CN117433457B - Flatness detection device of mobile phone support - Google Patents

Abstract

The invention discloses a flatness detection device of a mobile phone support, which comprises an equipment rack, a controller, an upright post and a laser detection mechanism, and comprises the following components: and a material carrying component: the bottom of the lantern ring is rotationally connected with a bracket, and a storage cavity matched with the mobile phone support is arranged on the bracket; and (3) a folding and unfolding component: the sliding block is connected with a rack in a sliding way, and a traction piece is arranged on the sliding block; sorting means: the upper end of the sliding plate is fixedly provided with a trapezoid block, and two discharge grooves are formed in the equipment rack. According to the invention, firstly, when one mobile phone support in one storage cavity is detected, the mobile phone supports in the other storage cavities are sequentially delivered and fed, so that the efficiency of detecting the flatness of the mobile phone support by the device is improved, and secondly, the detection device can carry out partition delivery on the mobile phone support according to the flatness detection condition by adjusting the relative positions of the sliding plate and the sliding connection frame, thereby achieving the purposes of simplifying the working flow and improving the working efficiency.

Description

Flatness detection device of mobile phone support

Technical Field

The invention relates to the technical field of mobile phone support detection equipment, in particular to a flatness detection device of a mobile phone support.

Background

The mobile phone support is a tool for placing the mobile phone support, so that the mobile phone support is erected at a certain angle, and the purpose of being convenient for a user to erect the mobile phone is achieved.

After the manufacturer finishes the production and processing of the mobile phone support, the laser detector is used for horizontally detecting the end face of the mobile phone support, which is in contact with the desktop, so that the stability of the mobile phone support in use can be ensured, and the mobile phone support is favorable for safely erecting the mobile phone. In the prior art, when staff detects in the face of mobile phone support roughness in batches, through placing mobile phone support on mobilizable testing platform, through the testing platform who will carry mobile phone support pushes into the detection area of laser detector, treat that mobile phone support accomplishes the roughness and detect the back, outwards release testing platform from laser detection again, the staff needs to replace mobile phone support on the testing platform, simultaneously need whether pass through according to the testing result, put into the cell-phone support that detects in corresponding accommodation box, this kind of mobile phone support roughness detection device has the problem that is inconvenient for the staff to operate and use, and detection efficiency is lower.

Based on the defects, the flatness detection device of the mobile phone support is provided.

Disclosure of Invention

The invention aims at: in order to solve the above problems, a flatness detection device for a mobile phone support is provided.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a roughness detection device of cell phone stand, includes equipment rack, installs the controller on the equipment rack, fixes stand on the equipment rack and installs the laser detection mechanism on the stand, includes:

and a material carrying component: the mobile phone comprises a stand column, a bracket is movably sleeved on the outer side of the stand column, a telescopic mechanism for controlling the vertical movement of the bracket is arranged on the equipment rack, a guide piece is arranged on the stand column, the bracket rotates along the stand column under the action of the guide piece when moving vertically, four hack levers which are distributed in an annular mode are fixedly arranged on the side end of the collar, a driven frame is connected on the outer side of the hack lever in a sliding manner, a bracket is connected on the inner side of the driven frame in a rotating manner, and a storage cavity matched with a mobile phone bracket is arranged on the bracket;

and (3) a folding and unfolding component: the equipment rack is provided with four sliding connection frames corresponding to the rack bars in a sliding manner, a vertical plate is fixedly arranged at the upper end of the sliding connection frames, a sliding block fixed with the rack bars is vertically arranged on the inner side of the vertical plate in a sliding manner, a rack is connected in the sliding block in a sliding manner, the equipment rack is fixedly provided with a vertical frame, a transmission part is arranged on the vertical frame, when the sliding block vertically moves along the vertical plate, the rack moves transversely relative to the sliding block under the action of the transmission part, a traction part is arranged on the sliding block, and when the rack moves transversely relative to the sliding block, the driven frame slides along the rack bars under the action of the traction part;

sorting means: the outside of driven frame has set firmly the sleeve, it has the sliding sleeve to slide in the sleeve, it has the reset spring of outside oppression sliding sleeve to inlay in the sleeve, sliding connection has the slide on the slip frame, be provided with the part of the relative slip frame position of adjustment slide on the equipment frame, the trapezoidal piece that the cooperation sliding sleeve used has been set firmly to the upper end of slide, be provided with the interlock spare on the driven frame, the sleeve is when relative driven frame lateral shifting, and the bracket will rotate the turn-over under the effect of interlock spare, be formed with two discharge spouts that cooperate the cell phone stand to arrange on the equipment frame.

