CN214352189U - Lock catch spring positioning and shaping mechanism - Google Patents

Abstract

The utility model discloses a hasp spring positioning plastic mechanism, which comprises a frame, be provided with transport mechanism in the frame, transport mechanism is including the installation mainboard, it gets the mechanism to be provided with the clamp on the installation mainboard, the clamp is got the mechanism and is got the board including pressing from both sides, press from both sides and get and be provided with clamp and get motor and second locating lever on getting the board, press from both sides and get and be provided with the bending piece on the main shaft of motor, be provided with first pole and the second pole of buckling on the bending piece, first pole of buckling is located the bending piece and keeps away from the one end of getting motor spindle, and the second is buckled the pole and is located the main shaft axis of pressing from both sides the motor to need not the rethread manual work and buckle and install the hasp spring, and automatic the bending efficiency is high, guarantees the uniformity that the steel wire is buckled, improves assembly quality.

Description

Lock catch spring positioning and shaping mechanism

Technical Field

The utility model belongs to circuit breaker rigging equipment field, more specifically the utility model relates to a hasp spring location plastic mechanism that says so.

Background

Be provided with the hasp on the current miniature circuit breaker, be the executive of circuit breaker thermal tripping and electromagnetic tripping, when circuit breaker pick-up current, contact bar subassembly cooperation on hasp and the circuit breaker, in order to prevent unexpected dropout between hasp and the contact bar subassembly, install in the circuit breaker handle pivot among the prior art with hasp spring (flying the silk), when hasp and contact bar subassembly cooperate, elasticity through the hasp spring provides certain pressure to the hasp, thereby prevent the unexpected dropout of hasp, influence the normal operating of circuit.

As shown in fig. 14 and 15, one end of the latch spring extends out of a section of strip-shaped elastic steel wire, before the latch spring is assembled on a handle rotating shaft of the circuit breaker, the steel wire on the latch spring needs to be bent, so that the latch spring has elasticity, the latch spring needs to be bent manually in the prior art, and the manual bending degree of the latch spring is inconsistent due to the small and long diameter of the steel wire of the latch spring, the labor intensity of workers is high, the manual allocation is tedious, the efficiency is low, and the management difficulty is high. In recent years, labor costs have increased and labor involvement has become difficult. Therefore, there is a need for an automated device that replaces the human hand.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a hasp spring positioning plastic mechanism to replace the manual work to buckle to the hasp spring, guarantee the uniformity that the hasp spring is buckled, improve assembly quality, reduce the labour.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a hasp spring location plastic mechanism, includes the frame, be provided with transport mechanism in the frame, transport mechanism is including the installation mainboard, it gets the mechanism to be provided with the clamp on the installation mainboard, press from both sides to get the mechanism and get the board including pressing from both sides, press from both sides to get and be provided with on the board and press from both sides and get motor and second locating lever, press from both sides and be provided with the bending block on getting the main shaft of motor, be provided with first pole and the second pole of buckling on the bending block, first pole of buckling is located the bending block and keeps away from the one end of pressing from both sides and get motor spindle, and the second pole of buckling is located the main shaft axis of pressing from both sides and getting the motor.

Furthermore, a third positioning pin is connected to the second positioning rod in a sliding manner, one end of the third positioning pin extends out of the second positioning rod, and a second pressure spring is arranged between the third positioning pin and the second positioning rod.

Furthermore, the first bending rod and the second bending rod are provided with ring grooves, and the two ring grooves are located on the same horizontal plane.

Furthermore, an original point induction sheet is arranged above the clamping motor and connected with a main shaft of the clamping motor, an opening is formed in the original point induction sheet, a photoelectric switch is arranged on one side of the clamping motor, and one part of the original point induction sheet extends into the photoelectric switch.

Further, an adjusting mechanism is arranged between the installation main board and the clamping mechanism.

