CN116519451A - Double-sided processing cap production detection device - Google Patents

Abstract

The utility model belongs to the technical field of cap detection, and particularly relates to a double-sided processing cap production detection device which comprises a detection bottom plate, a clamping part, a rotary friction part and a clamping part; the clamping component is of a rotary columnar structure, the cap is supported in the rotary columnar structure of the clamping component, pressure test pieces are symmetrically arranged on the outer side face of the upper portion of the columnar structure of the clamping component, and an annular sleeve for supporting the cap peak is arranged on the lower portion of the clamping component. The utility model can stably lock the cap with the cap peak, and drive the cap to rotate when the cap is subjected to size detection, so that the position of the cap is corrected, and the accuracy of the cap size detection is improved.

Description

Double-sided processing cap production detection device

Technical Field

The utility model belongs to the technical field of cap detection, and particularly relates to a double-sided processing cap production detection device.

Background

The double-sided processing hat is one of knitted hats, and the hat can be dipped and dyed into different colors according to market demands during processing, so that the size and the tightness of the hat are detected after the hat is processed, and the friction color fastness of the hat is also detected.

When the cap is used for size detection, the cap is sleeved on the detection die, whether the cap is in a specified pressure or not is tested according to the pressure sensor of the die, the color fastness detection of the cap is generally carried out by manufacturing raw materials of products into a directional test piece, and the cap has the hidden danger that the test piece falls off when the color fastness detection is carried out.

Aiming at the problems, the utility model patent with the publication number of CN201922384427.7 discloses a friction color fastness testing machine, and the friction color fastness testing machine utilizes the mutual coordination between a fixing device and a locking device to fix a sample on a test piece table, so that the sample is prevented from being separated from the test piece table in the detection process, and the technical problems are solved.

In addition, the cap needs to be detected separately when the cap is detected at the same time, so that the detection efficiency of the cap is lower; when the cap is subjected to size detection, the size detection accuracy is lower due to the deviation of the cap position; when the test cloth and the cap detect the friction color fastness, the pressure of the test cloth cannot be quickly adjusted, and the problem that the detection precision of the friction color fastness of the cap is low can be solved by adopting a single rotation mode.

Disclosure of Invention

In order to solve the problems, the technical scheme provided by the utility model is as follows: the utility model provides a two-sided processing cap production detection device, includes detects the bottom plate, installs the clamping part in detecting bottom plate middle part position, sets up in the clamping part outside and installs the rotatory friction part on detecting the bottom plate, is provided with the holder that carries out the centre gripping to the test cloth on the rotatory friction part, the clamping part is the gyration columnar structure, and the gyration columnar structure of clamping part supplies the cap to carry out the internal support, and the upper portion lateral surface symmetry of the columnar structure of clamping part is provided with pressure test piece, and the lower part of clamping part is provided with the annular cover that supports the brim of a hat.

The rotary friction part comprises a rotary part which is arranged at the top of the detection bottom plate and rotates around the clamping part, a rotating vertical plate is arranged at the top of the rotary part, a position adjusting plate is arranged at one side, close to the clamping part, of the upper part of the rotating vertical plate, the position adjusting plate is connected to the rotating vertical plate through the position adjusting part, and one side, close to the clamping part, of the position adjusting plate is connected with the clamping part through an elastic part;

the side surfaces of the clamping parts corresponding to the clamping parts are arc-shaped surfaces matched with the clamping parts, the test cloth is connected with the arc-shaped surfaces of the clamping parts through the magic tape, and the two sides of the test cloth are locked through the buckles arranged at the two ends of the clamping parts;

the upper part of the vertical plate is provided with a telescopic adjusting structure; the annular sleeve comprises a sliding annular frame which is arranged on the outer side of the clamping part in a sliding manner, an annular plate is arranged on the sliding annular frame, and clamping pieces which clamp and lock the outer end of the cap peak are arranged at the outer end of the annular plate.

Further, the lower extreme of slip annular frame is provided with the arc extension board, runs through on the arc extension board and is provided with elasticity and wears to insert the post, and the lower extreme lateral surface of clamping part evenly is provided with the jack along its vertical direction.