Preferably, the guide piece comprises a second guide rod penetrating through and sliding in the lantern ring, a baffle is fixedly arranged at one end of the second guide rod located outside the lantern ring, a disc is fixedly arranged at the side end of the lantern ring through a cross rod penetrating through the baffle, and a second compression spring for pressing the baffle inwards is sleeved on the outer side of the cross rod.

Preferably, four first sliding rails and four second sliding rails matched with the second guide rod to slide are formed on the side portion of the upright post, the first sliding rails are composed of vertical grooves and spiral grooves, and the second sliding rails and the vertical grooves of the first sliding rails are distributed in the same straight line.

Preferably, the side end of the rack is fixedly provided with a lug, the transmission piece comprises a frame plate fixedly arranged at the inner end of the vertical frame, and a bar-shaped groove matched with the lug to slide is formed in the frame plate.

Preferably, a magnetic attraction ring matched with the magnetic attraction of the driven frame is fixedly arranged on the frame rod, and a slideway matched with the protruding block to vertically slide is fixedly arranged at the outer end of the vertical plate.

Preferably, the traction member comprises a transmission arm rotatably connected in a sliding block, the free end of the transmission arm is rotatably connected with the driven frame, a gear coaxially fixed with the transmission arm is rotatably connected in the sliding block, and the gear is meshed with the rack.

Preferably, the interlock piece is including rotating the first rim plate and the second rim plate of connecting in driven frame inboard, and first rim plate is fixed mutually with the bracket, the outside cover of first rim plate and second rim plate is equipped with the chain of cooperation transmission, the driven frame is rotated and is connected with the axostylus axostyle coaxial fixed with the second rim plate, and the sliding sleeve slip cap is established in the outside of axostylus axostyle, be formed with the arch on the inner wall of sliding sleeve, be formed with the gliding spiral slide rail of cooperation arch on the lateral wall of axostylus axostyle.

Preferably, the component for adjusting the position of the sliding plate relative to the sliding frame comprises a telescopic rod which is arranged on the vertical frame and pushes the sliding plate inwards, a first guide rod penetrates through the sliding plate, a baffle frame is fixedly arranged at the outer end of the trapezoid block, a first compression spring which presses the first guide rod downwards is abutted to the baffle frame, and a sliding groove which is matched with the first guide rod to slide is formed on the equipment frame.

Preferably, the sliding groove comprises an outer ring groove, an inner ring groove, a first engagement groove, a second engagement groove and a straight line groove which are formed on the equipment rack and are communicated with each other.

Preferably, the input end of the controller is electrically connected with the output end of the laser detection mechanism, and the output end of the controller is electrically connected with the input end of the telescopic rod.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. in this application, through the reciprocating removal of telescopic machanism control bracket along vertical direction for the lantern ring drives the hack lever and does unidirectional equiangular rotation, realizes accomplishing the replacement of the cell phone stand that detects, is favorable to detection device to the high-efficient detection of batch cell phone stand, and when one of them cell phone stand that deposits the intracavity is detected, other cell phone stands that deposit in the chamber will be delivered and the material loading in proper order, thereby is favorable to improving the efficiency that the device detected cell phone stand roughness.

2. In this application, through adjusting the relative position of slide and slip frame for the cell phone stand that the roughness up to standard exists and the cell phone stand that the roughness exists the defect is arranged by different discharge grooves respectively, and this detection device can carry out the subregion according to the roughness detection condition to the cell phone stand and deliver, thereby is favorable to the staff to distinguish the cell phone stand of accomplishing the detection and collect, reaches the simplification work flow, improves work efficiency's purpose.

