CN208628215U - Produce the automatic dotting device of fibre-glass epoxy antenna special cell oscillator - Google Patents

Abstract

The utility model discloses a kind of automatic dotting device for producing fibre-glass epoxy antenna special cell oscillator, it include workbench, automatic feeding, it gets seat ready and gets needle ready, it gets a front end face ready and is provided with the counterbore injected for unit oscillator, it is uniformly distributed more on getting a circumferential side wall ready and gets needle ready, needle reeve is got ready to get ready in seat and be inserted to counterbore, reset spring is set on getting needle ready, the end for getting needle ready is provided with synchronous stamping device, automatic feeding is arranged in front of the counterbore for getting seat ready, after the technical program, compared with prior art, the technical program has the advantage that machine can realize the full-automation production to unit oscillator, production efficiency greatly improves, product quality, consistency is very high, it there's almost no waste product, full-automatic production can reduce the labor cost of manufacturer.

Description

Produce the automatic dotting device of fibre-glass epoxy antenna special cell oscillator

Technical field:

The utility model relates to produce the automatic dotting device of fibre-glass epoxy antenna special cell oscillator.

Background technique:

For fibre-glass epoxy antenna special cell oscillator, in production, need to carry out unit oscillator to get processing ready, it is therefore an objective to A plurality of circumferentially spaced concave point is processed on one end circumference of unit oscillator, these concave points, which are played, connect positioning with other components Effect, traditional unit oscillator get ready processing be all using artificial by the way of, this processing method very fall behind, produce Efficiency is extremely low, and product quality suffers from the influence of worker's qualification, and rejection rate is very high, and labor intensity of workers is larger, product one Cause property is difficult to ensure, causes to influence the quality that unit oscillator is installed to fibre-glass epoxy antenna.

Summary of the invention:

The shortcomings that the purpose of this utility model is to overcome the above-mentioned prior arts, it is simple to provide a kind of structure, can entirely from The automatic dotting device of the fibre-glass epoxy antenna special cell oscillator of dynamic production.

The goal of the invention of the utility model can be realized by technical solution below: the production dedicated list of fibre-glass epoxy antenna The automatic dotting device of first oscillator includes workbench, automatic feeding, gets seat ready and gets needle ready, gets a front end face setting ready There is the counterbore injected for unit oscillator, more are uniformly distributed on getting a circumferential side wall ready and gets needle ready, gets needle reeve ready and get seat ready It is interior and be inserted to counterbore, it is set with reset spring on getting needle ready, the end for getting needle ready is provided with synchronous stamping device, send automatically Material device is arranged in front of the counterbore for getting seat ready.

Synchronous stamping device is got ready needle and is both provided with configuration one for every and beaten by getting arm, preshoot cone and expansion bend ready Point arm, gets arm middle section ready and is movably articulated in and get ready on seat, the front end for getting arm ready, which is pushed down, gets needle ready, all rear ends for getting arm ready all rings It is wound with around spring, the motion bar front end of expansion bend is arranged in preshoot cone, and preshoot circle is all pushed down in all arm rear ends of getting ready The conical walls of cone.

Automatic feeding includes discharge vibration plate, charging line, feeding sliding block, push rod and push cylinder, feeding sliding block On form chute feeder, the corresponding counterbore got ready on seat of chute feeder is got ready and is connected with tension spring, feed pipe between seat and feeding sliding block The arrival end in road connects discharge vibration plate, and outlet end connects chute feeder, and discharging controller is arranged in outlet end, sets in chute feeder It is equipped with push rod, the end of push rod is connect with push cylinder, one section of bar on push rod between feeding sliding block end face and push cylinder Body is equipped with plate of pulling back, and the hitching post across plate of pulling back is equipped on feeding sliding block.

Discharging controller by discharging sliding block, poke rod and discharging reset spring, fix, another by discharging reset spring one end Discharging sliding block end is pushed down in end connection discharging sliding block, one end of poke rod, and the other end pushes down the end of preshoot cone, poke rod Middle part activity bolts on the table, and the front end of discharging sliding block extend out to charging line outlet end, the front end setting of discharging sliding block There is the groove to match with unit oscillator width and length.

The blowpit for getting an ontology ready up and down is equipped on the front end face for get ready seat.