Further, the clamping piece comprises a clamping support plate, the clamping support plate is connected with a clamping plate through torsion springs in a rotating mode, and clamping teeth are arranged at the bottoms of the clamping plate.

Further, the torsional spring that clamping board connects controls it to keep opening the state, and the both sides that just lie in clamping board on the clamping board are provided with spacing card depression bar, and spacing card depression bar passes through the torsional spring and rotates installs on the clamping board, and spacing card depression bar makes it have the potential energy that removes to clamping board under the effect of torsional spring.

Further, the annular plate comprises an inner annular plate which is vertically and slidably connected to the outer side of the sliding annular frame and an outer annular plate which is rotatably connected to the outer side of the inner annular plate, the inner annular plate is connected with the lower end of the sliding annular frame through a spring, a pull rod is rotatably installed at the bottom of the inner annular plate, the lower end of the pull rod penetrates through the sliding annular frame, and a sliding block and a sliding groove which are in sliding fit with each other are arranged between the outer side of the pull rod and the sliding annular frame.

Further, a track support plate is arranged at the bottom of the outer ring plate, and a track guide rod and a track groove are respectively arranged between the side face of the track support plate and the outer side face of the clamping component.

Further, the elastic piece comprises a scale guide post and a pressure spring, one end of the elastic piece is fixedly arranged on the clamping piece, the other end of the elastic piece penetrates through the position adjusting plate, and a pointer is arranged on the position adjusting plate corresponding to the scale position of the scale guide post.

Further, the middle part of the clamping part is provided with a circular groove, the detection bottom plate is provided with a boss, the clamping part is rotationally connected to the boss of the detection bottom plate through a torsion spring, the lower end of the clamping part is provided with a rotation following part, and the rotation following vertical plate is provided with a deflector rod for circularly stirring along with the rotation following part.

Further, the follow-up part is including setting up the gyration groove in clamping part bottom, and the cross-section in gyration groove is L type structure, and the T type post is installed through reset spring in the gyration groove, and the lateral wall of detecting the boss of bottom plate is provided with the groove of stepping down, and one side that the groove of stepping down corresponds the rotation direction of rotatory friction part is provided with the chute, and when the driving lever drove T type post and removes the position of stepping down the groove, T type post is retracted under reset spring's effect for T type post and driving lever separation, clamping part resumes initial position under torsion spring's effect.

Further, the shift lever can be used for adjusting the position on the follow-up rotating vertical plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model can stably lock the cap with the cap peak, and drive the cap to rotate when the cap is subjected to size detection, so that the position of the cap is corrected, and the accuracy of the cap size detection is improved.

2. The cap peak is placed on the annular plate, the outer side of the cap peak is locked through the clamping piece, the initial state of the clamping plate is in an open state, the cap peak is locked only by pressing the clamping plate, the position of the cap peak is limited by the limiting clamping rod after the cap peak is locked by the clamping plate, the clamping plate is kept in the clamping state of the cap peak, and the cap peak is suitable for caps with different sleeving depths through adjusting the height of the sliding annular frame.

3. According to the utility model, the pull rod is pulled downwards to drive the inner ring plate to move downwards, at the moment, the springs at the bottom of the inner ring plate are matched and contracted, and meanwhile, the track guide rod at the lower side of the outer ring plate can rotate under the guiding action of the track groove, so that the outer ring plate drives the cap to rotate, the cap is positioned rightly, and the accuracy of detecting the cap size is further improved.

4. The utility model adopts the scale guide post with scales and the pressure spring to measure, and the pressure between the test cloth and the cap is obtained through the telescopic length of the scale guide post.

5. When the cap is subjected to color fastness detection, the friction cloth and the cap perform forward relative movement, when the deflector rod rotates along with the rotating vertical plate, the deflector rod is contacted with the outer end of the T-shaped column, so that the cap on the clamping part rotates synchronously, when the T-shaped column rotates to the position of the abdicating groove, the T-shaped column contracts under the action of the reset spring, the T-shaped column is separated from the deflector rod, and the cap rotates to the initial position under the action of the reset force of the torsion spring on the clamping part, so that the reverse relative rotation of the test cloth and the cap is realized.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of a first view angle structure of a double-sided manufactured hat production inspection device.