Drawings

Fig. 1 shows a perspective view of a detection device provided according to an embodiment of the present invention;

FIG. 2 shows a schematic cross-sectional view of an equipment rack provided in accordance with an embodiment of the present invention;

FIG. 3 shows a schematic view of the inside construction of a riser provided in accordance with an embodiment of the present invention;

FIG. 4 illustrates a schematic cross-sectional view of a driven frame provided in accordance with an embodiment of the present invention;

fig. 5 shows a schematic diagram of a fitting structure of a collar and a column according to an embodiment of the present invention;

fig. 6 shows an internal structure schematic diagram of a linear groove provided according to an embodiment of the present invention.

Legend description:

1. an equipment rack; 101. an outer ring groove; 102. an inner ring groove; 103. a first engagement groove; 104. a second engagement groove; 105. a linear groove; 106. a discharge chute; 2. a column; 201. a first slide rail; 202. a second slide rail; 3. a collar; 4. a bracket; 5. a telescoping mechanism; 6. a sliding connection frame; 7. a riser; 8. a slideway; 9. a slide block; 10. a hack lever; 1001. a magnetic ring; 11. a driven frame; 12. a bracket; 13. a storage cavity; 14. a first wheel disc; 15. a second wheel disc; 16. a chain; 17. a shaft lever; 1701. a spiral slide rail; 18. a sliding sleeve; 19. a protrusion; 20. a return spring; 21. a sleeve; 22. a transmission arm; 23. a gear; 24. a rack; 25. a bump; 26. a vertical frame; 27. a frame plate; 2701. a bar-shaped groove; 28. a telescopic rod; 29. a slide plate; 30. a trapezoid block; 31. a first guide bar; 32. a baffle frame; 33. a first compression spring; 34. a baffle; 35. a second guide bar; 36. a cross bar; 37. a disc; 38. a second compression spring; 39. and a laser detection mechanism.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a mobile phone stand's roughness detection device, includes equipment rack 1, installs the controller on equipment rack 1, fixes stand 2 on equipment rack 1 and installs the laser detection mechanism 39 on stand 2, includes:

and a material carrying component: the outside of the upright post 2 is movably sleeved with a lantern ring 3, the bottom of the lantern ring 3 is rotationally connected with a bracket 4, a telescopic mechanism 5 for controlling the bracket 4 to vertically move is arranged on the equipment rack 1, a guide piece is arranged on the upright post 2, the lantern ring 3 rotates along the upright post 2 under the action of the guide piece when the bracket 4 vertically moves, four hack levers 10 which are annularly distributed are fixedly arranged at the side end of the lantern ring 3, the outside of the hack levers 10 is slidingly connected with a driven rack 11, the inner side of the driven rack 11 is rotationally connected with a bracket 12, and a storage cavity 13 which is matched with a mobile phone bracket to be placed is arranged on the bracket 12; the storage cavity 13 can be customized according to the shape and the size of the mobile phone support, and the same storage cavity 13 is arranged on the four brackets 12 when the mobile phone supports with the same model are detected; placing the mobile phone support in the storage cavity 13 so that the surface to be detected of the mobile phone support faces upwards; the telescopic mechanism 5 adopts the existing hydraulic or pneumatic telescopic mode to control the vertical movement of the bracket 4;

when the lantern ring 3 moves downwards along with the bracket 4, the storage cavity 13 corresponding to the laser detection mechanism 39 drives the mobile phone support which completes detection to be separated from the detection area downwards, and then the lantern ring 3 rotates ninety degrees along with the bracket 4 to realize the switching of the storage cavity 13 which is opposite to the laser detection mechanism 39, and then, when the lantern ring 3 moves upwards along with the bracket 4, the lantern ring 3 does not rotate any more, so that the storage cavity 13 which completes switching drives the undetected mobile phone support to enter the detection area of the laser detection mechanism 39, the bracket 4 is controlled to reciprocate along the vertical direction through the telescopic mechanism 5, so that the lantern ring 3 drives the hack lever 10 to rotate at equal angles in one direction, the replacement of the mobile phone supports which completes detection is realized, the efficient detection of the detection device to the batch mobile phone supports is facilitated, and the mobile phone supports in one storage cavity 13 are sequentially delivered and fed at the same time when the mobile phone supports in one storage cavity 13 are detected, and the efficiency of the detection device to the flatness detection of the mobile phone supports is facilitated.