After the technical program, compared with prior art, the technical program has the advantage that machine can be realized to list The full-automatic production of first oscillator, production efficiency greatly improve, and product quality, consistency are very high, there's almost no waste product, entirely The production of automation can reduce the labor cost of manufacturer.

Detailed description of the invention:

Fig. 1 is the three-dimensional structure diagram of the automatic dotting device of the utility model production fibre-glass epoxy antenna special cell oscillator；

Fig. 2 is the structure graph before the utility model unit oscillator automatic dotting device production movement；

Fig. 3 is that the unit oscillator of the utility model unit oscillator automatic dotting device enters the knot after the groove in discharging sliding block Composition；

Fig. 4 is the structure chart after the unit oscillator of the utility model unit oscillator automatic dotting device is fallen into chute feeder；

Fig. 5 is that the front end of the unit oscillator of the utility model unit oscillator automatic dotting device is pushed into and gets ready on end face Structure chart in counterbore；

Fig. 6 be the utility model unit oscillator automatic dotting device it is all get ready arm simultaneously to unit oscillator implementation get ready plus The structure chart in working hour.

Specific embodiment:

This technology is described further with reference to the accompanying drawing.

The automatic dotting device of the production fibre-glass epoxy antenna special cell oscillator of the present embodiment, includes workbench 1, send automatically Material device B, it gets seat 2 ready and gets needle 3 ready, get 2 front end face of seat ready and be provided with the counterbore 4 injected for unit oscillator a, getting seat 2 ready It is uniformly distributed more on circumferential side wall and gets needle 3 ready, gets the reeve of needle 3 ready and gets ready in seat 2 and be inserted to counterbore 4, be set on getting needle 3 ready There is reset spring 5, the end for getting needle 3 ready is provided with synchronous stamping device A, automatic feeding B, which is arranged in, gets the heavy of seat 2 ready 4 front of hole, the corresponding lower position for getting seat 2 ready is provided with material receiving port 6 on workbench 1, which plugs into and have rewinding tunnel Road 7, finished product after processing is completed, fall to material receiving port 6 and fall into returnable behind rewinding tunnel 7.In the front end for getting seat 2 ready Face 21 is equipped with the blowpit 8 for getting an ontology ready up and down.

Synchronous stamping device A is got ready needle 3 and is both provided with for every and matched by getting arm A1, preshoot cone A2 and expansion bend A3 ready It sets one and gets arm A1 ready, get the middle section arm A1 ready and be movably articulated in and get ready on seat 2, the front end for getting arm A1 ready, which is pushed down, gets needle 3 ready, owns The rear end for getting arm A1 ready, which is all surround by one around spring A4, to be walked, and the activity of expansion bend A3 is arranged in preshoot cone A2 The front end bar A31, all conical walls got the rear end arm A1 ready and all push down preshoot cone A2, sets in front of preshoot cone A2 It is equipped with preshoot gag lever post A5, the presence of preshoot gag lever post A5 is to limit expansion bend A3 and stretch out promotion preshoot cone A2 preshoot Amplitude, herein, expansion bend A3 stretch out when, drive the A2 preshoot of preshoot cone, preshoot cone A2, which just will push, gets arm ready The end of A1 is radially outward swung, while being stretched opening around spring A4, and in turn, the front end for getting arm A1 ready will generate diameter To inside movement, makes to get ready the front end arm A1 radial compaction and get needle 3 ready, realize the processing of getting ready to unit oscillator a, expansion bend A3 It when retraction, is shunk around spring A4, pulls each item to get the end arm A1 ready and radially inwardly push back and be close to preshoot cone always A2 gets the front end arm A1 ready and radially outward opens, and the promotion of reset spring 5 got ready on needle 3 gets needle 3 ready and radially outward retracts reset.

