CN111564744B - Communication connector assembling equipment for connector assembling tester - Google Patents

Abstract

The invention relates to a communication connector assembling device for a connector assembling and testing machine. This communication connector assembly tester is equipped with ingenious cooperation through drop feed mechanism, transplanting mechanism and contact pin mechanism, can peg graft binding post on the product constantly automatically, and whole journey need not artificial intervention, and degree of automation is high, and machining efficiency is very high, and the product uniformity that obtains is good, and the defective percentage is low, greatly reduced the manufacturing cost of enterprise, had the value of using widely.

Description

Communication connector assembling equipment for connector assembling tester

The technical field is as follows:

the invention relates to the technical field of electronic product processing, in particular to communication connector assembling equipment for a connector assembling tester.

Background art:

some existing electronic products, such as communication connectors, require pins (terminals) to be processed on the surface thereof, and some special communication connectors require thousands of pins to be inserted on the surface. In the prior art, the pin is generally operated manually, a product is processed, a lot of time is needed, and if the operation is improper, the whole product is easily scrapped. Also some producers adopt semi-automatic equipment to process, and operating personnel places the product on the processing platform, places the terminal on the drift again, carries out the contact pin operation one by one, and its machining efficiency obtains certain improvement, nevertheless needs operating personnel constantly blowing, the ejection of compact, has certain danger, if place the improper in position, can cause whole product to scrap, improves the processing cost.

The invention content is as follows:

the invention aims to provide the communication connector assembling equipment for the connector assembling and testing machine, which has high automation degree, high processing efficiency and good product consistency and aims to overcome the defects of the prior art.

The invention is realized by the following technical scheme: a communication connector assembling device for a connector assembling and testing machine comprises a material placing mechanism, a feeding mechanism, a transplanting mechanism and a pin inserting mechanism;

the discharging mechanism is used for automatically discharging terminals and comprises a bracket and a discharging disc arranged on the bracket;

the feeding mechanism is used for automatically conveying terminals and comprises a guide assembly, a feeding channel and a traction assembly, wherein the guide assembly is correspondingly arranged at the input end of the feeding channel and comprises a guide wheel and a guide pressing wheel, a guide channel for the terminals to pass through is formed between the guide wheel and the guide pressing wheel, the traction assembly is correspondingly arranged on the feeding channel and comprises a traction motor, a traction wheel and a pressing wheel, the traction motor can drive the traction wheel to rotate, and a traction channel for drawing the terminals is formed between the traction wheel and the pressing wheel;

the transplanting mechanism is used for placing products and comprises a horizontal motor, a sliding plate, a horizontal guide rail, an upper positioning plate, a lower positioning plate and a lifting cylinder, wherein the sliding plate is arranged on the horizontal guide rail, the horizontal motor can drive the sliding plate to move along the horizontal guide rail, the upper positioning plate and the lower positioning plate are arranged on the sliding plate, a clamping channel for positioning the products is formed between the upper positioning plate and the lower positioning plate, and the lifting cylinder can drive the lower positioning plate to lift to clamp or loosen the products;

the pin inserting mechanism is used for inserting the terminal onto a product and comprises a stamping assembly and a chuck assembly, the stamping assembly comprises a lower die, an upper die and a stamping power part, the lower die is correspondingly arranged at the output end of the feeding channel, the upper die is correspondingly arranged above the lower die, the stamping power piece can drive the upper die to lift so as to stamp the terminals on the lower die, the chuck component comprises an upper chuck, an upper chuck pushing power piece, an upper chuck swinging power piece, a lower chuck and a lower chuck pushing power piece, the upper chuck is correspondingly arranged on one side of the upper die, the lower chuck is correspondingly arranged on one side of the lower die, the upper chuck pushing power piece can drive the upper chuck to push, the upper chuck swing power part can drive the upper chuck to swing, the lower chuck pushing power part can drive the lower chuck to push, and the upper chuck and the lower chuck are matched to clamp and push the terminal.