Fig. 2 is a schematic view of a second view angle structure of the double-sided processing cap production inspection device.

Fig. 3 is a first schematic view of the structure of the clamping member in the double-sided processing cap production inspection device.

Fig. 4 is a plan view of a first view between the detection base plate and the clamping member in the double-sided processing hat production detection device.

Fig. 5 is a cross-sectional view taken along A-A in fig. 4.

Fig. 6 is a plan view of a second view between the detection base plate and the clamping member in the double-sided processing hat production detection device.

FIG. 7 is a schematic view of the structure between the rotary friction member and the holder in the double-sided processing cap production inspection device.

FIG. 8 is a schematic view of the structure of the object to be inspected by the double-sided processing cap production inspection device.

In the figure: 1. detecting a bottom plate; 11. a relief groove; 2. a clamping member; 21. a pressure test piece; 22. a sliding ring frame; 221. an arc-shaped extension plate; 222. elastically penetrating the inserted column; 223. a jack; 23. an annular plate; 231. an inner ring plate; 232. an outer ring plate; 233. a pull rod; 234. a sliding block; 235. a track support plate; 236. a track guide rod; 24. a clamping member; 241. a fixing support plate; 242. clamping plates; 243. a limit clamping lever; 25. a track groove; 3. a rotary friction member; 31. a rotating member; 32. a vertical plate is rotated along with the rotation; 33. a position adjusting plate; 34. a position adjusting member; 35. an elastic member; 351. a scale guide post; 352. a pressure spring; 36. a deflector rod; 4. a clamping member; 5. a rotation following part; 51. a rotary groove; 52. a return spring; 53. t-shaped column.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1 and 8, a double-sided processing cap production detection device comprises a detection bottom plate 1, a clamping part 2 arranged at the middle position of the detection bottom plate 1, and a rotary friction part 3 arranged outside the clamping part 2 and arranged on the detection bottom plate 1, wherein a clamping part 4 for clamping a test piece is arranged on the rotary friction part 3, the clamping part 2 is of a cylindrical structure, the upper end of the clamping part 2 is of a hemispherical structure, the rotary columnar structure of the clamping part 2 is used for internally supporting a cap, the structure of the clamping part 2 can increase the matching degree of the clamping part and the cap, a pressure test piece 21 is symmetrically arranged on the outer side surface of the upper part of the columnar structure of the clamping part 2, an annular sleeve for supporting the cap peak is arranged at the lower part of the clamping part 2, the cap peak with the cap peak can be sleeved outside the clamping part 2, the cap peak with the cap peak can be locked through the clamping part 2, at the moment, the pressure test piece 21 on the clamping part 2 can be used for detecting the size of the cap, then the test piece 4 can be clamped, the cap can be driven by the rotary friction part 3 to rotate, the color of the cap can be detected, and finally the color of the cap can be tested, and the color can be changed, and the color can be detected.

It should be noted that, in this embodiment, the pressure test piece 21 may be set as an existing pressure sensor, and the pressure of the cap on the pressure sensor may be obtained by the pressure sensor, so as to obtain whether the size and tightness of the cap are within the specified range, and in addition, by setting a plurality of pressure sensors, the effect of detecting the size of the cap may be increased by averaging.

As shown in fig. 1 and 2, the annular sleeve comprises a sliding annular frame 22 arranged on the outer side of the clamping part 2 in a sliding manner, the section of the sliding annular frame 22 is of an L-shaped structure, an annular plate 23 is arranged on the sliding annular frame 22, clamping pieces 24 for clamping and locking the outer end of the cap peak are arranged at the outer end of the annular plate 23, and when the cap is sleeved on the outer side of the clamping part 2, the cap peak is placed on the annular plate 23, and the outer side of the cap peak is locked in position through the clamping pieces 24, so that the cap is prevented from being displaced when the color fastness detection is carried out.

