CN114038311A - Electromechanical device data plate presss from both sides with anti-drop steps up effect - Google Patents

Abstract

The invention discloses an electromechanical equipment nameplate clamp with an anti-drop tightening effect, which comprises a supporting frame, a working bin, a transportation clamp, a mounting clamp, a transportation assembly, a transmission device, a transmission structure and a driving device arranged in the working bin and used for driving the mounting clamp to vertically reciprocate. The invention is provided with the transportation clamp and the installation clamp matched with the transportation clamp, so that the nameplate is prevented from falling off in a motion state, the nameplate can stably enter the installation clamp by being matched with the installation clamp for use, the nameplate is extruded by a stamping part arranged in the installation clamp, the nameplate is fixedly clamped with equipment, the transportation clamp and the installation clamp are respectively matched with the transportation clamp and the installation clamp, and the transportation clamp, the transmission structure, the transmission device and the driving device are respectively arranged, and the driving device continuously transmits kinetic energy to the transportation clamp, the transmission structure and the transmission device, so that the transportation clamp and the installation clamp are driven to continuously work, the purpose of mechanical automation is achieved, and the whole structure is simple and convenient.

Description

Electromechanical device data plate presss from both sides with anti-drop steps up effect

Technical Field

The invention relates to the technical field of electromechanical equipment, in particular to an electromechanical equipment nameplate clamp with an anti-falling clamping effect.

Background

The electromechanical technology is combined with applied mechanical technology and electronic technology, the existing electromechanical integration technology becomes a crossed system technology integrating a computer, an information technology, an automatic control technology, a sensing detection technology, a servo transmission technology, a mechanical technology and the like, the forward opto-electromechanical integration technology is developed in the direction of the technology, the application range is wider and wider, when the electromechanical equipment is driven to fix a nameplate and a machine, a clamping device for the electromechanical equipment is often needed to clamp and fix the nameplate, and then the nameplate is fixedly connected with the machine by using a manipulator.

Current electromechanical device when data plate transportation handing-over, the data plate easily drops, unable continuation work, and electromechanical device in the work of continuation installation data plate is too complicated, the operation of being not convenient for.

Disclosure of Invention

The invention aims to: in order to solve the technical problem, the nameplate clamp for the electromechanical equipment with the anti-falling clamping effect is provided.

In order to achieve the purpose, the invention adopts the following technical scheme: an electromechanical equipment nameplate clamp with an anti-drop tightening effect comprises a supporting frame, a working bin arranged at the upper end of the supporting frame and provided with a lower discharge port, a transportation bin arranged at the left end of the working bin and provided with a left feed port, a transportation clamp arranged in the transportation bin and used for clamping a nameplate to prevent the nameplate from dropping, an installation clamp arranged in the working bin and matched with the transportation clamp for transmission, a transportation assembly arranged in the transportation bin and used for installing the transportation clamp, a transmission device arranged at the side ends of the transportation bin and the working bin and used for transmitting kinetic energy, a transmission structure arranged in the working bin, and a driving device arranged in the working bin and used for driving the installation clamp to vertically reciprocate and simultaneously driving the transmission device and the transmission structure to respectively enable the transportation clamp to do inclined motion and punch the nameplate by using the internal structure of the installation clamp to enable the nameplate to be clamped with a connecting device;

the transportation clamp comprises a transportation box, clamping blocks which are symmetrically and fixedly arranged at the lower end of the transportation box and provided with lower openings, clamping structures which are symmetrically arranged on a side plate of the transportation box and are used for clamping and fastening nameplate clamps, locking structures which are arranged in the clamping blocks and are used for installing the transportation clamp on a transportation assembly, and supporting structures which are arranged on a bottom plate of the transportation box and are used for supporting nameplates, wherein the clamping structures are arranged in a plurality of equal intervals, each clamping structure comprises a first supporting frame fixedly connected with the transportation box and a first sliding rod slidably arranged in the supporting frame, the two ends of each first sliding rod are fixedly provided with an arc-shaped extrusion block and a toggle ring, each first sliding rod is sleeved with a clamping spring and a fixed block, the clamping springs are slidably connected with the first sliding rods, the fixed blocks are positioned in the first supporting frames and fixedly connected with the first sliding rods, and the two ends of the clamping springs respectively support the fixed blocks and the inner walls of the first supporting frames, the arc-shaped extrusion block is positioned in the transport box, and the poking ring is positioned outside the transport box;

the installation clamp comprises an installation box, U-shaped connecting sheets arranged at the outer end of the installation clamp and the upper end of the installation clamp, a poking U-shaped clamp fixedly connected with the U-shaped connecting sheets, a first connecting rod fixedly arranged at the right end of the installation box, a sliding plate fixedly connected with the first connecting rod, a second sliding rod slidably connected with the sliding plate, a hinge magnetic plate symmetrically sliding through the wall of the installation box, and a hinge rotating rod, a first rotating rod and a first screw rod which are rotationally symmetrically arranged in the wall of the installation box, wherein the first rotating rod is positioned between the same horizontal planes of the hinge rotating rods, the first rotating rod is arranged on a central line in the wall of the installation box and is perpendicular to the first rotating rod, the lower end of the hinge magnetic plate is provided with a hinge rack, the hinge rotating rod is fixedly sleeved with a hinge gear and first bevel gears symmetrically arranged on two sides of the hinge gear and positioned in the wall of the installation box, the hinge gear is meshed with the hinge rack, and the first rotating rod is fixed with a second bevel gear and symmetrically arranged on two sides of the second bevel gears positioned at two ends of the first rotating rod The third bevel gear is meshed with the first bevel gear, a fourth bevel gear is fixedly arranged at the lower end of the first screw rod, a first nut seat and a second nut seat are fixedly sleeved at the outer end of the first screw rod, the fourth bevel gear is meshed with the second bevel gear, the first nut seat is hinged with a first hinge rod, the first hinge rod is respectively hinged with a second hinge rod and a stamping part, the second nut seat is fixedly connected with a third hinge rod, the second hinge rod is hinged with the upper end of the third hinge rod, and a clamping part is fixedly arranged at the top end, away from the mounting box, of one hinge rotating rod;

