a retention component (15) is arranged inside the arc-shaped placing groove.

4. The inspection equipment of a disposable sterile vaginal dilator according to claim 3, characterized in that the retention component (15) comprises a plurality of built-in blocks (1501) and a rubber layer (1502), a plurality of symmetrical grooves are formed inside the arc-shaped placement groove on the placement seat (13), the built-in blocks (1501) are respectively and fixedly connected with the inner walls of the grooves, a plurality of equidistant sucking discs (1503) are arranged on the outer sides of the built-in blocks (1501), the built-in blocks (1501) are connected through pipelines, a rectangular hole is formed in the placement seat (13), an airflow control valve (1504) is fixedly connected inside the rectangular hole, an output port of the airflow control valve (1504) is connected with an air delivery pipe through a flange, the air delivery pipe is fixedly connected with the pipelines, the rubber layer (1502) is located inside the arc-shaped placement groove on the placement seat (13), symmetrical irregular grooves are formed in the inner walls of the two sides of the arc-shaped placement groove, a side pressure block (1505) is movably connected inside the irregular groove, and a retention spring (1506) is fixedly connected between the side pressure block (1505) and the inner wall of the irregular groove.

5. A single use sterile vaginal dilator test device according to claim 1, characterised in that a flared drive assembly (23) is provided above the test station (1).

6. The examination equipment of a disposable sterile vaginal dilator according to claim 5, characterized in that the flaring driving assembly (23) comprises two installation tables (2301) and a turning block (2302), the two installation tables (2301) are fixedly connected with the upper side of the examination table (1), the turning block (2302) is located between the two installation tables (2301), a round hole is formed in the turning block (2302), a shaft lever (2304) is fixedly connected inside the round hole, the shaft lever (2304) is movably connected between the two installation tables (2301), one side of one installation table (2301) is provided with a second reversing motor (2305), the output end of the second reversing motor (2305) is connected with a rotating shaft through a coupler, the other end of the rotating shaft is fixedly connected with the shaft lever (2304), the turning block (2302) is provided with two convex blocks, and a pressure applying roller (2303) is movably connected between the two convex blocks.

Images