And (3) a folding and unfolding component: four sliding connection frames 6 corresponding to the frame rods 10 are arranged on the equipment frame 1 in a sliding manner, a vertical plate 7 is fixedly arranged at the upper end of the sliding connection frames 6, a sliding block 9 fixed with the frame rods 10 is vertically arranged on the inner side of the vertical plate 7 in a sliding manner, a rack 24 is connected in the sliding block 9 in a sliding manner, a vertical frame 26 is fixedly arranged on the equipment frame 1, a transmission part is arranged on the vertical frame 26, when the sliding block 9 vertically moves along the vertical plate 7, the rack 24 transversely moves relative to the sliding block 9 under the action of the transmission part, a traction part is arranged on the sliding block 9, and when the rack 24 transversely moves relative to the sliding block 9, a driven frame 11 slides along the frame rods 10 under the action of the traction part; after the flatness detection of the mobile phone support in the storage cavity 13 is completed, along with the downward movement of the lantern ring 3, the sliding block 9 moves downward along the vertical plate 7 under the drive of the frame rod 10, at this time, the rack 24 moves radially relative to the sliding block 9 under the action of the guide member, the driven frame 11 positioned at the side of the laser detection mechanism 39 pulls the bracket 12 radially away from the lantern ring 3 under the action of the traction member, so that the storage cavity 13 mounted on the bracket 12 is positioned at an outer position relative to the upright post 2, the subsequent sorting of the mobile phone support in the storage cavity 13 according to the detection condition is facilitated, and meanwhile, the sorting of the mobile phone support mounted along the equipment frame 1 or workers distributed around the equipment frame 1 is also facilitated, and the next group of mobile phone supports to be detected are placed in the storage cavity 13.

Sorting means: the outside of the driven frame 11 is fixedly provided with a sleeve 21, a sliding sleeve 18 is embedded in the sleeve 21 in a sliding manner, a reset spring 20 which presses the sliding sleeve 18 outwards is embedded in the sleeve 21, a sliding plate 29 is connected to the sliding frame 6 in a sliding manner, a part which adjusts the position of the sliding plate 29 relative to the sliding frame 6 is arranged on the equipment frame 1, a trapezoid block 30 which is matched with the sliding sleeve 18 for use is fixedly arranged at the upper end of the sliding plate 29, a linkage part is arranged on the driven frame 11, when the sleeve 21 moves transversely relative to the driven frame 11, the bracket 12 rotates and turns under the action of the linkage part, and two discharge grooves 106 which are matched with the mobile phone support for discharging are formed on the equipment frame 1; the two discharge tanks 106 are respectively used for discharging products which are qualified and unqualified in detection; a box for collecting the product should be provided below the two discharge slots 106.

When the laser detection mechanism 39 detects that the mobile phone support has flatness defects, the telescopic rod 28 pushes the sliding plate 29 inwards under the control of the controller, so that the trapezoid block 30 fixed on the sliding plate 29 is positioned close to the upright post 2, the lantern ring 3 rotates ninety degrees along with the downward movement of the bracket 4, so that the corresponding bracket 12 is right above the discharge chute 106, the sliding sleeve 18 arranged on the driven frame 11 slides against the driven frame 11 under the pressing action of the trapezoid block 30 along with the continued descent of the bracket 4, at the moment, the bracket 12 is turned over under the action of linkage, and when the opening of the storage cavity 13 is downward, the mobile phone support is discharged from the corresponding discharge chute 106;

when the laser detection mechanism 39 detects that the flatness of the mobile phone support is qualified, the telescopic rod 28 will not be triggered, the sliding plate 29 keeps the relative sliding support 6 in a static state, as the lantern ring 3 rotates ninety degrees, when the driven support 11 moves downwards, the trapezoid block 30 cannot act on the sliding sleeve 18, the bracket 12 cannot turn over at this time, so that the mobile phone support with normal flatness cannot fall into the unloading groove 106, when the lantern ring 3 rotates ninety degrees again, the sliding plate 29 automatically slides to be close to the upright post 2, and when the driven support 11 descends in place, the mobile phone support which is qualified in detection is downwards discharged from the other unloading groove 106 along with the turning over of the bracket 12.