the transportation assembly comprises a driving rotating rod rotatably arranged on the transportation bin, driving gears symmetrically and fixedly arranged at the outer ends of the driving rotating rod, gear chains in meshed connection with the driving teeth, and driven gears in meshed connection with the gear chains, the driven gears are fixedly connected with driven rotating rods, the driven rotating rods are rotatably arranged in the transportation bin, a plurality of equidistant clamping strips are fixedly arranged between the two gear chains, and the clamping strips are locked and fixed with the clamping blocks through locking structures;

the transmission device comprises a first transmission rod rotatably arranged in the transportation bin, and a fifth bevel gear and a sixth bevel gear which are fixedly arranged at two ends of the first transmission rod, wherein the fifth bevel gear is connected with a seventh bevel gear in a meshed manner, the seventh bevel gear is fixedly connected with a second transmission rod, the second transmission rod is fixedly connected with an eighth bevel gear, the sixth bevel gear is connected with a ninth bevel gear in a meshed manner, and the ninth bevel gear is fixedly sleeved at the outer end of the driving rotating rod;

the transmission structure comprises a third supporting frame fixedly arranged on the bottom plate of the working bin and a third transmission rod rotatably arranged in the third supporting frame, a tenth bevel gear and a bearing piece with an upper opening are fixedly arranged at two ends of the third transmission rod, the bearing piece is clamped and connected with a clamping piece, and the shape of the outer end of the clamping piece is matched with that of the clamping piece;

the driving device comprises a servo motor fixedly arranged at the upper end of the working bin and a second screw rod fixedly connected with an output shaft of the servo motor, the second screw rod is rotatably connected with the working bin, a third nut seat, a worm gear, an eleventh bevel gear and a twelfth bevel gear are sleeved on the second screw rod, the third nut seat is in threaded connection with the second screw rod sleeve, the worm gear is in meshed connection with a worm, the worm is rotatably connected with the working bin, the eleventh bevel gear is in meshed connection with an eighth bevel gear, and the twelfth bevel gear is in meshed connection with a tenth bevel gear;

open drive arrangement and make its operation, kinetic energy makes the transportation of its upper end press from both sides the inclined motion for the transportation subassembly through the transmission, the kinetic energy transmission makes the installation clamp vertical motion for the installation clamp simultaneously, transportation presss from both sides and the extrusion of crossing of installation clamp, make transportation press from both sides and the installation clamp keep away from each other after the data plate in the transportation clamp inhales in the installation clamp, behind the fastener embedding transmission structure's the receiving piece of installation clamp, drive arrangement continues the operation, kinetic energy makes its joint to the equipment wall outer end through incessantly punching press data plate of stamping workpiece in the transmission structure drive installation clamp.

As a further description of the above technical solution:

the supporting frame is provided with a channel, and the lower end of the channel of the supporting frame is correspondingly provided with a material conveying device for loading equipment.

As a further description of the above technical solution:

the material conveying device comprises a material conveying rotating rod rotatably arranged in the supporting frame, and a material conveying roller fixedly sleeved at the outer end of the material conveying rotating rod, wherein a fixing piece is fixedly arranged after the material conveying rotating rod penetrates through the supporting frame.

As a further description of the above technical solution:

the fixing piece is externally connected with a driving motor.

As a further description of the above technical solution:

the locking structure includes that locking pole, slip cap establish the locking spring in locking pole outer end and the fixed locking that sets up at the locking pole left end are drawn and are turned round, the fixed locking piece that is equipped with in locking pole outer end, locking spring both ends extrude locking piece and block respectively, in the locking pole right-hand member embedding block strip.

As a further description of the above technical solution:

the clamping strip is provided with a groove matched with the shape of the right end of the locking rod.

As a further description of the above technical solution:

the supporting structure comprises a second supporting frame fixedly arranged on the side wall of the transportation box and a supporting rod arranged on the second supporting frame in a sliding mode, the supporting rod penetrates through the second supporting frame and the transportation box, supporting blocks and limiting blocks are fixedly arranged at two ends of the supporting rod, the limiting blocks are located on one side of the transportation box, the supporting blocks are located in the transportation box, supporting springs are arranged on sliding sleeves at the outer ends of the supporting rods, contact blocks are arranged on the fixing sleeves of the supporting rods in a sleeved mode, the two ends of each supporting spring respectively support the inner walls of the contact blocks and the second supporting frame, and the supporting springs are in an extrusion state and are limited to support the outer wall of the second supporting frame.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

the invention is provided with the transportation clamp and the installation clamp matched with the transportation clamp, so that the nameplate is prevented from falling off in a motion state, the nameplate can stably enter the installation clamp by being matched with the installation clamp for use, the nameplate is extruded by a stamping part arranged in the installation clamp, the nameplate is fixedly clamped with equipment, the transportation clamp and the installation clamp are respectively matched with the transportation clamp and the installation clamp, and the transportation clamp, the transmission structure, the transmission device and the driving device are respectively arranged, and the driving device continuously transmits kinetic energy to the transportation clamp, the transmission structure and the transmission device, so that the transportation clamp and the installation clamp are driven to continuously work, the purpose of mechanical automation is achieved, and the whole structure is simple and convenient.