Automatic feeding B includes discharge vibration plate B1, charging line B2, feeding slide block B 3, push rod B4 and push cylinder B5, chute feeder B6 is formed in feeding slide block B 3, and the corresponding counterbore 4 got ready on seat 2 of chute feeder B6 gets seat 2 and feeding sliding block ready Tension spring B7 is connected between B3, the effect of tension spring B7 is to pull feeding slide block B 3 to slide to rapidly when not having external force and get seat ready 2, make its front end be close to get 2 end face of seat ready, guarantees going on smoothly for feeding, the arrival end B21 connection discharge vibration of charging line B2 Disk B1, outlet end B22 are extended to above chute feeder B6, and discharging controller C is arranged at the B22 of outlet end, sets in chute feeder B6 It is equipped with push rod B4, the end of push rod B4 is connect with push cylinder B5, and 3 end face of feeding slide block B and push gas are located on push rod B4 One section of body of rod between cylinder B5 is equipped with the plate B8 that pulls back, and the hitching post B9 across the plate B8 that pulls back, push rod are equipped in feeding slide block B 3 B4 is responsible for the unit front end oscillator a fallen into chute feeder B6 to promote in the counterbore 4 for getting seat 2 ready, and push rod B4 is pushed cylinder B5 When pulling back, plate B8 return of pulling back is driven, the plate B8 that pulls back at this time will pull hitching post B9 return, finally be pulled feeding slide block B 3, And tension spring B7 is stretched, and prepares the processing of next workpiece.

Discharging controller C is by discharging sliding block C1, poke rod C2 and discharging reset spring C3, and discharge the one end reset spring C3 It is fixed on workbench 1, the other end connects discharging sliding block C1, and the end discharging sliding block C1, the other end are pushed down in one end of poke rod C2 The end of preshoot cone A2 is pushed down, on workbench 1, the front end of discharging sliding block C1 is extend out to activity bolt in the middle part of poke rod C2 Charging line outlet end B22, the front end of discharging sliding block C1 are provided with the groove C4 to match with unit oscillator a width and length, When being retracted above-mentioned preshoot cone A2, poke rod C2 rotation just will push, poke rod C2 will push discharging sliding block C1 court and send The direction hopper B6 skids off, and sends out in a unit oscillator a to chute feeder B6, and when preshoot cone A2 preshoot, discharging resets bullet Spring C3 will pull discharging sliding block C1 retraction, prepare for feeding next time.

The course of work:

Initial state is that preshoot cone A2 is retracted, and poke rod C2 pushes discharging sliding block C1 to stretch out, and discharge reset spring C3 It is stretched, at this point, the side wall of discharging sliding block C1 is stretched out and pushed down in the front end of the unit oscillator a of charging line outlet end B22, such as schemes Shown in 2, push rod B4 awaits orders in retracted mode, and the push rod B4 that feeding slide block B 3 is contracted is retracted, and leaves and gets seat 2 ready, and connection is beaten Point seat 2 and the tension spring B7 of feeding slide block B 3 are stretched.

Next formal production process is described, expansion bend A3 pushes the A2 preshoot of preshoot cone, and discharging reset spring C3 is drawn Dynamic discharging sliding block C1 is retracted, and the unit oscillator a for pushing down discharging sliding block C1 side wall originally at this time is pushed into groove C4, such as Fig. 3 institute Show, then expansion bend A3 drives preshoot cone A2 to retract, and poke rod C2 is pushed by the preshoot end cone A2 simultaneously and generated Rotation, poke rod C2 push discharging sliding block C1 to skid off towards the direction chute feeder B6, and the unit oscillator a in groove C4 falls into chute feeder B6 It is interior, as shown in figure 4, next unit oscillator in charging line B2 skids off and pushes down discharging sliding block C1 side wall and awaits orders simultaneously, connect Get off, push cylinder B5 starting drives push rod B4 to be pushed forward, and the unit front end oscillator a is promoted in the counterbore 4 for getting seat 2 ready, such as Fig. 5 institute Show, the plate B8 that pulls back while being pushed forward cancels the pulling to feeding slide block B 3, and feeding slide block B 3 is pulled to front end by tension spring B7 and withstands It gets 2 end face of seat ready, guarantees that unit oscillator a is smoothly pushed in the counterbore 4 for getting seat 2 ready along chute feeder B6.Then expansion bend A3 Preshoot cone A2 preshoot again is driven, is stretched around spring A4, discharging sliding block C1 is retracted by discharging reset spring C3, is pushed down The unit oscillator a of discharging sliding block C1 side wall, which is pushed into groove C4, to await orders, and while preshoot cone A2 preshoot, all is got ready The end of arm A1 is climbed along preshoot cone A2 outer wall, as shown in fig. 6, getting arm A1 ready generates rotation, gets the front end pair of arm A1 ready Get needle 3 ready and implement punching press, make it is all get needle 3 ready the front end unit oscillator a in counterbore 4 synchronized get processing ready.Then it pushes away The cylinder B5 that supplies gas drives push rod B4 to retract, and the plate B8 that pulls back is driven to retract feeding slide block B 3, and preshoot cone A2 is by expansion bend A3 It retracts, is driven around spring A4 and get arm A1 ready and rotate backward, the jack-up of reset spring 5 gets needle 3 ready, the big portion unit oscillator a at this time Point tube body all in vacant state, push up back once getting the spring 5 that is reset of needle 3 ready, unit oscillator a will be along blowpit 8 automatically Material receiving port 6 is fallen into, preshoot cone A2 will push discharging sliding block C1 while retraction and skid off again, send out next unit oscillator To chute feeder B6, above-mentioned movement is repeated, realizes continual automated production.