Through adjusting the relative position of slide 29 and slip frame 6 for the cell phone stand that the roughness up to standard and roughness have the cell phone stand of defect is arranged by different discharge tank 106 respectively, and this detection device can carry out the subregion according to the roughness detection condition and deliver to the cell phone stand, thereby is favorable to the staff to accomplish the cell phone stand of detection and distinguish and collect, reaches the purpose of simplifying work flow, improves work efficiency.

Specifically, as shown in fig. 1, 2, 3 and 5, the guide member includes a second guide rod 35 penetrating and sliding in the collar 3, one end of the second guide rod 35 located outside the collar 3 is fixedly provided with a baffle 34, a side end of the collar 3 is fixedly provided with a disc 37 through a cross rod 36 penetrating the baffle 34, and the outside of the cross rod 36 is sleeved with a second compression spring 38 pressing the baffle 34 inwards;

four first sliding rails 201 and four second sliding rails 202 which are matched with the second guide rod 35 to slide are formed on the side part of the upright post 2, the first sliding rails 201 are formed by vertical grooves and spiral grooves, and the second sliding rails 202 and the vertical grooves of the first sliding rails 201 are distributed in the same straight line;

when the collar 3 moves upwards along the upright 2 along with the bracket 4, the second guide rod 35 will slide upwards along the second slide rail 202, and when the second guide rod 35 slides out of the second slide rail 202, the baffle 34 will drive the second guide rod 35 to spring into the first slide rail 201 under the action of the second compression spring 38, and then slide upwards along the vertical groove of the first slide rail 201, and in this process, the collar 3 keeps in a static state relative to the bracket 4;

when the collar 3 moves downwards along the upright 2 along with the bracket 4, the second guide rod 35 will slide along the vertical groove of the first slide rail 201 first, then slide into the spiral groove of the first slide rail 201, in the process, the collar 3 is driven to rotate relative to the bracket 4 by the pressing action of the spiral groove on the second guide rod 35 until the second guide rod 35 slides out of the spiral section of the first slide rail 201, the collar 3 rotates ninety degrees relative to the bracket 4, the baffle 34 drives the second guide rod 35 to spring into the second slide rail 202 under the action of the second compression spring 38, then the second guide rod 35 slides downwards along the second slide rail 202, and the collar 3 does not rotate any more.

The spiral groove of the first sliding rail 201 is matched with the end surface of the second guide rod 35 in a sliding fit manner, a slope surface which presses the second guide rod 35 to move outwards is formed, and when the second guide rod 35 slides along the spiral groove, the second guide rod 35 transversely moves relative to the lantern ring 3 under the pressing action of the slope surface; the intersection of the second sliding rail 202 and the two connected first sliding rails 201 is formed with a step surface which is matched with the second guide rod 35 to spring.

Specifically, as shown in fig. 1-3, a bump 25 is fixed at the side end of the rack 24, the transmission member includes a frame plate 27 fixed at the inner end of the stand 26, and a bar-shaped groove 2701 matching the bump 25 to slide is formed in the frame plate 27; when the bracket 12 is positioned on the side where the laser detection mechanism 39 is installed, the second guide rod 35 fixed on the rack 24 slides along the bar-shaped groove 2701 along with the downward movement of the slide block 9, the rack 24 is driven to move transversely relative to the slide block 9 by the pressing action of the bar-shaped groove 2701 on the second guide rod 35, and in the process, the driven frame 11 slides along the frame rod 10 in a direction away from the upright post 2 under the action of the traction piece.

The rack bar 10 is fixedly provided with a magnetic attraction ring 1001 matched with the magnetic attraction of the driven rack 11, and the outer end of the vertical plate 7 is fixedly provided with a slideway 8 matched with the convex block 25 to vertically slide; when the driven frame 11 slides to magnetically attract the magnetic attraction ring 1001, as the sliding block 9 continues to move downwards, the protruding block 25 slides downwards out of the bar-shaped groove 2701 and then slides downwards along the slideway 8, and the rack 24 is limited to move transversely relative to the sliding block 9 through the sliding fit of the slideway 8 and the protruding block 25, so that the purpose of limiting the driven frame 11 to slide relative to the hack lever 10 is achieved; the driven frame 11 is provided with an iron ring magnetically attracted in cooperation with the magnetic attraction ring 1001.