As shown in fig. 2, in order to be suitable for caps with different sleeving depths, the utility model can adjust the position of the sliding annular frame 22 up and down, the lower end of the sliding annular frame 22 is provided with an arc-shaped extension plate 221, the arc-shaped extension plate 221 is penetrated and provided with elastic penetrating posts 222, the outer side surface of the lower end of the clamping component 2 is uniformly provided with insertion holes 223 along the vertical direction, and the elastic penetrating posts 222 are pulled outwards to adjust the position of the sliding annular frame 22 up and down, so that the elastic penetrating posts 222 are penetrated in the insertion holes 223 with proper height, and the height of the sliding annular frame 22 is adjusted.

As shown in fig. 3, in this embodiment, the clamping member 24 locks by adopting an elastic clamping manner, and this locking manner has the advantage of simple and quick locking, where the clamping member 24 includes a clamping support plate 241, and the clamping support plate 241 is rotatably connected with a clamping plate 242 by a torsion spring, and the bottom of the clamping plate 242 is provided with clamping teeth.

As shown in fig. 3, in order to increase the efficiency of locking the cap peak, the torsion spring connected to the clamping plate 242 controls the cap peak to keep an open state, the limiting clamping rods 243 are arranged on the clamping support plate 241 and positioned on two sides of the clamping plate 242, the limiting clamping rods 243 are rotatably arranged on the clamping support plate 241 through the torsion spring, the limiting clamping rods 243 have potential energy moving towards the clamping plate 242 under the action of the torsion spring, the initial state of the clamping plate 242 is an open state, at the moment, only the clamping plate 242 needs to be pressed to lock the cap peak, the clamping plate 242 locks the cap peak, and then the limiting clamping rods 243 limit the position of the cap peak, so that the clamping plate 242 keeps the clamping state of the cap peak, and after the detection of the friction color fastness of the cap is finished, the lower end of the limiting clamping rods 243 is pressed, so that the clamping plate 242 returns to the initial state.

As shown in fig. 1, 3, 4 and 6, since the cap is sleeved outside the clamping member 2 and there is a possibility of deviation in its position, so that the pressure values tested by the pressure test pieces 21 at different positions deviate greatly, and the test results certainly deviate greatly, so that the cap is rotated to align the position of the cap, thereby increasing the accuracy of detecting the size of the cap, the annular plate 23 includes an inner annular plate 231 vertically slidably connected to the outside of the sliding annular frame 22 and an outer annular plate 232 rotatably connected to the outside of the inner annular plate 231, the inner annular plate 231 is connected to the lower end of the sliding annular frame 22 by a spring, a pull rod 233 is rotatably installed at the bottom of the inner annular plate 231, the lower end of the pull rod 233 penetrates the sliding annular frame 22, and a sliding block 234 and a sliding groove which are slidably fitted with each other are provided between the outside of the pull rod 233 and the sliding annular frame 22; the bottom of outer crown 232 is provided with track extension board 235, be provided with track guide 236 and track groove 25 respectively between the side of track extension board 235 and the lateral surface of clamping part 2, after the cap's brim of a hat locking is accomplished, through pulling pull rod 233 downwards and then drive interior crown 231 and move down, the spring of interior crown 231 bottom is cooperated shrink this moment, the track guide 236 of outer crown 232 downside can rotate under the direction effect of track groove 25 simultaneously, make outer crown 232 drive the cap rotate, after the slider 234 on the pull rod 233 moves to the downside of slip ring frame 22, rotate the pull rod 233, make slider 234 on the pull rod 233 misplace with the sliding groove on the slip ring frame 22, and then the height of interior crown 231 obtains the location, make the cap can be stable carry out the detection of friction colour fastness.

It should be noted that, in this embodiment, the spring on the inner ring plate 231 is a compression spring, and has a certain tensile force, so that the track guide rod 236 abuts against the upper end of the track groove 25 in the initial state, the outer ring plate 232 will not rotate at will under the action of no external force, and the track of the track groove 25 is V-shaped in this embodiment, thereby realizing the reciprocating rotation of the cap and further increasing the position correction effect of the cap.