Compared with the prior art, the beneficial effects of the utility model are that: when pressing from both sides and getting the mechanism clamp and get the hasp spring, the spring hole of hasp spring is located the third locating pin, and it is inconsistent with the second locating lever, the steel wire of hasp spring then buckles the pole with first pole and the second respectively and buckles the pole inconsistent, and first pole and the second of buckling is located the both sides of steel wire respectively, in handling, the motor is got to the start clamp, make first pole of buckling rotate around the second pole of buckling towards the direction of steel wire, thereby make the steel wire buckle, when the hasp spring is carried to appointed position, the steel wire is buckled and is accomplished, then assemble the hasp spring on the circuit breaker, thereby need not rethread manual work to buckle and install the hasp spring, and automatic the efficient of buckling, guarantee the uniformity that the steel wire buckled, be favorable to improving assembly quality.

Drawings

Fig. 1 is a three-dimensional structure diagram of the automatic locking spring assembly unit of the present invention;

FIG. 2 is a schematic view of the structure of the grasping mechanism in the assembly unit;

FIG. 3 is a schematic view of the structure on a single gripping block in the gripping mechanism;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic view showing the structure of the carrying mechanism in the assembly unit;

FIG. 6 is a schematic structural view of a gripping mechanism in the carrying mechanism;

FIG. 7 is an enlarged view of portion B of FIG. 6;

FIG. 8 is a schematic structural view of an adjusting mechanism in the carrying mechanism;

FIG. 9 is a schematic view of an adjustment mechanism from another perspective;

FIG. 10 is a schematic view of the construction of the relay mechanism in the assembly unit;

FIG. 11 is a schematic view of the structure of a single middle rotating base of the transfer mechanism;

FIG. 12 is a schematic structural view of a turnover mechanism in a feeding mechanism;

FIG. 13 is a schematic view of the positioning mechanism;

figure 14 is a schematic view of the assembly of the circuit breaker with the latch spring;

fig. 15 is a schematic structural view of the locking spring.

Reference numerals: 1. a frame; 11. a product delivery channel; 2. a grabbing mechanism; 21. a four-axis manipulator; 211. grabbing the bracket; 212. grabbing blocks; 213. an adsorption block; 214. a first positioning rod; 215. an adsorption tank; 216. a first positioning pin; 217. a grabbing cylinder; a CCD positioning mechanism; 221. a CCD camera; 23. a flexible vibratory pan; 3. a carrying mechanism; 31. installing a main board; 32. a three-axis module; 33. a gripping mechanism; 331. clamping the plate; 332. a gripping motor; 333. a second positioning rod; 334. a third positioning pin; 335. a bending block; 336. a first bending bar; 3361. a ring groove; 337. a second bending bar; 338. an origin induction sheet; 339. a photoelectric switch; 34. an adjustment mechanism; 341. a transverse fine adjustment knob; 342. a vertical fine adjustment knob; 343. a longitudinal fine adjustment knob; 344. a transverse moving block; 345. a vertical moving block; 346. a longitudinal moving block; 347. an adjusting seat; 4. a transfer mechanism; 41. a middle transposable; 42. a transfer block; 43. a thin gas claw; 44. positioning blocks; 45. a second positioning pin; 46. a clamping block; 47. a clamping area; 5. a turnover mechanism; 51. a roll-over stand; 52. turning over the frame; 53. turning over the air cylinder; 6. assembling a positioning mechanism; 61. positioning the bracket; 62. positioning a plate; 63. positioning the air cylinder; 64. positioning holes; 65. a positioning pin; 7. a latch spring; 71. a steel wire; 72. a spring hole; 8. a circuit breaker; 81. a handle shaft; 82. and (5) locking.

Detailed Description

In the description of the present invention, it should be noted that, for the orientation words, such as the terms "center", "lateral (X)", "longitudinal (Y)", "vertical (Z)", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., the orientation and the positional relationship are indicated based on the orientation or the positional relationship shown in the drawings, and the description is only for convenience of describing the present invention and simplifying the description, but not for indicating or implying that the device or the element referred to must have a specific orientation, be constructed and operated in a specific orientation, and should not be construed as limiting the specific protection scope of the present invention.