Drawings

FIG. 1 illustrates a front view of an electromechanical device provided in accordance with the present invention;

FIG. 2 illustrates a schematic diagram of an internal structure of an electromechanical device provided in accordance with the present invention;

FIG. 3 shows a partial enlarged view at A of FIG. 2;

FIG. 4 is a schematic view of a shipping box and a mounting box compression provided in accordance with the present invention;

FIG. 5 shows a schematic view of a transport box structure provided according to the present invention;

FIG. 6 shows a partial enlarged view at C of FIG. 5;

FIG. 7 illustrates a cross-sectional view at a support structure provided in accordance with the present invention;

FIG. 8 is a schematic view of a catch block and locking arrangement provided in accordance with the present invention;

FIG. 9 is a schematic view of the internal structure of the mounting box provided in accordance with the present invention;

fig. 10 shows a partial enlarged view at D of fig. 9.

FIG. 11 shows a partial enlarged view at B of FIG. 4;

FIG. 12 is a schematic view of a toggle clevis and toggle ring compression configuration according to the present invention;

FIG. 13 shows a view at E-E of FIG. 9;

FIG. 14 is a schematic diagram of a transmission configuration provided in accordance with the present invention;

fig. 15 shows a schematic view at partial enlargement of a worm provided according to the invention.

Illustration of the drawings:

1. a support frame; 11. a channel; 2. a working bin; 3. a transport bin; 4. transporting the clamp; 41. a transport box; 42. a clamping block; 43. a clamping structure; 431. a first support frame; 432. a first slide bar; 433. an arc-shaped extrusion block; 434. a dial ring; 435. a clamping spring; 436. a fixed block; 44. a locking structure; 441. a lock lever; 442. a locking block; 443. a locking spring; 444. locking the pull button; 45. a support structure; 451. a second support frame; 452. a support bar; 453. a support block; 454. a limiting block; 455. a support spring; 456. a contact block; 5. installing a clamp; 51. mounting a box; 52. a U-shaped connecting sheet; 53. poking the U-shaped clamp; 54. a first connecting rod; 55. a sliding plate; 56. a second slide bar; 57. a hinge magnetic plate; 58. a hinge rack; 59. hinge rotating rod; 510. a hinge gear; 511. a first bevel gear; 512. a first rotating lever; 513. a second bevel gear; 514. a third bevel gear; 515. a first lead screw; 516. a fourth bevel gear; 517. a first nut seat; 518. a second nut seat; 519. a first hinge lever; 520. a second hinge lever; 521. a third hinge rod; 522. stamping parts; 523. a fastener; 6. a transport assembly; 61. an active rotating rod; 62. a driving gear; 63. a gear train; 64. a driven gear; 65. a driven rotating rod; 66. clamping the strip; 7. a transmission device; 71. a first drive lever; 72. a fifth bevel gear; 73. a sixth bevel gear; 74. a seventh bevel gear; 75. a second transmission rod; 76. an eighth bevel gear; 77. a ninth bevel gear; 8. a transmission structure; 81. a third support frame; 82. a third transmission rod; 83. a tenth bevel gear; 84. a receiving member; 9. a drive device; 91. a servo motor; 92. a second lead screw; 93. a third nut seat; 94. a worm gear; 95. a worm; 96. an eleventh bevel gear; 97. a twelfth bevel gear.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-15, the present invention provides a technical solution: an electromechanical equipment nameplate clamp with anti-drop tightening effect comprises a supporting frame 1, a working bin 2 which is arranged at the upper end of the supporting frame 1 and is provided with a lower discharge hole, a transportation bin 3 which is arranged at the left end of the working bin 2 and is provided with a left feed hole, a transportation clamp 4 which is arranged in the transportation bin 3 and is used for clamping a nameplate to lead the nameplate to be anti-drop, the automatic plate-clamping device comprises a mounting clamp 5, a transportation assembly 6, a transmission device 7, a transmission structure 8 and a driving device 9, wherein the mounting clamp 5 is arranged in a working bin 2 and is matched with a transportation clamp 4 for transmission, the transportation assembly 6 is arranged in the transportation bin 3 and is used for mounting the transportation clamp 4, the transmission device 7 is arranged at the side ends of the transportation bin 3 and the working bin 2 and is used for transmitting kinetic energy, the driving device 8 is arranged in the working bin 2 and is used for driving the mounting clamp 5 to vertically reciprocate, and the driving device 7 and the transmission structure 8 are respectively used for driving the transportation clamp 4 to do inclined motion and punching a nameplate by using the internal structure of the mounting clamp 5 so as to clamp the nameplate to connect equipment;

the transportation clamp 4 comprises a transportation box 41, a clamping block 42 with a lower opening symmetrically and fixedly arranged at the lower end of the transportation box 41, a plurality of clamping structures 43 symmetrically arranged on side plates of the transportation box 41 and used for clamping and fastening nameplate clamps, a locking structure 44 arranged in the clamping block 42 and used for installing the transportation clamp 4 on the transportation component 6, and a supporting structure 45 arranged on a bottom plate of the transportation box 41 and used for supporting nameplates, wherein the clamping structures 43 are arranged in a plurality of intervals, each clamping structure 43 comprises a first supporting frame 431 fixedly connected with the transportation box 41 and a first sliding rod 432 slidably arranged in the supporting frame, two ends of each first sliding rod 432 are fixedly provided with an arc-shaped extrusion block 433 and a toggle ring 434, each first sliding rod 432 is sleeved with a clamping spring 435 and a fixing block 436, each clamping spring 435 is slidably connected with each first sliding rod 432, each fixing block 436 is positioned in each first supporting frame 431 and is fixedly connected with each first sliding rod 432, two ends of the clamping spring 435 respectively abut against the fixed block 436 and the inner wall of the first supporting frame 431, the arc-shaped extrusion block 433 is positioned in the transport box 41, and the poking ring 434 is positioned outside the transport box 41;

