CN218473735U - Material distributing guide mechanism of capacitor plate punching machine - Google Patents

Abstract

The utility model relates to a capacitance plug-in components divide material technical field, especially relate to a branch material guiding mechanism of electric capacity board die cutting machine, including the conveying mechanism that is located branch flitch below, conveying mechanism includes the conveying piece of advancing the conveying to the electric capacity plug-in components that drop, and conveying top is provided with the direction subassembly that aligns in electric capacity plug-in components whereabouts direction, and the direction subassembly includes a pair of blanking deflector and drives the direction driving piece that the blanking deflector does the motion of opening and shutting, and the blanking deflector inside wall is formed with the guide way that supplies the direction of electric capacity plug-in components to drop to conveying mechanism along length direction interval; the two blanking guide plates move to a certain distance, the distance can be just used for the capacitor plug-in unit to fall, then the capacitor plug-in unit falls to move in a free falling mode, when the capacitor plug-in unit falls, the capacitor plug-in unit slides in along the guide grooves, the guide grooves of the blanking guide plates are limited after the capacitor plug-in unit contacts the conveying unit, the falling phenomenon cannot occur, and the falling stability of the capacitor plug-in unit is guaranteed.

Description

Material distributing guide mechanism of capacitor plate punching machine

Technical Field

The utility model relates to an electric capacity plug-in components divide material technical field, especially relates to electric capacity board die cutting machine's branch material guiding mechanism.

Background

With the rapid development of the 3C electronic industry, 3C electronic products are upgraded towards high integration and high precision, the internal components of the products are smaller and smaller, the precision and the electronic integration are higher and higher, most of the capacitor cards are packaged on the material distribution plate through the sawtooth edges before being used, the capacitor cards need to be transferred to a punching station to be punched and separated one by a punching cutter, the capacitor cards after being punched fall off and separated from the material distribution plate in a whole row under the punching of the punching cutter, and the separated capacitor cards fall off a conveying mechanism to be conveyed to the next process for use.

The existing capacitor plug-in unit is punched by the punching mechanism, and when the capacitor plug-in unit falls to the conveying mechanism, the capacitor plug-in unit falls down easily when contacting the conveying mechanism due to free falling motion of the capacitor plug-in unit, so that subsequent clamping is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a branch material guiding mechanism of electric capacity board die cutting machine to prior art's not enough.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the material distributing and guiding mechanism of the capacitor plate punching machine comprises a conveying mechanism located below a material distributing plate, wherein the conveying mechanism comprises a conveying piece for conveying dropped capacitor plug-ins forward, the top of the conveying piece is provided with a guiding assembly aligned to the falling direction of the capacitor plug-ins, the guiding assembly comprises a pair of blanking guide plates and a guiding driving piece for driving the blanking guide plates to move in an opening and closing mode, and guide grooves for guiding the capacitor plug-ins to drop to the conveying mechanism are formed in the inner side walls of the blanking guide plates at intervals along the length direction.

Further: the conveying mechanism comprises a pair of conveying guide plates which are arranged at intervals, the conveying piece is installed between the two conveying guide plates, and a side baffle for guiding the capacitor plug-in piece to advance and convey is arranged at the top of each conveying guide plate along the length direction.

Further: the conveying piece comprises driving wheels arranged at two ends of the conveying guide plate and a belt piece nested between the two driving wheels, and the top of the belt piece is flush with the conveying guide plate.

Further: the distance between the side baffles is a conveying channel, the tail end of the conveying channel is provided with a material blocking structure, and the material blocking structure comprises material blocking blocks which are respectively arranged at the tail ends of the conveying guide plates in a swinging mode.

Further: the guide driving piece comprises a bottom supporting plate used for slidably supporting the blanking guide plate, a bottom guide rail perpendicular to the conveying direction of the capacitor plug-in is mounted on the bottom supporting plate, and a bottom sliding seat in sliding fit with the bottom guide rail is mounted at the bottom of the blanking guide plate.

Further: the bottom supporting plate is provided with a rotatable gear seat, the gear seat is meshed with and drives a first tooth condition and a second tooth condition which are parallel to the bottom guide rail respectively, the moving directions of the first tooth condition and the second tooth condition are opposite, the first rack part is connected with the bottom sliding seat of one blanking guide plate, and the second tooth condition is connected with the bottom sliding seat of the other blanking guide plate.