In order to improve the processing efficiency and realize the insertion of terminals of different models, the two discharging mechanisms are provided with two discharging discs respectively.

In order to guide the feeding of the terminals and enable the feeding to have a certain buffering section, the feeding mechanism further comprises a material guiding assembly used for guiding the feeding of the terminals, and the material guiding assembly is correspondingly arranged below the material placing disc.

Similarly, the two feeding mechanisms are matched with the two discharging mechanisms, the two feeding mechanisms are respectively and correspondingly arranged at the output ends of the two discharging mechanisms, and the output ends of the two feeding mechanisms are combined.

Because feed channel has certain length, the terminal row probably takes place to upwarp or crooked in the pay-off, evenly distributed has a plurality of pinch rollers that are used for avoiding the terminal crooked on the feed channel.

The terminal rows are continuous line rows, waste materials are arranged between two adjacent terminals, and the contact pins can be inserted only by cutting off.

In the invention, as a plurality of actions (pressing down of the upper chuck, moving of the upper chuck and moving of the lower chuck) are required, in order to realize linkage of all components, under the condition of not increasing a power part, the terminal clamping and pushing actions can be realized by only adopting one motor and rotating once through mutual matching with each cam, thereby greatly improving the processing efficiency.

In a preferred embodiment of the present invention, the upper chuck pushing power part includes a motor, a pin cam, a pin swing link, and an upper chuck push rod, the motor is connected to the pin swing link through the pin cam, the pin swing link is connected to the upper chuck through the upper chuck push rod, and the motor drives the pin swing link to swing through the pin cam, so as to drive the upper chuck push rod and the upper chuck to push.

In a preferred embodiment of the present invention, the upper chuck oscillating power element includes an oscillating cam, an upper chuck oscillating bar and a slider, the motor is connected to the upper chuck oscillating bar through the oscillating cam, the upper chuck oscillating bar is connected to an upper chuck push rod, one end of the upper chuck push rod is disposed in the slider, and the motor drives the upper chuck oscillating bar to oscillate through the oscillating cam, so as to drive the upper chuck push rod to slide up and down along the slider.

In a preferred embodiment of the present invention, the lower chuck pushing power element includes a lower chuck cam, a lower chuck oscillating bar and a lower chuck connecting rod, the motor is connected to the lower chuck oscillating bar through the lower chuck cam, the lower chuck oscillating bar is connected to the lower chuck through the lower chuck connecting rod, the motor drives the lower chuck oscillating bar to oscillate through the lower chuck cam, and the lower chuck oscillating bar drives the lower chuck to push through the lower chuck connecting rod.

The invention has the beneficial effects that: this communication connector assembly tester is equipped with ingenious cooperation through drop feed mechanism, transplanting mechanism and contact pin mechanism, can peg graft binding post on the product constantly automatically, and whole journey need not artificial intervention, and degree of automation is high, and machining efficiency is very high, and the product uniformity that obtains is good, and the defective percentage is low, greatly reduced the manufacturing cost of enterprise, had the value of using widely.

Description of the drawings:

FIG. 1 is a schematic perspective view of a communication connector assembling apparatus for a connector assembling tester according to the present invention;

FIG. 2 is a schematic perspective view of a dispensing mechanism of the present invention;

FIG. 3 is a schematic perspective view of the feeding mechanism of the present invention;

FIG. 4 is a schematic perspective view of the transplanting mechanism of the present invention;

FIG. 5 is a schematic perspective view of a pin inserting mechanism according to the present invention;

FIG. 6 is a schematic perspective view of another embodiment of a pin inserting mechanism of the present invention;

fig. 7 is a front view of the pin mechanism of the present invention.

The specific implementation mode is as follows:

the following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention more readily understood by those skilled in the art, and thus will more clearly and distinctly define the scope of the invention.