the mounting clamp 5 comprises a mounting box 51, a U-shaped connecting sheet 52 arranged at the upper outer end of the mounting box, a toggle U-shaped clamp 53 fixedly connected with the U-shaped connecting sheet 52, a first connecting rod 54 fixedly arranged at the right end of the mounting box 51, a sliding plate 55 fixedly connected with the first connecting rod 54, a second sliding rod 56 slidably connected with the sliding plate 55, hinge magnetic plates 57 symmetrically sliding through the wall of the mounting box 51, hinge rotating rods 59 rotationally and symmetrically arranged in the wall of the mounting box 51, a first rotating rod 512 and a first screw 515, wherein the first rotating rod 512 is positioned between the hinge rotating rods 59 on the same horizontal plane, the first rotating rod 512 is arranged on the central line in the wall of the mounting box 51 and is vertical to the first rotating rod 512, a hinge rack 58 is arranged at the lower end of the hinge magnetic plate 57, the hinge rotating rod 59 is fixedly sleeved with a hinge gear 510 and first bevel gears 511 symmetrically arranged on two sides of the hinge gear 510 and positioned in the wall of the mounting box 51, the hinge gear 510 is engaged with the hinge rack 58, the first rotating rod 512 is fixedly sleeved with a second bevel gear 513 and third bevel gears 514 symmetrically arranged at two sides of the second bevel gear 513 and located at two ends of the first rotating rod 512, the third bevel gear 514 is engaged with the first bevel gear 511, the lower end of the first lead screw 515 is fixedly provided with a fourth bevel gear 516, the outer end of the first lead screw 515 is fixedly sleeved with a first nut seat 517 and a second nut seat 518, the fourth bevel gear 516 is engaged with the second bevel gear 513, the first nut holder 517 is hinged with a first hinge rod 519, the first hinge rod 519 is respectively hinged with a second hinge rod 520 and a stamping 522, the second nut seat 518 is fixedly connected with a third hinge rod 521, the second hinge rod 520 is hinged with the upper end of the third hinge rod 521, a clamping piece 523 is fixedly arranged at the top end of one hinge rotating rod 59 far away from the mounting box 51;

the transportation assembly 6 comprises a driving rotating rod 61 rotatably arranged on the transportation bin 3, driving gears 62 symmetrically and fixedly arranged at the outer ends of the driving rotating rod 61, gear chains 63 in meshed connection with driving teeth, and driven gears 64 in meshed connection with the gear chains 63, wherein the driven gears 64 are fixedly connected with driven rotating rods 65, the driven rotating rods 65 are rotatably arranged in the transportation bin 3, a plurality of equidistant clamping strips 66 are fixedly arranged between the two gear chains 63, and the clamping strips 66 are locked and fixed with the clamping blocks 42 through locking structures 44;

the transmission device 7 comprises a first transmission rod 71 rotatably arranged in the transport bin 3, and a fifth bevel gear 72 and a sixth bevel gear 73 which are fixedly arranged at two ends of the first transmission rod 71, wherein the fifth bevel gear 72 is connected with a seventh bevel gear 74 in an engaged manner, the seventh bevel gear 74 is fixedly connected with a second transmission rod 75, the second transmission rod 75 is fixedly connected with an eighth bevel gear 76, the sixth bevel gear 73 is connected with a ninth bevel gear 77 in an engaged manner, and the ninth bevel gear 77 is fixedly sleeved at the outer end of the driving rotating rod 61;

the transmission structure 8 comprises a third supporting frame 81 fixedly arranged on the bottom plate of the working bin 2 and a third transmission rod 82 rotatably arranged therein, wherein a tenth bevel gear 83 and a bearing piece 84 with an upper opening are fixedly arranged at two ends of the third transmission rod 82, the bearing piece 84 is clamped and connected with a clamping piece 523, and the outer end shape of the clamping piece 523 is matched with that of the clamping piece 523;

the driving device 9 comprises a servo motor 91 fixedly arranged at the upper end of the working bin 2 and a second screw rod 92 fixedly connected with an output shaft of the servo motor 91, the second screw rod 92 is rotatably connected with the working bin 2, the second screw rod 92 is sleeved with a third nut seat 93, a worm gear 94, an eleventh bevel gear 96 and a twelfth bevel gear 97, the third nut seat 93 is in threaded connection with the second screw rod 92, the worm gear 94 is in meshed connection with a worm 95, the worm 95 is rotatably connected with the working bin 2, the eleventh bevel gear 96 is in meshed connection with the eighth bevel gear 76, and the twelfth bevel gear 97 is in meshed connection with the tenth bevel gear 83;

the driving device 9 is opened to operate, kinetic energy is transmitted to the transportation assembly 6 through the transmission device 7 to enable the transportation clamp 4 at the upper end of the transportation assembly to move obliquely, meanwhile, kinetic energy is transmitted to the installation clamp 5 to enable the installation clamp 5 to move vertically, the transportation clamp 4 and the installation clamp 5 are intersected and extruded, after a nameplate in the transportation clamp 4 is sucked into the installation clamp 5, the transportation clamp 4 and the installation clamp 5 are far away from each other, after the clamping piece 523 of the installation clamp 5 is embedded into the bearing piece 84 of the transmission structure 8, the driving device 9 continues to operate, and the kinetic energy drives the stamping piece 522 in the installation clamp 5 to continuously stamp the nameplate to enable the nameplate to be clamped to the outer end of the equipment wall through the transmission structure 8.