Furthermore, if the terms "first" and "second" are used for descriptive purposes only, they are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. Thus, the definition of "a first" or "a second" feature may explicitly or implicitly include one or more of the features, and "a plurality" or "a plurality" in the description of the invention means two or more unless a specific definition is explicitly provided.

The present invention will be further explained with reference to fig. 1 to 15.

An automatic lock catch spring assembly unit comprises a frame 1, wherein a grabbing mechanism 2 and a carrying mechanism 3 are arranged on the frame 1, a transfer mechanism 4 is arranged between the carrying mechanism 3 and the grabbing mechanism 2, the grabbing mechanism 2 comprises a four-axis manipulator 21, a CCD positioning mechanism 22 and a flexible vibrating disk 23, the four-shaft mechanical arm 21 is positioned above the flexible vibration disk 23, the flexible vibration disk 23 is connected with a feeding mechanism, the four-axis manipulator 21 is provided with a grabbing bracket 211, the grabbing bracket 211 is provided with a grabbing block 212, the grabbing block 212 is connected with the grabbing bracket 211 in a sliding manner, the grabbing block 212 is provided with an adsorption block 213 and a first positioning rod 214, the first positioning rod 214 is located at one side of the adsorption block 213, the adsorption block 213 is provided with an adsorption groove 215, the carrying mechanism 3 is connected with the frame 1 in a sliding mode, and the carrying mechanism 3 is used for carrying and assembling the locking spring 7 on the transfer mechanism 4.

As shown in fig. 3, preferably, a grabbing cylinder 217 is disposed on the grabbing bracket 211, and a piston rod of the grabbing cylinder 217 is connected to the grabbing block 212.

Preferably, the suction block 213 is connected to a vacuum generating device (not shown in the drawings), and the suction force is provided to the suction block 213 by the vacuum generating device.

As shown in fig. 2, the CCD positioning mechanism 22 preferably includes a CCD camera 221, and the CCD camera 221 is located above the four-axis robot 21 and electrically connected to the four-axis robot 21.

As shown in fig. 4, preferably, a first positioning pin 216 is slidably connected in the first positioning rod 214, a first end of the first positioning pin 216 extends out of the first positioning rod 214, a diameter of the first positioning pin 216 is slightly smaller than a diameter of the spring hole 72 of the latching spring 7, and a first compression spring (not shown in the drawings) is disposed between the first positioning pin 216 and the first positioning rod 214, that is, the first positioning pin 216 can elastically extend and contract in the first positioning rod 214.

As shown in fig. 1 and 2, a plurality of locking springs 7 are conveyed to a flexible vibration plate 23 by a feeding mechanism, then the plurality of locking springs 7 are dispersed on the flexible vibration plate 23 by vibration, so that the plurality of locking springs 7 are dispersed without overlapping, then the position of the locking spring 7 on the flexible vibration plate 23 is scanned by a CCD camera 221, and the position electric signal of the locking spring 7 is transmitted to a four-axis manipulator 21, and then the four-axis manipulator 21 operates, so that a first positioning pin 216 on a first positioning rod 214 is aligned with a spring hole 72 of the locking spring 7, and an absorption groove 215 on an absorption block 213 is aligned with a steel wire 71 of the locking spring 7, and then a grabbing bracket 211 is lowered, so that a grabbing block 212 is close to the locking spring 7 with grabbing, and when a grabbing cylinder 217 is started, one end of the first positioning pin 216 extending out of the first positioning rod 214 is extended into the spring hole 72 while the steel wire 71 of the locking spring 7 is abutted against the absorption groove 215, then, the vacuum generating device is started, so that the latch spring 7 is adsorbed on the adsorption block 213, and then the four-axis robot 21 operates again, and transfers the latch spring 7 to the transfer mechanism 4, that is, the capture of the latch spring 7 is completed.