The communication connector assembling equipment for the connector assembling and testing machine comprises two discharging mechanisms 1, two feeding mechanisms 2, a transplanting mechanism 3 and a pin inserting mechanism 4, wherein the two discharging mechanisms 1 are obliquely arranged for saving the field, the two discharging mechanisms are respectively provided with two discharging trays, similarly, the two discharging mechanisms 1 are respectively connected with the pin inserting mechanism 4 through the feeding mechanisms 2, and the two feeding mechanisms 2 are arranged on the same side.

As shown in fig. 2, the discharging mechanism is used for automatically discharging terminal strips, and includes a support 11 and discharging trays 12 arranged on the support 11, the discharging trays 12 may be arranged in two groups to adapt to terminal strips of different models, a material guiding assembly is arranged at the bottom end of the support 11, and the material guiding assembly includes a buffer box 13, a material guiding channel 14 and a material guiding press roller 15, which are arranged in the buffer box 13. During processing, the motor drives the material placing disc 12 to automatically place materials, and the terminal strip passes through the material guiding channel 14, is drawn by the rear end drawing mechanism and enters the feeding mechanism.

As shown in fig. 3, the feeding mechanism is used for automatically conveying terminals, and includes a guiding assembly, a feeding channel 28 and a traction assembly, the guiding assembly is correspondingly disposed at an input end (left end in the figure) of the feeding channel 28, and includes a guide wheel 22 and a guide pinch roller 23, a guide channel for terminals to pass through is formed between the guide wheel 22 and the guide pinch roller 23, an annular groove for limiting a terminal row is formed on the guide wheel 22, an upward-inclined feeding channel 21 is disposed on the left side of the guide wheel 22, the traction assembly is correspondingly disposed on the feeding channel 28, and includes a traction motor, a traction wheel 24 and a pinch roller 25, the traction motor can drive the traction wheel 24 to rotate, and a traction channel for traction terminals is formed between the traction wheel 24 and the pinch roller 25. In addition, a plurality of pressing wheels 26 for avoiding the bending of the terminals are uniformly distributed above the feeding channel 28, and the output end of the feeding channel 28 is provided with a monitoring device 27 for monitoring the terminals. It should be noted that the output ends of the two feeding channels 28 on the same side are combined to form a feeding channel for feeding. When in processing, the traction motor drives the traction wheel 24 to rotate, the traction wheel 24 is matched with the pressing wheel 25 to clamp and push the terminal, and the terminal enters the pin inserting mechanism under the matching of the guide wheel 22, the guide pressing wheel 23 and the pressing wheel 26.

The transplanting mechanism shown in fig. 4 is used for placing products, and comprises a horizontal motor 31, a sliding plate 33, a horizontal guide rail 32, an upper positioning plate 37, a lower positioning plate 36 and a lifting cylinder 35, wherein the sliding plate 33 is arranged on the horizontal guide rail 32, the horizontal motor 31 can drive the sliding plate 33 to move along the horizontal guide rail 32, the upper positioning plate 37 is fixed at the top end of the sliding plate 33, the lower positioning plate 36 is arranged on a longitudinal guide rail 34 of the sliding plate 33, a clamping channel for positioning the products is formed between the upper positioning plate 37 and the lower positioning plate 36, and the lifting cylinder 35 can drive the lower positioning plate 36 to lift along the longitudinal guide rail 34 to clamp or release the products. During processing, an operator (or a manipulator) sends a product to the clamping channel, and the lifting cylinder 35 drives the lower positioning plate 36 to ascend to clamp and position the product so as to insert the pins by the pin inserting mechanism.