Further, the supporting frame 1 is provided with a channel 11, and the lower end of the channel 11 of the supporting frame 1 is correspondingly provided with a material conveying device for loading equipment;

conveying device passes through 11 transports of passageway with equipment to the continuation is with the data plate joint in the equipment wall, and the equipment correspondence is equipped with joint data plate block module, and the block module includes spring, block pole and block 42, and the spring extrudees equipment wall and block 42 respectively, promotes block pole relative motion, thereby makes the laminating of block pole lower extreme in the data plate upper end, locks the data plate.

Further, the material conveying device comprises a material conveying rotating rod rotatably arranged in the supporting frame 1 and a material conveying roller fixedly sleeved at the outer end of the material conveying rotating rod, and a fixing part is fixedly arranged after the material conveying rotating rod penetrates through the supporting frame 1;

the rotating fixing piece rotates to drive the fixing piece to rotate to drive the material conveying rotating rod fixed with the fixing piece to rotate, the further material conveying rotating rod rotates to drive the material conveying roller fixedly sleeved with the material conveying rotating rod to rotate, further equipment is placed on the material conveying roller, and the material conveying roller rotates to drive the equipment to move.

Further, the fixing piece is externally connected with a driving motor; the output shaft of the driving motor is fixedly connected with the fixing piece through the rotating shaft, so that the electric driving is realized, and the feeding speed is increased.

Further, the locking structure 44 includes a locking rod 441, a locking spring 443 slidably sleeved at the outer end of the locking rod 441, and a locking pull knob 444 fixedly disposed at the left end of the locking rod 441, the outer end of the locking rod 441 is fixedly provided with a locking block 442, two ends of the locking spring 443 respectively press the locking block 442 and the engaging block 42, and the right end of the locking rod 441 is embedded in the engaging strip 66;

insert to block strip 66 from the top down with transportation clamp 4, block strip 66 imbeds in the block 42 lower shed, and this moment block strip 66 extrusion locking pole 441 right-hand member arc moves left, and further locking pole 441 drives locking piece 442 and moves left, and further locking piece 442 extrudes locking spring 443 to contract left, and in locking pole 441 imbeds the recess of block strip 66, locking spring 443 return extrudes locking piece 442 to it is fixed with transportation clamp 4 and transportation subassembly 6.

The clamping strip 66 is further provided with a groove matched with the shape of the right end of the locking rod 441; the normal operation of groove locking is guaranteed.

Further, the supporting structure 45 includes a second supporting frame 451 fixedly disposed on a side wall of the transporting box 41 and a supporting rod 452 slidably disposed on the second supporting frame 451, the supporting rod 452 penetrates through the second supporting frame 451 and the transporting box 41, a supporting block 453 and a limiting block 454 are fixedly disposed at two ends of the supporting rod 452, the limiting block 454 is located at a side far away from the transporting box 41, the supporting block 453 is located in the transporting box 41, a supporting spring 455 is slidably sleeved at an outer end of the supporting rod 452, a contact block 456 is fixedly sleeved on the supporting rod 452, two ends of the supporting spring 455 respectively abut against the contact block 456 and an inner wall of the second supporting frame 451, so that the supporting spring 455 is in a squeezing state, and the limiting block 454 abuts against an outer wall of the second supporting frame 451;

a plurality of data plates are placed in the transportation box 41, the supporting block 453 is extruded, the supporting block 453 drives the supporting rod 452 fixed with the supporting block 453 to move out of the transportation box 41, the supporting spring 455 is compressed, and the supporting block is matched with the clamping structure 43 on the side wall of the transportation box 41, so that the data plates are supported and clamped stably.