As shown in fig. 1, still be provided with product conveying path 11 in the frame 1, handling mechanism 3 is located the top of product conveying path 11, be provided with the conveyer belt on the product conveying path 11, be provided with the delivery board on the conveyer belt, the delivery board is used for carrying circuit breaker 8 to the assigned position, and when hasp spring 7 was transported to transfer mechanism 4 on, circuit breaker 8 of waiting to assemble was carried to the assigned position, and then handling mechanism 3 snatchs hasp spring 7 from transfer mechanism 4, then installs hasp spring 7 on the handle pivot 81 of circuit breaker 8, and the conveyer belt carries circuit breaker 8 to next assembly station after accomplishing the assembly, accomplishes the automatic assembly process of hasp spring 7 promptly. After the transport mechanism 3 snatchs hasp spring 7 on transfer mechanism 4, four-axis manipulator 21 will snatch hasp spring 7 to transfer mechanism 4 from flexible vibration dish 23 once more to cyclically assemble hasp spring 7 on circuit breaker 8, thereby realize carrying out the assembly of hasp spring 7 circularly, replace manual assembly through automatic assembly, reduce workman's labour, reduce and ask the worker cost, and automatic assembly is efficient.

As shown in fig. 10 and 11, the transfer mechanism 4 of the preferred embodiment includes a middle rotary seat 41, a middle rotary block 42 is slidably connected to the middle rotary seat 41, a thin air claw 43 and a positioning block 44 are disposed on the middle rotary block 42, two clamping blocks 46 are disposed on the thin air claw 43, a second positioning pin 45 is disposed on the positioning block 44, a clamping area 47 for clamping a steel wire 71 is formed between the two clamping blocks 46, the four-axis robot 21 transfers the latch spring 7 to the upper side of the middle rotary block 42 and close to the middle rotary seat 41, a first positioning pin 216 on a first positioning rod 214 is aligned with the second positioning pin 45, an adsorption groove 215 is aligned with the clamping area 47, then a grabbing cylinder 217 on a grabbing bracket 211 operates to move the first positioning pin 216 downward to abut against the second positioning pin 45, then the vacuum generator stops operating, so that the latch spring 7 falls from the adsorption block 213, and the spring hole 72 falls into the second positioning pin 45, the steel wire 71 is located in the clamping area 47, the two clamping blocks 46 are driven by the thin cylinder to clamp and fix the steel wire 71 and convey the mechanism 3 to be conveyed, the locking spring 7 is transferred by the transfer mechanism 4, the locking spring 7 is separated from being grabbed and conveyed, the mechanism is prevented from being complicated in structure, and the manufacturing and production cost of the mechanism is reduced.

When the carrying mechanism 3 clamps the locking spring 7 on the middle rotary seat 41, the locking spring 7 is firstly fixed on the carrying mechanism 3 through the carrying mechanism 3, and then the clamping jaw is loosened through the thin air claw 43, so that the carrying mechanism 3 can carry the locking spring 7.

Preferably, the diameter of the second positioning pin 45 is slightly smaller than the diameter of the spring hole 72 of the locking spring 7.

As shown in fig. 5, the carrying mechanism 3 of the present embodiment preferably includes an installation main board 31, a three-axis module 32 is disposed between the installation main board 31 and the rack 1, a clamping mechanism 33 is disposed on the installation main board 31, that is, the locking spring 7 is carried by the clamping mechanism 33, and the steel wire 71 of the locking spring 7 can be bent during carrying, and then the bent locking spring 7 is installed on the circuit breaker 8, the spring hole 72 of the locking spring 7 is located on the handle rotating shaft 81 of the circuit breaker 8, and the steel wire 71 is abutted against the locking catch 82, so as to generate a certain pressure on the locking catch 82, and prevent the locking catch 82 from being accidentally released after being fastened.