A pin mechanism for plugging terminals to products, including a punch assembly and a collet assembly, is shown in fig. 5-7. The punching press subassembly includes lower mould 47, goes up mould 46 and punching press power spare, punching press power spare includes punching press motor 41, upper slitter cam 418, upper slitter connecting rod 44 and upper slitter pendulum rod 45, punching press motor 41 is connected with upper slitter connecting rod 44 through upper slitter cam 418, upper slitter connecting rod 44 is connected with last mould 46 through upper slitter pendulum rod 45. During processing, the punching motor 41 drives the upper blade cam 418 to rotate for a circle to drive the upper blade connecting rod 44 to swing once, the upper blade connecting rod 44 drives the upper die 46 to descend through the upper blade oscillating bar 45, one-time punching is completed, waste materials are punched, and an independent terminal is left. The chuck assembly comprises an upper chuck 42, an upper chuck pushing power part, an upper chuck swinging power part, a lower chuck 43 and a lower chuck pushing power part, wherein the upper chuck pushing power part comprises a motor 412, a pin inserting cam 416, a pin inserting swing rod 417 and an upper chuck push rod 48, the upper chuck swinging power part comprises a swinging cam 414, an upper chuck swing rod 415, a sliding block 49 and a pushing block 413, the motor 412 is connected with the pin inserting swing rod 417 through the pin inserting cam 416, the pin inserting swing rod 417 is connected with the upper chuck 42 through the upper chuck push rod 48, the motor 412 is connected with the upper chuck swing rod 415 through the swinging cam 414, the upper chuck swing rod 415 is connected with the pushing block 413, the sliding block 49 is fixed on the pushing block 413, and one end of the upper chuck push rod 48 is arranged in the sliding block 49 and can slide up and down along the sliding block. The lower chuck pushing power part comprises a lower chuck cam 420, a lower chuck swing rod 419 and a lower chuck connecting rod 410, the motor 412 is connected with the lower chuck swing rod 419 through the lower chuck cam 420, the lower chuck swing rod 419 is connected with the lower chuck 43 through the lower chuck connecting rod 410, and the lower chuck connecting rod 410 is arranged on the guide rail 411 and can slide along the lower chuck connecting rod 411. During processing, the punching motor 41 drives the upper knife cam 418 to rotate once, the upper knife cam 418 drives the upper knife swing link 45 to swing through the upper knife connecting rod 44, so that the upper die 46 descends to complete one punching, while the punching is completed, the motor 412 drives the pin inserting cam 416, the swing cam 414 and the lower chuck cam 420 to rotate once at the same time, the pin inserting cam 416 drives the upper chuck push rod 48 to push forwards through the pin inserting swing link 417, at the same time, the swing cam 414 drives the push block 413 and the slide block 49 to move through the upper chuck swing link 415, so that the upper chuck push rod 48 and the upper chuck 42 move downwards while pushing forwards, and at the same time, the lower chuck cam 420 drives the lower chuck connecting rod 410 and the lower chuck 43 to push forwards through the lower chuck swing link 419, the upper chuck 42 and the lower chuck 43 are matched with each other to insert the punched terminal on the surface of the product, one-time pin inserting is completed, and one-, the efficiency is very high.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "top", "bottom", "side", "end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In addition, in the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "disposed," "provided," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included therein. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A communication connector assembling apparatus for a connector assembling and testing machine, characterized in that: comprises a discharging mechanism, a feeding mechanism, a transplanting mechanism and a pin inserting mechanism;

the discharging mechanism is used for automatically discharging terminals and comprises a bracket and a discharging disc arranged on the bracket;

the feeding mechanism is used for automatically conveying terminals and comprises a guide assembly, a feeding channel and a traction assembly, wherein the guide assembly is correspondingly arranged at the input end of the feeding channel and comprises a guide wheel and a guide pressing wheel, a guide channel for the terminals to pass through is formed between the guide wheel and the guide pressing wheel, the traction assembly is correspondingly arranged on the feeding channel and comprises a traction motor, a traction wheel and a pressing wheel, the traction motor can drive the traction wheel to rotate, and a traction channel for drawing the terminals is formed between the traction wheel and the pressing wheel;

the transplanting mechanism is used for placing products and comprises a horizontal motor, a sliding plate, a horizontal guide rail, an upper positioning plate, a lower positioning plate and a lifting cylinder, wherein the sliding plate is arranged on the horizontal guide rail, the horizontal motor can drive the sliding plate to move along the horizontal guide rail, the upper positioning plate and the lower positioning plate are arranged on the sliding plate, a clamping channel for positioning the products is formed between the upper positioning plate and the lower positioning plate, and the lifting cylinder can drive the lower positioning plate to lift to clamp or loosen the products;