As shown in fig. 1 and 7, the rotary friction part 3 includes a rotary member 31 which is disposed at the top of the detection base plate 1 and rotates around the clamping part 2, in this embodiment, the rotary member 31 is an annular electric slider, a rotation-following vertical plate 32 is mounted at the top of the rotary member 31, and a telescopic adjustment structure is provided at the upper part of the rotation-following vertical plate 32; a position adjusting plate 33 is arranged on one side, close to the clamping part 2, of the upper part of the rotating vertical plate 32, the position adjusting plate 33 is connected to the rotating vertical plate 32 through a position adjusting piece 34, one side, close to the clamping part 2, of the position adjusting plate 33 is connected with the clamping piece 4 through an elastic piece 35, the side surface, corresponding to the clamping part 2, of the clamping piece 4 is an arc-shaped surface matched with the clamping piece, the test cloth is connected with the arc-shaped surface of the clamping piece 4 through a magic tape, and two sides of the test cloth are locked through buckles arranged at two ends of the clamping piece 4; the position of the position adjusting plate 33 is adjusted through the position adjusting piece 34, the clamping piece 4 is attached to the outer side of the hat through the elastic piece 35 by the position adjusting plate 33, the pressure between the clamping piece 4 and the hat is adjusted through continuously adjusting the position of the position adjusting plate 33, so that the hat color fastness detecting device is suitable for color fastness detection of hats requiring different friction forces, and the telescopic adjusting structure of the rotating vertical plate 32 can drive the clamping piece 4 to carry out height adjustment, so that the color fastness detecting device can carry out color fastness detection of hats at different heights.

In this embodiment, the position adjusting member 34 adjusts the position of the position adjusting plate 33 by using a stud, the stud is screwed on the upper end of the rotating vertical plate 32, the end of the stud is rotatably connected to the side surface of the position adjusting plate 33, and the upper and lower ends of the position adjusting plate 33 are provided with limit posts which slide through the rotating vertical plate 32.

As shown in fig. 7, in order to intuitively see the pressure between the test cloth and the cap, the embodiment adopts a scale guide post with scales and a pressure spring to measure, and the pressure between the test cloth and the cap is obtained through the telescopic length of the scale guide post; the elastic member 35 comprises a scale guide post 351 and a pressure spring 352, one end of the elastic member 35 is fixedly arranged on the clamping member 4, the other end of the elastic member 35 penetrates through the position adjusting plate 33, a pointer is arranged at the position of the position adjusting plate 33 corresponding to the scale of the scale guide post 351, when the test cloth is propped against the side face of the cap, the position adjusting member 34 controls the position adjusting plate 33 to carry out position adjustment, so that the scale guide post 351 can stretch and retract on the position adjusting plate 33, and the pressure between the test cloth and the cap is determined by pointing the pointer to different positions of the scale guide post 351.

Through the scheme, the cap can be locked and positioned, the size and the tightness of the cap are detected, and then the cap is subjected to the test of friction color fastness through the pressure-adjustable rotary friction part 3.

Compared with the traditional one-way friction test of the color fastness of the hat, the two-way friction between the hat and the test cloth is realized through the following scheme, so that the detection efficiency and the detection accuracy of the color fastness of the hat are improved.

As shown in fig. 1, 4 and 5, a circular groove is formed in the middle of the clamping component 2, a boss is arranged on the detection bottom plate 1, the clamping component 2 is rotationally connected to the boss of the detection bottom plate 1 through a torsion spring, a rotation following part 5 is arranged at the lower end of the clamping component 2, and a deflector rod 36 for circularly stirring the rotation following part 5 is arranged on the rotation following vertical plate 32.