As shown in fig. 6, the gripping mechanism 33 preferably includes a gripping plate 331, the gripping plate 331 is provided with a gripping motor 332 and a second positioning rod 333, a third positioning pin 334 is slidably connected to the second positioning rod 333, one end of the third positioning pin 334 extends out of the second positioning rod 333, a bending block 335 is arranged on the main shaft of the clamping motor 332, a first bending rod 336 and a second bending rod 337 are arranged on the bending block 335, the first bending rod 336 is located at one end of the bending block 335 far away from the main shaft of the clamping motor 332, the second bending rod 337 is located on the main shaft axis of the clamping motor 332, when the clamping mechanism 33 clamps the locking spring 7 on the middle rotating base 41, the spring hole 72 of the locking spring 7 is located on the third positioning pin 334, the steel wire 71 of the locking spring 7 is abutted against the first bending rod 336 and the second bending rod 337 respectively, and the first bending beam 336 and the second bending beam 337 are respectively located at both sides of the steel wire 71.

When the clamping mechanism 33 clamps the latch spring 7 on the transfer mechanism 4, the clamping motor 332 rotates reversely and slightly, so that the first bending rod 336 and the second bending rod 337 are respectively located at two sides above the steel wire 71, then the grabbing mechanism 2 descends, so that the steel wire 71 is located between the first bending rod 336 and the second bending rod 337, and then rotates forwardly and slightly, so that the steel wire 71 is abutted against the first bending rod 336 and the second bending rod 337, that is, the latch spring 7 is fixed on the grabbing mechanism 2 through the third positioning pin 334, the first bending rod 336 and the second bending rod 337, then during the transportation process, the clamping motor 332 continues to rotate forwardly, so that the steel wire 71 bends around the second bending rod 337 under the rotation of the first bending rod 336, and when the transporting mechanism 3 transports the latch spring 7 to the upper side of the circuit breaker 8, the bending of the latch spring 7 is completed.

When the bent latch spring 7 is installed, the third positioning pin 334 is aligned with the handle rotating shaft 81 of the circuit breaker 8, the steel wire 71 on the clamping mechanism 33 is aligned with the latch 82 of the circuit breaker 8, then the installation main board 31 vertically moves towards the circuit breaker 8, after the third positioning pin 334 abuts against the handle rotating shaft 81, the second positioning rod 333 retracts, so that the spring hole 72 of the latch spring 7 is positioned on the handle rotating shaft 81 until the steel wire 71 completely falls into the gap of the latch 82, then the clamping motor 332 is reversely rotated again until the steel wire 71 rebounds to abut against the latch 82 and is separated from the first bending rod 336, then the installation main board 31 moves upwards, namely the installation of the latch spring 7 is completed, the latch spring 7 is bent in the process of carrying the latch spring 7 through the carrying mechanism 3 without manually installing the latch spring 7, and without separately adding a process and a mechanism for bending the latch spring 7, thereby improving the assembling efficiency of the locker spring 7.

Preferably, a second pressure spring (not shown in the drawings) is arranged between the third positioning pin 334 and the second positioning rod 333, that is, the third positioning pin 334 can be extended and reset quickly after being retracted by the spring, so as to avoid influencing the next assembly.

As shown in fig. 7, the first bending rod 336 and the second bending rod 337 are respectively provided with a ring groove 3361 for installing the steel wire 71, and the two ring grooves 3361 are located on the same horizontal plane, that is, when the clamping mechanism 33 clamps the locking spring 7, two ends of the steel wire 71 are respectively located on the two ring grooves 3361, so that the steel wire 71 can be horizontally transported and installed, thereby improving the assembling efficiency, and simultaneously preventing the locking spring 7 from slipping off the clamping mechanism 33 during transportation and affecting the assembly of the locking spring 7.