Specifically, as shown in fig. 1-3, the traction member comprises a transmission arm 22 rotatably connected in the sliding block 9, the free end of the transmission arm 22 is rotatably connected with the driven frame 11, a gear 23 coaxially fixed with the transmission arm 22 is rotatably connected with the sliding block 9, and the gear 23 is meshed with the rack 24; when the rack 24 transversely moves relative to the sliding block 9, the gear 23 rotates under the meshing action of the rack 24, and the transmission arm 22 coaxially fixed with the gear 23 drives the driven frame 11 to slide along the frame rod 10; the actuator arm 22 is formed by a rotary connection of two arms of equal length.

Specifically, as shown in fig. 4, the linkage member includes a first wheel disc 14 and a second wheel disc 15 rotatably connected to the inner side of the driven frame 11, where the first wheel disc 14 is fixed to the bracket 12, chains 16 for cooperating transmission are sleeved on the outer sides of the first wheel disc 14 and the second wheel disc 15, a shaft rod 17 coaxially fixed to the second wheel disc 15 is rotatably connected to the driven frame 11, a sliding sleeve 18 is slidably sleeved on the outer side of the shaft rod 17, a protrusion 19 is formed on the inner wall of the sliding sleeve 18, and a spiral sliding rail 1701 for cooperating with the protrusion 19 to slide is formed on the side wall of the shaft rod 17;

when the sliding sleeve 18 moves transversely relative to the driven frame 11, the protrusion 19 fixed on the inner wall of the sliding sleeve 18 will slide along the spiral slide rail 1701, and the second wheel 15 coaxially fixed with the shaft 17 is driven to rotate by the compression transmission of the protrusion 19 to the spiral slide rail 1701, and at this time, the first wheel 14 will drive the bracket 12 to rotate synchronously under the action of the chain 16.

The side wall of the sliding sleeve 18 is provided with bar-shaped teeth, tooth grooves matched with the bar-shaped teeth to slide are formed in the sleeve 21, and the sliding sleeve 18 is limited to rotate relative to the driven frame 11 through sliding fit of the bar-shaped teeth and the tooth grooves, so that transmission of the sliding sleeve 18 to the shaft rod 17 is facilitated.

Specifically, as shown in fig. 1, 2, 3 and 6, the means for adjusting the position of the sliding plate 29 relative to the sliding frame 6 includes a telescopic rod 28 mounted on the vertical frame 26 for pushing the sliding plate 29 inwards, a first guide rod 31 penetrating and sliding in the sliding plate 29, a baffle frame 32 fixed at the outer end of the trapezoid block 30, a first compression spring 33 abutting against the baffle frame 32 for pressing the first guide rod 31 downwards, and a chute formed on the equipment frame 1 for sliding in cooperation with the first guide rod 31; the telescoping rod 28 is telescoping using conventional actuation or hydraulic actuation.

The slide groove comprises an outer ring groove 101, an inner ring groove 102, a first engagement groove 103, a second engagement groove 104 and a straight line groove 105 which are formed on the equipment rack 1 and are communicated with the inner ring groove 102 and the outer ring groove 101; the junction of the first engagement groove 103 and the inner ring groove 102 forms a step surface matched with the first guide rod 31 to spring off; the end surface of the linear groove 105, which is matched with the first guide rod 31 in a sliding fit manner, is formed with an inclined slope surface which presses the first guide rod 31 to move upwards.

The input end of the controller is electrically connected with the output end of the laser detection mechanism 39, and the output end of the controller is electrically connected with the input end of the telescopic rod 28.