The above descriptions are merely preferred embodiments of the present invention, not makees in any form to the utility model Limitation.Anyone skilled in the art, it is all available in the case where not departing from technical solutions of the utility model ambit The methods and technical content of the disclosure above makes many possible changes and modifications to technical solutions of the utility model, or is revised as The equivalent embodiment of equivalent variations.Therefore all contents without departing from technical solutions of the utility model, the shape according to the utility model Equivalence changes made by shape, construction and principle should all be covered by the protection scope of the utility model.

Claims (5)

1. producing the automatic dotting device of fibre-glass epoxy antenna special cell oscillator, it is characterised in that: include workbench, self-feeding Device gets seat ready and gets needle ready, gets a front end face ready and is provided with the counterbore injected for unit oscillator, on getting a circumferential side wall ready It is uniformly distributed more and gets needle ready, get needle reeve ready and get ready in seat and be inserted to counterbore, reset spring is set on getting needle ready, is being beaten The end of point needle is provided with synchronous stamping device, and automatic feeding is arranged in front of the counterbore for getting seat ready.

2. the automatic dotting device of production fibre-glass epoxy antenna special cell oscillator according to claim 1, it is characterised in that: same Step stamping device is got ready needle and is both provided with configuration one for every and get arm ready, got ready arm by getting arm, preshoot cone and expansion bend ready Middle section, which is movably articulated in, to be got ready on seat, and the front end for getting arm ready, which is pushed down, gets needle ready, and all rear ends for getting arm ready are all surrounded with around bullet The motion bar front end of expansion bend, all circular cones got arm rear end ready and all push down preshoot cone is arranged in spring, preshoot cone Wall.

3. the automatic dotting device of production fibre-glass epoxy antenna special cell oscillator according to claim 1, it is characterised in that: from Dynamic feed device includes discharge vibration plate, charging line, feeding sliding block, push rod and push cylinder, forms and send on feeding sliding block Hopper, the corresponding counterbore got ready on seat of chute feeder, gets ready and is connected with tension spring between seat and feeding sliding block, the arrival end of charging line Discharge vibration plate is connected, outlet end connects chute feeder, and discharging controller is set in outlet end, push rod is provided in chute feeder, The end of push rod is connect with push cylinder, is equipped with back on one section of body of rod on push rod between feeding sliding block end face and push cylinder Pulling plate is equipped with the hitching post across plate of pulling back on feeding sliding block.

4. the automatic dotting device of production fibre-glass epoxy antenna special cell oscillator according to claim 3, it is characterised in that: go out Control mechanism is expected by discharging sliding block, poke rod and discharging reset spring, and discharging reset spring one end is fixed, other end connection discharging Discharging sliding block end is pushed down in sliding block, one end of poke rod, and the other end pushes down the end of preshoot cone, movable bolt in the middle part of poke rod It connects on the table, the front end of discharging sliding block extend out to charging line outlet end, and the front end of discharging sliding block is provided with to shake with unit The groove that sub- width and length match.

5. the automatic dotting device of production fibre-glass epoxy antenna special cell oscillator according to claim 1, it is characterised in that: The front end face for getting seat ready is equipped with the blowpit for getting an ontology ready up and down.