As shown in fig. 6, preferably, the upper end of the main shaft of the clamping motor 332 is connected to an origin sensing piece 338, an opening is formed in the origin sensing piece 338, a photoelectric switch 339 is disposed on one side of the clamping motor 332, a part of the origin sensing piece 338 extends into the photoelectric switch 339, when the photoelectric switch 339 detects the opening, the clamping motor 332 stops rotating, i.e., the rotation angle of the clamping motor 332 is limited by the photoelectric switch 339 and the origin sensing piece 338, so that the locking spring 7 is prevented from falling off from the clamping mechanism 33 after being bent excessively, and the assembly efficiency of the locking spring 7 is affected.

As shown in fig. 8 and 9, preferably, an adjusting mechanism 34 is disposed between the mounting main plate 31 and the gripping mechanism 33, the adjusting mechanism 34 includes a horizontal fine adjustment knob 341, a vertical fine adjustment knob 342, a vertical fine adjustment knob 343, a horizontal moving block 344, a vertical moving block 345, a vertical moving block 346, and an adjusting seat 347, and the adjusting seat 347 is fixedly connected to the mounting main plate 31; the transverse moving block 344 is connected with the clamping plate 331 and is transversely and slidably connected with the vertical moving block 345, and the transverse fine adjustment knob 341 is fixed on the vertical moving block 345; the vertical moving block 345 is vertically connected with the longitudinal moving block 346 in a sliding manner, and the vertical fine adjustment knob 342 is fixed on the longitudinal moving block 346; the longitudinal moving blocks 346 are longitudinally connected with the adjusting seats 347 in a sliding mode, the longitudinal fine adjustment knobs 343 are fixed on the adjusting seats 347, namely after the fine adjustment knobs are rotated, the moving blocks can be pushed to move through the ejector rods, the three moving blocks are provided with the locking bolts, namely the moving blocks can be fixed after the locking bolts are screwed, fine adjustment in three directions of the clamping mechanism 33 can be achieved through the adjusting mechanisms 34, and therefore the locking springs 7 on the clamping mechanism 33 are accurately installed on the circuit breaker 8, and assembly efficiency is improved.

As shown in fig. 1, the feeding mechanism of the present embodiment preferably includes a vibrating feeding tray and a turnover mechanism 5, the vibrating feeding tray is connected to the turnover mechanism 5, the turnover mechanism 5 is located between the flexible vibrating tray 23 and the vibrating feeding tray, the grabbing mechanism 2 is located above the flexible vibrating tray 23, a feeding channel is disposed between the vibrating feeding tray and the turnover mechanism 5, and the locking springs 7 are conveyed to the turnover mechanism 5 through the feeding channel for a certain amount of storage, when the CCD camera 221 detects that there is no locking spring 7 in the flexible vibrating tray 23, the stored locking spring 7 is poured into the flexible vibrating tray 23 through the turnover mechanism 5, so as to supplement the locking spring 7 into the flexible vibrating tray 23, temporarily store the locking spring 7 through the turnover mechanism 5, prevent the vibrating feeding tray from continuously feeding the flexible vibrating tray 23 and the CCD camera 221 from scanning the locking spring 7 in the flexible vibrating tray 23, and affects the grasping of the four-axis robot 21.

As shown in fig. 12, preferably, the turnover mechanism 5 includes a turnover support 51, a turnover frame 52 is hinged to the turnover support 51, and one end of the turnover frame 52 facing the flexible vibration disk 23 is a turnover port, a turnover cylinder 53 is provided on the turnover frame 52, a piston rod of the turnover cylinder 53 is hinged to the turnover frame 52, the turnover cylinder 53 is operated to push the turnover frame 52 to rotate upward toward the flexible vibration disk 23 on the turnover support 51, so that the latch spring 7 in the turnover frame 52 falls into the flexible vibration disk 23 from the turnover port of the turnover frame 52 under the action of gravity, thereby supplementing the flexible vibration disk 23.