The working principle is as follows: when the screw driver is used, the servo motor 91 is opened to work, the output shaft of the servo motor 91 is rotated to drive the second screw rod 92 fixedly connected with the servo motor to rotate, the second screw rod 92 is a reciprocating screw rod, the further second screw rod 92 is rotated to drive the eleventh bevel gear 96 and the twelfth bevel gear 97 fixedly sleeved with the second screw rod to rotate, the further second screw rod 92 is rotated to drive the third nut seat 93 sleeved with the second screw rod to vertically move upwards, meanwhile, the eleventh bevel gear 96 is rotated to drive the eighth bevel gear 76 meshed with the eleventh bevel gear to rotate, the further eighth bevel gear 76 is rotated to drive the second transmission rod 75 fixed with the eighth bevel gear to rotate, the further second transmission rod 75 is rotated to drive the seventh bevel gear 74 fixed with the seventh bevel gear 74 to rotate, the further seventh bevel gear 74 is driven to rotate the fifth bevel gear 72 meshed with the seventh bevel gear 72, and the further fifth bevel gear 72 is rotated to drive the first transmission rod 71 fixed with the fifth bevel gear to rotate, the further first transmission rod 71 rotates to drive the sixth bevel gear 73 fixed with the first transmission rod to rotate, the further sixth bevel gear 73 rotates to drive the ninth bevel gear 77 connected with the third bevel gear in a meshed manner, the further ninth bevel gear 77 rotates to drive the driving rotating rod 61 fixedly sleeved with the driving rotating rod to rotate, the further driving rotating rod 61 rotates to drive the two driving gears 62 symmetrically sleeved with the driving rotating rod to rotate, the further driving gear 62 rotates to drive the gear chain 63 connected with the driving rotating rod in a meshed manner, the further gear chain 63 rotates to drive the driven gear 64 meshed with the driving rotating rod to rotate, the further driven gear 64 rotates to drive the driven rotating rod 65 fixed with the driven rotating rod to rotate, the further two chains rotate to drive the clamping strip 66 fixed between the two chains to rotate, the further clamping strip 66 rotates to drive the transport clamp 4 locked with the clamping strip to move, when a product moves to a left feed inlet of the transport bin 3, putting a plurality of nameplates into the transportation clamp 4 through a left feeding hole, applying pressure, extruding an arc-shaped extrusion block 433 by the nameplates to move outwards of the transportation box 41, driving a first sliding rod 432 fixed with the arc-shaped extrusion block 433 to move outwards, driving a fixed block 436 fixed with the first sliding rod 432 to move outwards by the first sliding rod 432, driving a clamping spring 435 to shrink by the outward movement of the fixed block 436, driving a reverse pressure by the contraction of the clamping spring 435, further matching a supporting structure 45, supplying a supporting force perpendicular to the clamping structure 43 by the supporting structure 45, clamping the nameplates to prevent the nameplates from falling off in the transportation process, when the transportation clamp 4 moves into the working bin 2 through a transportation component 6 and is perpendicular to the transportation clamp, pressing the installation clamp 5 and the transportation clamp 4 at the moment, clamping a U-shaped connecting sheet 52 of the installation clamp 5 to a first supporting frame 431, meanwhile, the U-shaped clamp 53 is shifted to clamp the first sliding rod 432, one side of the U-shaped clamp far away from the mounting clamp 5 extrudes the shifting ring 434, the shifting ring 434 is continuously extruded to move in the direction far away from the first supporting frame 431 along with the pushing of the shifting U-shaped clamp 53, the shifting ring 434 drives the first sliding rod 432 to move, the first sliding rod 432 moves outwards to drive the arc-shaped extrusion block 433 fixed with the sliding rod 433 to move outwards, so that the nameplate is released in a locking state, the nameplate extrusion force is given by the further supporting structure 45, the oppositely opened hinge magnetic plate 57 on the mounting clamp 5 is added, gravity is added, so that the nameplate enters the mounting box 51 from the transportation box 41 and is adsorbed by the hinge magnetic plate 57, when the transportation box 41 is connected with the mounting box 51, the second lead screw 92 is suspended, in order to prevent the second lead screw 92 from automatically rotating, the second lead screw 92 is fixedly sleeved with a worm gear 94, and the worm gear 94 is meshed with a worm 95, the worm 95 is perpendicular to the second screw rod 92 so as to lock the second screw rod 92, further after the transportation box 41 is connected with the installation box 51, the servo motor 91 continues to drive the second screw rod 92 to rotate, further the transportation box 41 is far away from the installation box 51, further the installation box 51 is attached to vertical plates at the left end and the right end of the working bin 2, so that the installation box 51 moves vertically and downwards more stably, further the installation box 51 descends to the position that the clamping piece 523 is clamped in the bearing piece 84, as the twelfth bevel gear 97 always drives the tenth bevel gear 83 meshed with the twelfth bevel gear 97 to rotate, further the tenth bevel gear 83 rotates to drive the third transmission rod 82 fixed with the tenth bevel gear 82 to rotate, further the third transmission rod 82 rotates to drive the bearing piece 84 fixed with the third transmission rod to rotate, thereby driving the clamping piece 523 to rotate, further the clamping piece 523 rotates to drive one of the hinge rotating rods 59 fixed with the clamping piece 523 to rotate, the further hinge rotating rod 59 simultaneously drives two hinge gears 510 and two first bevel gears 511 fixed with the further hinge rotating rod to rotate, the further first bevel gear 511 rotates to drive a third bevel gear 514 meshed with the further first bevel gear, the further third bevel gear 514 rotates to drive a first rotating rod 512 fixed with the further first rotating rod to rotate, the further first rotating rod 512 rotates to drive another third bevel gear 514 fixed with the further first rotating rod to rotate, so that the moving inner part is transmitted to another hinge rotating rod 59, the two hinge rotating rods 59 jointly move to be matched with the hinge gear 510, the hinge gear 510 is meshed with and connected with the hinge rack 58, the hinge rack 58 is fixedly arranged at the lower end of the hinge magnetic plate 57 so as to drive the two hinge magnetic plates 57 to relatively move, at the moment, the hinge rotating rod is sleeved at the outer end of the first rotating rod 512 in a rotating mode and meshed with a fourth bevel gear 516 so as to drive the first screw rod 515 to rotate, the first screw rod 515 rotates to drive a second screw seat 518 connected with the first screw rod to move downwards, the further second nut seat 518 moves downwards to drive the third hinge rod 521 fixed with the further second nut seat to move downwards, so as to drive the stamping part 522 fixed with the further second nut seat to move downwards continuously, at this time, the first hinge rod 519 hinged with the further second nut seat is pulled to move, the lower end of the first hinge rod 519 is hinged with the third hinge rod 521, the third hinge rod 521 is hinged with the upper end of the third hinge rod 521, so that the first hinge rod 519 and the second hinge rod 520 are unfolded, so as to rotate the stamping part 522, further, when the rotating rod moves continuously, the first hinge rod 519 and the second hinge rod are unfolded completely under the continuous pulling of the second nut seat 518, at this time, the first hinge rod 519 drives the first nut seat 517 fixed with the first hinge rod to move downwards, so that the first nut seat 517 is in threaded connection with the first nut seat 515, at this time, the first nut seat 517, the second nut seat 518, the first hinge rod 519 and the second hinge rod 520 make the state of the stamping part 522 completely locked, further, the method comprises