the pin inserting mechanism is used for inserting the terminal onto a product and comprises a stamping assembly and a chuck assembly, the stamping assembly comprises a lower die, an upper die and a stamping power part, the lower die is correspondingly arranged at the output end of the feeding channel, the upper die is correspondingly arranged above the lower die, the stamping power piece can drive the upper die to lift so as to stamp the terminals on the lower die, the chuck component comprises an upper chuck, an upper chuck pushing power piece, an upper chuck swinging power piece, a lower chuck and a lower chuck pushing power piece, the upper chuck is correspondingly arranged on one side of the upper die, the lower chuck is correspondingly arranged on one side of the lower die, the upper chuck pushing power piece can drive the upper chuck to push, the upper chuck swing power part can drive the upper chuck to swing, the lower chuck pushing power part can drive the lower chuck to push, and the upper chuck and the lower chuck are matched to clamp and push the terminal.

2. The communication connector assembling apparatus for a connector assembling tester according to claim 1, wherein: the two discharging mechanisms are respectively provided with two discharging discs.

3. The communication connector assembling apparatus for a connector assembling tester according to claim 1, wherein: the discharging mechanism further comprises a material guiding assembly used for guiding the terminal feeding, and the material guiding assembly is correspondingly arranged below the discharging disc.

4. The communication connector fitting apparatus for a connector fitting tester as claimed in claim 2, wherein: the feeding mechanisms are two sets, the two feeding mechanisms are respectively and correspondingly arranged at the output ends of the two discharging mechanisms, and the output ends of the two feeding mechanisms are combined.

5. The communication connector assembling apparatus for a connector assembling tester according to claim 1, wherein: and a plurality of pressing wheels for avoiding the bending of the terminal are uniformly distributed on the feeding channel.

6. The communication connector assembling apparatus for a connector assembling tester according to claim 1, wherein: the punching press power part comprises a punching motor, an upper knife cam, an upper knife connecting rod and an upper knife oscillating rod, the punching motor is connected with the upper knife connecting rod through the upper knife cam, the upper knife connecting rod is connected with an upper die through the upper knife oscillating rod, the punching motor drives the upper knife connecting rod to swing through the upper knife cam, and the upper knife connecting rod drives the upper die to lift through the upper knife oscillating rod.

7. The communication connector assembling apparatus for a connector assembling tester according to claim 1, wherein: go up chuck propelling movement power spare and include motor, contact pin cam, contact pin pendulum rod and go up the chuck push rod, the motor passes through the contact pin cam and is connected with the contact pin pendulum rod, the contact pin pendulum rod passes through last chuck push rod and is connected with last chuck, and the motor passes through the swing of contact pin cam drive pendulum needle pendulum rod to drive chuck push rod and last chuck propelling movement.

8. The communication connector assembling apparatus for a connector assembling tester as claimed in claim 7, wherein: the upper chuck swing power part comprises a swing cam, an upper chuck swing rod and a sliding block, the motor is connected with the upper chuck swing rod through the swing cam, the upper chuck swing rod is connected with an upper chuck push rod, one end of the upper chuck push rod is arranged in the sliding block, and the motor drives the upper chuck swing rod to swing through the swing cam so as to drive the upper chuck push rod to slide up and down along the sliding block.

9. The communication connector assembling apparatus for a connector assembling test machine according to claim 8, wherein: the lower chuck pushing power part comprises a lower chuck cam, a lower chuck oscillating bar and a lower chuck connecting rod, the motor is connected with the lower chuck oscillating bar through the lower chuck cam, the lower chuck oscillating bar is connected with the lower chuck through the lower chuck connecting rod, the motor drives the lower chuck oscillating bar to oscillate through the lower chuck cam, and the lower chuck oscillating bar drives the lower chuck to push through the lower chuck connecting rod.

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