As shown in fig. 1, 4 and 5, the rotation following part 5 comprises a rotation groove 51 arranged at the bottom of the clamping part 2, the section of the rotation groove 51 is of an L-shaped structure, a T-shaped column 53 is arranged in the rotation groove 51 through a return spring 52, a yielding groove 11 is arranged on the side wall of a boss of the detection bottom plate 1, a chute is arranged on one side of the yielding groove 11 corresponding to the rotation direction of the rotation friction part 3, when the deflector 36 drives the T-shaped column 53 to move to the yielding groove 11, the T-shaped column 53 retracts under the action of the return spring 52, the T-shaped column 53 is separated from the deflector 36, the clamping part 2 returns to the initial position under the action of the torsion spring, when the cap carries out friction color fastness detection, friction cloth and the cap carry out forward relative movement, when the deflector rod 36 rotates along with the rotating vertical plate 32, the deflector rod 36 is contacted with the outer end of the T-shaped column 53, then the deflector rod 36 continues to rotate so as to drive the cap on the clamping part 2 to synchronously rotate through the T-shaped column 53, at the moment, the torsion spring on the clamping part 2 rotates to store force, when the T-shaped column 53 rotates to the position of the yielding groove 11, the T-shaped column 53 contracts under the action of the return spring 52, the T-shaped column 53 is separated from the deflector rod 36, the cap rotates to the initial position under the action of the return force of the torsion spring on the clamping part 2, and accordingly, the reverse relative rotation of the test cloth and the cap is realized.

In the embodiment, the boss of the detection bottom plate 1 is divided into an upper section, a middle section and a lower section, the upper section of the boss is matched with a round groove rotating rod of the clamping part 2, and the middle section of the boss is in clearance fit with the clamping part 2; the middle section of the boss and the clamping component 2 are respectively provided with a spring lug plate, and the torsion spring is arranged between the middle section of the boss and the spring lug plate of the clamping component 2; the relief groove 11 is provided in the lower section of the boss.

It should be noted that, as shown in fig. 1, the position of the shift lever 36 on the rotating vertical plate 32 in this embodiment can be adjusted, so that the shift lever 36 can be adjusted to be in contact with or out of contact with the T-shaped column 53, and thus the present utility model can perform a unidirectional friction test and a bidirectional friction test on a hat.

It will be appreciated by persons skilled in the art that the above embodiments are provided for illustration only and not for limitation of the utility model, and that variations and modifications of the above described embodiments will fall within the scope of the claims of the utility model as long as they fall within the true spirit of the utility model.

Claims (10)

1. The double-sided processing cap production detection device comprises a detection bottom plate (1), a clamping part (2) arranged at the middle part of the detection bottom plate (1), and a rotary friction part (3) arranged outside the clamping part (2) and arranged on the detection bottom plate (1), wherein a clamping piece (4) for clamping test cloth is arranged on the rotary friction part (3), and the double-sided processing cap production detection device is characterized in that the clamping part (2) is of a rotary columnar structure, the rotary columnar structure of the clamping part (2) is used for supporting a cap, pressure test pieces (21) are symmetrically arranged on the outer side surface of the upper part of the columnar structure of the clamping part (2), and an annular sleeve for supporting a cap peak is arranged at the lower part of the clamping part (2);

the rotary friction part (3) comprises a rotary part (31) which is arranged at the top of the detection bottom plate (1) and rotates around the clamping part (2), a rotating vertical plate (32) is arranged at the top of the rotary part (31), a position adjusting plate (33) is arranged at one side, close to the clamping part (2), of the upper part of the rotating vertical plate (32), the position adjusting plate (33) is connected to the rotating vertical plate (32) through a position adjusting part (34), and one side, close to the clamping part (2), of the position adjusting plate (33) is connected with the clamping part (4) through an elastic part (35);

the side surface of the clamping piece (4) corresponding to the clamping part (2) is an arc surface matched with the clamping part, the test cloth is connected with the arc surface of the clamping piece (4) through a magic tape, and the two sides of the test cloth are locked through buckles arranged at the two ends of the clamping piece (4);

the upper part of the vertical plate (32) is provided with a telescopic adjusting structure; the annular sleeve comprises a sliding annular frame (22) which is arranged on the outer side of the clamping part (2) in a sliding mode, an annular plate (23) is arranged on the sliding annular frame (22), and clamping pieces (24) which clamp and lock the outer end of the cap peak are arranged at the outer end of the annular plate (23).