The first screw 515 rotates continuously to drive the stamping part 522 to move downwards continuously, at this time, the two hinge magnetic plates 57 are completely opened, the name plate is supported by the elastic sleeves at the symmetrical ends, the name plate is stamped by the further stamping part 522, the name plate is separated from the mounting box 51 and the working bin 2 downwards and is embedded into a clamping groove preset by equipment, in order to ensure the normal operation of the required device, the length of the sliding slot formed on the sliding plate 55 is equal to the sum of the lengths of the two first lead screws 515, the sliding plate 55 is slidably connected with a second sliding rod 56, thereby leaving time for mounting the name plate, so that the length of the slide groove on the slide plate 55 is equal to the sum of the lengths of the two first lead screws 515, the sum of the lengths of the vertical movement of the mounting box 51 of the two first lead screws 515 is equal to the movement length of the transport clamps 4, and the length of the transport clamps 4 is equal to the number of the transport clamps 4 compared with the length of the gear train 63.

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 (7)

1. The electromechanical equipment nameplate clamp with the anti-falling tightening effect is characterized by comprising a supporting frame (1), a working bin (2) with a lower discharge port is arranged at the upper end of the supporting frame (1), a transportation bin (3) with a left feed port at the left end of the working bin (2), a transportation clamp (4) which is arranged in the transportation bin (3) and used for clamping a nameplate to prevent the nameplate from falling off, an installation clamp (5) which is arranged in the working bin (2) and matched with the transportation clamp (4) for transmission, a transportation assembly (6) which is arranged in the transportation bin (3) and used for installing the transportation clamp (4), a transmission device (7) which is arranged at the side ends of the transportation bin (3) and the working bin (2) and used for transmitting kinetic energy, a transmission structure (8) which is arranged in the working bin (2) and a driving installation clamp (5) to vertically reciprocate, the transmission device (7) and the transmission structure (8) respectively enable the transportation clamp (4) to obliquely move and the installation clamp (5) to move A driving device (9) which is used for stamping the nameplate by a part structure so as to clamp the nameplate with the connecting equipment;

the transportation clamp (4) comprises a transportation box (41), a clamping block (42) which is symmetrically and fixedly arranged at the lower end of the transportation box (41) and provided with a lower opening, a plurality of clamping structures (43) which are symmetrically arranged on side plates of the transportation box (41) and used for clamping and fastening a nameplate clamp, a locking structure (44) which is arranged in the clamping block (42) and used for installing the transportation clamp (4) on a transportation assembly (6), and a supporting structure (45) which is arranged on a bottom plate of the transportation box (41) and used for supporting the nameplate, wherein the clamping structures (43) are arranged in a plurality in equal intervals, the clamping structure (43) comprises a first supporting frame (431) fixedly connected with the transportation box (41) and a first sliding rod (432) which is arranged in the supporting frame in a sliding manner, arc-shaped extrusion blocks (433) and toggle rings (434) are fixedly arranged at the two ends of the first sliding rod (432), and a clamping spring (435) and a fixing block (436) are sleeved on the first sliding rod (432), the clamping spring (435) is in sliding connection with the first sliding rod (432), the fixed block (436) is positioned in the first supporting frame (431) and is fixedly connected with the first sliding rod (432), two ends of the clamping spring (435) respectively abut against the fixed block (436) and the inner wall of the first supporting frame (431), the arc-shaped extrusion block (433) is positioned in the transportation box (41), and the poking ring (434) is positioned outside the transportation box (41);

the mounting clamp (5) comprises a mounting box (51), a U-shaped connecting sheet (52) arranged at the upper outer end of the mounting box, a toggle U-shaped clamp (53) fixedly connected with the U-shaped connecting sheet (52), a first connecting rod (54) fixedly arranged at the right end of the mounting box (51), a sliding plate (55) fixedly connected with the first connecting rod (54), a second sliding rod (56) slidably connected with the sliding plate (55), hinge magnetic plates (57) symmetrically sliding through the wall of the mounting box (51), hinge rotating rods (59) rotationally and symmetrically arranged in the wall of the mounting box (51), a first rotating rod (512) and a first screw rod (515), wherein the first rotating rod (512) is positioned between the hinge rotating rods (59) on the same horizontal plane, the first rotating rod (512) is arranged on the central line in the wall of the mounting box (51) and is vertical to the first rotating rod (512), a hinge rack (58) is arranged at the lower end of the hinge plates (57), the hinge rotating rod (59) is fixedly sleeved with a hinge gear (510) and first bevel gears (511) symmetrically arranged on two sides of the hinge gear (510) and located in the wall of the mounting box (51), the hinge gear (510) is meshed and connected with the hinge rack (58), the first rotating rod (512) is fixedly sleeved with a second bevel gear (513) and third bevel gears (514) symmetrically arranged on two sides of the second bevel gear (513) and located at two ends of the first rotating rod (512), the third bevel gears (514) are meshed and connected with the first bevel gears (511), the lower end of the first screw rod (515) is fixedly provided with a fourth bevel gear (516), the outer end of the first screw rod is fixedly sleeved with a first nut seat (517) and a second nut seat (518), the fourth bevel gear (516) is meshed and connected with the second bevel gear (513), the first nut seat (517) is hinged with a first hinge rod (519), and the first hinge rod (519) is respectively hinged with a second hinge rod (520) and a stamping part (522), the second nut seat (518) is fixedly connected with a third hinged rod (521), the second hinged rod (520) is hinged to the upper end of the third hinged rod (521), and a clamping piece (523) is fixedly arranged at the top end, far away from the mounting box (51), of one of the hinged rotating rods (59);