Preferably, the feeding channel is provided with a counting sensor, the counting sensor is electrically connected with the vibration feeding tray, namely, the locking springs 7 entering the turnover frame 52 are counted by the counting sensor, when the number reaches a set value, the counting sensor transmits an electric signal to the whole feeding tray, so that the vibration feeding tray vibrates for feeding, after the turnover frame 52 is turned over, the locking springs 7 can be conveyed in the turnover frame 52, and the counting sensor can prevent the locking springs 7 in the turnover frame 52 from being too many, so that the flexible vibration tray 23 cannot shake all the locking springs 7 apart, and the grabbing of the locking springs 7 is influenced.

As shown in fig. 13, in the preferred embodiment, the rack 1 is provided with the assembling and positioning mechanism 6, the assembling and positioning mechanism 6 is located above the product conveying passage 11, the assembling and positioning mechanism 6 includes a positioning bracket 61, the positioning bracket 61 is provided with a positioning cylinder 63 and a positioning plate 62, a piston rod of the positioning cylinder 63 is connected to the positioning plate 62, the positioning plate 62 is slidably connected to the positioning bracket 61, the positioning plate 62 is provided with a positioning hole 64 and a plurality of positioning pins 65, the positioning hole 64 corresponds to the latch 82 and the handle rotating shaft 81 on the circuit breaker 8, the plurality of positioning pins 65 correspond to the connecting holes on the circuit breaker 8, when the circuit breaker 8 is conveyed to a designated position by the product conveying passage 11, the positioning cylinder 63 operates to move the positioning plate 62 downward, so that the positioning pins 65 extend into the connecting holes on the circuit breaker 8, and after that the rear clamping mechanism 33 mounts the bent latch spring 7 on the circuit breaker 8 through the positioning hole 64, the assembling accuracy of the lock catch spring 7 is improved through the assembling and positioning mechanism 6, and the assembling efficiency is improved.

As shown in fig. 3, 5 and 10, the grabbing bracket 211 is provided with a plurality of grabbing blocks 212, preferably three grabbing blocks 212 in this embodiment, the middle rotating block 42 and the clamping mechanism 33 are three, when grabbing the latching springs 7, the four-axis manipulator 21 respectively sequentially grabs the three latching springs 7 through the grabbing blocks 212, then places the three latching springs 7 on the three middle rotating blocks 41, and then simultaneously grabs the three latching springs 7 through the three clamping mechanisms 33, and then simultaneously installs the three latching springs 7 on the three circuit breakers 8, that is, the assembly of the latching springs 7 of the three circuit breakers 8 can be completed at one time, so that the assembly efficiency is improved.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides a hasp spring location plastic mechanism, includes the frame, its characterized in that: be provided with transport mechanism in the frame, transport mechanism is including the installation mainboard, it gets the mechanism to be provided with the clamp on the installation mainboard, press from both sides to get the mechanism and get the board including pressing from both sides, press from both sides to get and be provided with on the board and press from both sides and get motor and second locating lever, press from both sides and be provided with the bending piece on getting the main shaft of motor, be provided with first pole and the second pole of buckling on the bending piece, first pole of buckling is located the bending piece and keeps away from the one end of pressing from both sides and get motor spindle, and the second pole of buckling is located the main shaft axis of pressing from both sides and getting the motor.

2. The latch spring positioning and shaping mechanism of claim 1, wherein: and a third positioning pin is connected to the second positioning rod in a sliding manner, one end of the third positioning pin extends out of the second positioning rod, and a second pressure spring is arranged between the third positioning pin and the second positioning rod.

3. The latch spring positioning and reshaping mechanism of claim 2, wherein: the first bending rod and the second bending rod are provided with annular grooves, and the two annular grooves are located on the same horizontal plane.

4. The latch spring positioning and reshaping mechanism of claim 3, wherein: the clamp is characterized in that an original point induction sheet is arranged above the clamp motor and connected with a main shaft of the clamp motor, an opening is formed in the original point induction sheet, a photoelectric switch is arranged on one side of the clamp motor, and one part of the original point induction sheet extends into the photoelectric switch.

5. The latch spring positioning and shaping mechanism of claim 4, wherein: an adjusting mechanism is arranged between the mounting main board and the clamping mechanism.

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