When the laser detection mechanism 39 completes the flatness detection of the mobile phone support, if the flatness of the mobile phone support does not meet the standard, a signal is sent to the controller, so that the telescopic rod 28 stretches to push the sliding plate 29 to lean against the upright post 2, when the first guide rod 31 slides out of the first engagement groove 103, the first guide rod 31 downwards springs into the inner ring groove 102 under the action of the first compression spring 33, then the first guide rod 31 slides along the inner ring groove 102 along with the rotation of the lantern ring 3, in the process, the sliding plate 29 keeps the relative sliding frame 6 in a static state until the lantern ring 3 rotates ninety degrees, and the trapezoid block 30 fixed on the sliding plate 29 can drive the bracket 12 to overturn for one hundred eighty degrees through the sliding sleeve 18 along with the continued downward movement of the sliding block 9, and at the moment, the mobile phone support with unqualified detection in the storage cavity 13 is downwards discharged through the corresponding unloading groove 106;

if the laser detection mechanism 39 detects that the flatness of the mobile phone support is qualified, the sliding plate 29 will not be acted on by the telescopic rod 28, along with the rotation of the lantern ring 3, the first guide rod 31 will slide along the outer ring groove 101, after the lantern ring 3 rotates for one hundred eighty degrees, the first guide rod 31 will slide into the second linking groove 104 from the outer ring groove 101, then, the first guide rod 31 will slide into the inner ring groove 102 along the second linking groove 104 under the pressing action of the first compression spring 33, along with the continued downward movement of the sliding block 9, the trapezoid block 30 fixed on the sliding plate 29 will drive the bracket 12 to turn over for one hundred eighty degrees through the sliding sleeve 18, so that the qualified mobile phone support in the storage cavity 13 is downward discharged through the corresponding unloading groove 106.

When the bracket 12 finishes delivering the product, the first guide rod 31 slides into the linear groove 105 from the inner ring groove 102 along with the continuous rotation of the collar 3, and the sliding plate 29 is driven to slide relative to the sliding frame 6 through the compression transmission of the linear groove 105 to the first guide rod 31 until the first guide rod 31 slides into the outer ring groove 101 again, and the sliding plate 29 slides relative to the sliding frame 6 to reset, so that the storage cavity 13 on the bracket 12 continues to carry out the process operation on a new group of mobile phone supports.

The previous description of the embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The utility model provides a mobile phone stand's roughness detection device, includes equipment rack (1), installs the controller on equipment rack (1), fixes stand (2) on equipment rack (1) and installs laser detection mechanism (39) on stand (2), its characterized in that includes:

and a material carrying component: the mobile phone is characterized in that a lantern ring (3) is movably sleeved on the outer side of the upright post (2), a bracket (4) is rotatably connected to the bottom of the lantern ring (3), a telescopic mechanism (5) for controlling the bracket (4) to vertically move is installed on the equipment rack (1), a guide piece is arranged on the upright post (2), the lantern ring (3) rotates along the upright post (2) under the action of the guide piece when the bracket (4) vertically moves, four annular rack bars (10) are fixedly arranged at the side end of the lantern ring (3), a driven rack (11) is slidably connected to the outer side of the rack bar (10), a bracket (12) is rotatably connected to the inner side of the driven rack (11), and a storage cavity (13) matched with a mobile phone bracket is installed on the bracket (12);

and (3) a folding and unfolding component: the equipment rack (1) is provided with four sliding connection frames (6) corresponding to the rack bars (10) in a sliding manner, a vertical plate (7) is fixedly arranged at the upper end of the sliding connection frames (6), a sliding block (9) fixed with the rack bars (10) is vertically arranged on the inner side of the vertical plate (7) in a sliding manner, a rack (24) is connected in the sliding block (9) in a sliding manner, a vertical frame (26) is fixedly arranged on the equipment rack (1), a transmission part is arranged on the vertical frame (26), the sliding block (9) moves transversely relative to the sliding block (9) under the action of a guide part when moving vertically along the vertical plate (7), a traction part is arranged on the sliding block (9), and a driven frame (11) slides along the rack bars (10) under the action of the traction part when moving transversely relative to the sliding block (9);

sorting means: sleeve (21) has been set firmly in the outside of driven frame (11), slide in sleeve (21) has inlayed sliding sleeve (18), inlay in sleeve (21) has reset spring (20) of outside oppression sliding sleeve (18), sliding connection has slide (29) on sliding connection frame (6), be provided with the part of the relative sliding connection frame (6) position of adjustment slide (29) on equipment frame (1), trapezoidal piece (30) that cooperation sliding sleeve (18) used have been set firmly to the upper end of slide (29), be provided with the interlock spare on driven frame (11), sleeve (21) are at the relative driven frame (11) lateral shifting time, and bracket (12) will rotate the turn-over under the effect of interlock spare, be formed with two discharge chute (106) that cooperate the cell phone stand to arrange on equipment frame (1).