2. The double-sided processing cap production detection device according to claim 1, wherein an arc-shaped extension plate (221) is arranged at the lower end of the sliding annular frame (22), elastic penetrating columns (222) are arranged on the arc-shaped extension plate (221) in a penetrating mode, and insertion holes (223) are uniformly formed in the outer side face of the lower end of the clamping component (2) along the vertical direction of the lower end of the clamping component.

3. The double-sided processing cap production detection device according to claim 1, wherein the clamping member (24) comprises a clamping support plate (241), the clamping support plate (241) is rotatably connected with a clamping plate (242) through a torsion spring, and clamping teeth are arranged at the bottom of the clamping plate (242).

4. A double-sided processing cap production detection device according to claim 3, wherein the torsion spring connected with the clamping plate (242) controls the clamping plate (241) to keep an open state, limiting clamping rods (243) are arranged on the clamping support plate (241) and located on two sides of the clamping plate (242), the limiting clamping rods (243) are rotatably mounted on the clamping support plate (241) through the torsion spring, and the limiting clamping rods (243) enable the clamping plates to have potential energy moving towards the clamping plate (242) under the action of the torsion spring.

5. The double-sided processing cap production detection device according to claim 1, wherein the annular plate (23) comprises an inner annular plate (231) vertically connected to the outer side of the sliding annular frame (22) in a sliding manner and an outer annular plate (232) rotatably connected to the outer side of the inner annular plate (231), the inner annular plate (231) is connected with the lower end of the sliding annular frame (22) through a spring, a pull rod (233) is rotatably mounted at the bottom of the inner annular plate (231), the lower end of the pull rod (233) penetrates through the sliding annular frame (22), and a sliding block (234) and a sliding groove which are in sliding fit with each other are arranged between the outer side of the pull rod (233) and the sliding annular frame (22).

6. The double-sided processing cap production detection device according to claim 5, wherein a track support plate (235) is arranged at the bottom of the outer ring plate (232), and a track guide rod (236) and a track groove (25) are respectively arranged between the side surface of the track support plate (235) and the outer side surface of the clamping component (2).

7. The double-sided processing cap production detection device according to claim 1, wherein the elastic member (35) comprises a scale guide pillar (351) and a pressure spring (352), one end of the elastic member (35) is fixedly arranged on the clamping member (4), the other end of the elastic member (35) penetrates through the position adjusting plate (33), and a pointer is arranged on the position adjusting plate (33) corresponding to the scale position of the scale guide pillar (351).

8. The double-sided processing cap production detection device according to any one of claims 1 to 7, wherein a circular groove is formed in the middle of the clamping component (2), a boss is arranged on the detection bottom plate (1), the clamping component (2) is rotationally connected to the boss of the detection bottom plate (1) through a torsion spring, a rotation following portion (5) is arranged at the lower end of the clamping component (2), and a deflector rod (36) for circularly stirring the rotation following portion (5) is arranged on the rotation following vertical plate (32).

9. The double-sided processing cap production detection device according to claim 8, wherein the rotation following part (5) comprises a rotation groove (51) arranged at the bottom of the clamping part (2), the cross section of the rotation groove (51) is of an L-shaped structure, a T-shaped column (53) is arranged in the rotation groove (51) through a return spring (52), a yielding groove (11) is formed in the side wall of a boss of the detection bottom plate (1), a chute is formed in one side of the yielding groove (11) corresponding to the rotation direction of the rotary friction part (3), when the stirring rod (36) drives the T-shaped column (53) to move to the yielding groove (11), the T-shaped column (53) retracts under the action of the return spring (52) so that the T-shaped column (53) is separated from the stirring rod (36), and the clamping part (2) returns to an initial position under the action of the torsion spring.

10. The double-sided tooling cap production detection device of claim 8 wherein the lever (36) is adjustable in position on the follower (32).