the transportation assembly (6) comprises a driving rotating rod (61) rotatably arranged on the transportation bin (3), a driving gear (62) symmetrically and fixedly arranged at the outer end of the driving rotating rod (61), a gear chain (63) in meshed connection with the driving gear and a driven gear (64) in meshed connection with the gear chain (63), wherein the driven gear (64) is fixedly connected with a driven rotating rod (65), the driven rotating rod (65) is rotatably arranged in the transportation bin (3), a plurality of clamping strips (66) with equal intervals are fixedly arranged between the two gear chains (63), and the clamping strips (66) are fixedly locked with the clamping blocks (42) through a locking structure (44);

the transmission device (7) comprises a first transmission rod (71) rotatably arranged in the transportation bin (3), a fifth bevel gear (72) and a sixth bevel gear (73) which are fixedly arranged at two ends of the first transmission rod (71), the fifth bevel gear (72) is connected with a seventh bevel gear (74) in a meshing manner, the seventh bevel gear (74) is fixedly connected with a second transmission rod (75), the second transmission rod (75) is fixedly connected with an eighth bevel gear (76), the sixth bevel gear (73) is connected with a ninth bevel gear (77) in a meshing manner, and the ninth bevel gear (77) is fixedly sleeved at the outer end of the driving rotating rod (61);

the transmission structure (8) comprises a third supporting frame (81) fixedly arranged on a bottom plate of the working bin (2) and a third transmission rod (82) rotatably arranged inside the third supporting frame, a tenth bevel gear (83) and a bearing piece (84) with an upper opening are fixedly arranged at two ends of the third transmission rod (82), the bearing piece (84) is connected with a clamping piece (523) in a clamping mode, and the outer end of the clamping piece (523) is matched with the clamping piece (523) in shape;

the driving device (9) comprises a servo motor (91) fixedly arranged at the upper end of the working bin (2) and a second screw rod (92) fixedly connected with an output shaft of the servo motor (91), the second screw rod (92) is rotatably connected with the working bin (2), a third nut seat (93), a worm gear (94), an eleventh bevel gear (96) and a twelfth bevel gear (97) are sleeved on the second screw rod (92), the third nut seat (93) is in threaded connection with the second screw rod (92), the worm gear (94) is in meshed connection with a worm (95), the worm (95) is rotatably connected with the working bin (2), the eleventh bevel gear (96) is in meshed connection with an eighth bevel gear (76), and the twelfth bevel gear (97) is in meshed connection with the tenth bevel gear (83);

the driving device (9) is opened to operate, kinetic energy is transmitted to the conveying assembly (6) through the transmission device (7) to enable the conveying clamp (4) at the upper end of the conveying assembly to obliquely move, meanwhile, the kinetic energy is transmitted to the mounting clamp (5) to enable the mounting clamp (5) to vertically move, the conveying clamp (4) and the mounting clamp (5) are intersected and extruded, a nameplate in the conveying clamp (4) is sucked into the mounting clamp (5), the conveying clamp (4) and the mounting clamp (5) are far away from each other, after the clamping piece (523) of the mounting clamp (5) is embedded into the bearing piece (84) of the transmission structure (8), the driving device (9) continues to operate, and the kinetic energy drives the stamping piece (522) in the mounting clamp (5) to continuously stamp the nameplate to enable the nameplate to be clamped to the outer end of the equipment wall.

2. The nameplate holder for electromechanical equipment with anti-drop tightening effect according to claim 1, wherein the supporting frame (1) is provided with a channel (11), and a material conveying device for the upper equipment is correspondingly arranged at the lower end of the channel (11) of the supporting frame (1).

3. The electromechanical device nameplate clamp with the anti-drop clamping effect according to claim 2, wherein the feeding device includes a feeding rod rotatably disposed in the supporting frame (1), a feeding roller fixedly sleeved at an outer end of the feeding rod, and a fixing member fixedly disposed after the feeding rod penetrates through the supporting frame (1).

4. The electromechanical device nameplate clamp with the anti-drop clamping effect as claimed in claim 3, wherein the fixing member is externally connected with a driving motor.

5. The electromechanical device nameplate clamp with the anti-drop tightening effect as claimed in claim 1, wherein the locking structure (44) comprises a locking rod (441), a locking spring (443) slidably sleeved at an outer end of the locking rod (441), and a locking pull knob (444) fixedly arranged at a left end of the locking rod (441), the outer end of the locking rod (441) is fixedly provided with a locking block (442), two ends of the locking spring (443) respectively press the locking block (442) and the engaging block (42), and a right end of the locking rod (441) is embedded into the engaging strip (66).

6. The electromechanical device nameplate clamp with drop-proof clamping effect as claimed in claim 5, wherein the snap-in strip (66) is provided with a groove matching the shape of the right end of the locking rod (441).

7. The electromechanical device nameplate clamp with the anti-drop tightening effect as claimed in claim 1, wherein the supporting structure (45) comprises a second supporting frame (451) fixedly arranged on the side wall of the transportation box (41) and a supporting rod (452) slidably arranged on the second supporting frame (451), the supporting rod (452) penetrates through the second supporting frame (451) and the transportation box (41), a supporting block (453) and a limiting block (454) are fixedly arranged at two ends of the supporting rod (452), the limiting block (454) is arranged at one side far away from the transportation box (41), the supporting block (453) is arranged in the transportation box (41), a supporting spring (455) is slidably sleeved at the outer end of the supporting rod (452), a contact block (456) is fixedly sleeved on the supporting rod (452), two ends of the supporting spring (455) respectively abut against the inner walls of the contact block (456) and the second supporting frame (451), the supporting spring (455) is pressed and the limit block (454) is pressed against the outer wall of the second supporting frame (451).

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