2. The flatness detection apparatus for a mobile phone bracket according to claim 1, wherein the guide member comprises a second guide rod (35) penetrating through and sliding in the collar (3), a baffle (34) is fixedly arranged at one end of the second guide rod (35) located at the outer side of the collar (3), a disc (37) is fixedly arranged at the side end of the collar (3) through a cross rod (36) penetrating through the baffle (34), and a second compression spring (38) for pressing the baffle (34) inwards is sleeved at the outer side of the cross rod (36).

3. The flatness detection device for a mobile phone support according to claim 2, characterized in that four first sliding rails (201) and four second sliding rails (202) that slide in cooperation with the second guide rod (35) are formed on the side portion of the upright post (2), the first sliding rails (201) are composed of vertical grooves and spiral grooves, and the second sliding rails (202) are distributed in the same straight line with the vertical grooves of the first sliding rails (201).

4. The flatness detection apparatus for a mobile phone holder according to claim 1, wherein the side end of the rack (24) is fixedly provided with a bump (25), the transmission member comprises a frame plate (27) fixedly arranged at the inner end of the stand (26), and a bar-shaped groove (2701) for matching the bump (25) to slide is formed in the frame plate (27).

5. The flatness detection device of a mobile phone holder according to claim 4, characterized in that the rack bar (10) is fixedly provided with a magnetic attraction ring (1001) for magnetically attracting the driven frame (11), and the outer end of the vertical plate (7) is fixedly provided with a slideway (8) for vertically sliding the matching protruding block (25).

6. The flatness detection device of a mobile phone holder according to claim 1, characterized in that the traction member comprises a transmission arm (22) rotatably connected in a slider (9), a free end of the transmission arm (22) is rotatably connected with a driven frame (11), a gear (23) coaxially fixed with the transmission arm (22) is rotatably connected with the slider (9), and the gear (23) is meshed with a rack (24).

7. The flatness detection device of a mobile phone holder according to claim 1, characterized in that the linkage member comprises a first wheel disc (14) and a second wheel disc (15) rotatably connected to the inner side of the driven frame (11), the first wheel disc (14) is fixed to the bracket (12), a chain (16) in cooperation transmission is sleeved on the outer sides of the first wheel disc (14) and the second wheel disc (15), a shaft lever (17) coaxially fixed to the second wheel disc (15) is rotatably connected to the driven frame (11), a sliding sleeve (18) is slidably sleeved on the outer portion of the shaft lever (17), a protrusion (19) is formed on the inner wall of the sliding sleeve (18), and a spiral sliding rail (1701) in cooperation with the protrusion (19) is formed on the side wall of the shaft lever (17).

8. The flatness detection apparatus for a mobile phone holder according to claim 1, wherein the means for adjusting the position of the slide plate (29) relative to the sliding frame (6) comprises a telescopic rod (28) mounted on the stand (26) for pushing the slide plate (29) inward, a first guide rod (31) is penetrated and slid in the slide plate (29), a blocking frame (32) is fixedly arranged at the outer end of the trapezoid block (30), a first compression spring (33) for pressing the first guide rod (31) downward is abutted to the blocking frame (32), and a chute for sliding in cooperation with the first guide rod (31) is formed on the equipment holder (1).

9. The flatness detection apparatus of a mobile phone holder according to claim 8, wherein the chute includes an outer ring groove (101), an inner ring groove (102), a first engagement groove (103), a second engagement groove (104) and a straight groove (105) formed on the equipment rack (1) communicating the inner ring groove (102) and the outer ring groove (101).

10. The flatness detection apparatus of claim 8, wherein an input end of the controller is electrically connected to an output end of the laser detection mechanism (39), and an output end of the controller is electrically connected to an input end of the telescopic rod (28).