Further: and a chamfer structure for guiding the capacitor plug-in unit to fall into the guide groove is formed at the top of the guide groove.

Further: the tail end of the conveying mechanism is provided with an overturning clamping mechanism for overturning and discharging the capacitor plug-in unit, and the overturning clamping mechanism comprises a pair of openable clamping blocks and an overturning driving piece for driving the clamping blocks to swing in a reciprocating mode.

Further: the upset driving piece includes upset seat and rotationally installs the drive shaft on the upset seat, and the drive shaft is fixed nested has the upset seat, and horizontal arrangement's finger cylinder is installed to the upset seat, and the grip block is installed in the drive end of finger cylinder.

Further: the clamping block is arranged at the inner end of the clamping block, and more than one clamping groove matched with the shape of the side wall of the capacitor plug-in unit is formed on the contact surface of the clamping block and the capacitor plug-in unit at intervals.

The utility model has the advantages that: the punched capacitor plug-in components fall off from the material distributing plate, before falling, the two blanking guide plates move mutually to have a certain distance, the distance can be just used for the capacitor plug-in components to fall, then, the capacitor plug-in components fall to move freely, when falling, the capacitor plug-in components slide in along the guide grooves, the guide grooves of the blanking guide plates are limited after contacting the conveying components, the falling phenomenon can not occur, after the capacitor plug-in components are stable, the blanking guide plates are opened, the conveying components advance to convey the capacitor plug-in components, and the falling stability of the capacitor plug-in components is ensured.

Drawings

Fig. 1 is a schematic structural diagram of the connection between the conveying mechanism and the guide assembly.

Fig. 2 is a schematic structural view of the guide assembly.

Fig. 3 is a schematic structural view of the overturning clamping mechanism.

Fig. 4 is a schematic structural view of the conveying mechanism.

The reference numerals include:

1-a conveying mechanism,

10-conveying piece, 11-conveying guide plate, 12-side baffle plate, 13-driving wheel, 14-belt piece,

15-material blocking structure, 16-material blocking block, 17-rotating cylinder,

2-a guide component,

20-a guide driving piece, 21-a blanking guide plate, 22-a guide groove, 23-a chamfer structure,

24-bottom support plate, 25-bottom guide rail, 26-bottom sliding seat, 27-first tooth condition,

28-second tooth condition, 29-gear seat, 291-telescopic cylinder,

3-a turnover clamping mechanism,

31-rotating motor, 32-driving shaft, 33-bearing seat, 34-turning seat, 35-mounting hole,

36-finger cylinder, 37-clamping block, 38-clamping block and 39-clamping groove.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, the material separating and guiding mechanism of the capacitor plate cutting press comprises a conveying mechanism 1 located below a material separating plate, the conveying mechanism 1 comprises a conveying part 10 for conveying dropped capacitor cards forward, the conveying mechanism 1 comprises a pair of conveying guide plates 11 arranged in parallel and spaced, the conveying part 10 is installed between the two conveying guide plates 11, the conveying part 10 comprises driving wheels 13 installed at two ends of the conveying guide plates 11 and belt parts 14 embedded between the two driving wheels 13, the top of each belt part 14 is flush with the corresponding conveying guide plate 11, one of the driving wheels 13 is in transmission connection with a driving motor, the driving motor drives the belt parts 14 to move around the two driving wheels 13, and the capacitor cards dropped to the top of the belt parts 14 are conveyed forward horizontally.

Every 11 tops of transport deflector have arranged the side shield 12 that advances the transport for the direction of capacitor plug-in components along length direction, the interval is transfer passage between two side shields 12, the interval between two side shields 12 is the external diameter of capacitor plug-in components, can supply capacitor plug-in components to pass through just, transfer passage end has the dam structure 15, dam structure 15 is including installing in the terminal dam 16 of transport deflector 11 swingably respectively, two 11 ends of transport deflector install respectively and rotate cylinder 17, the drive shaft 32 of rotating cylinder 17 stands up, dam 16 one end is connected with drive shaft 32, the other end extends to transfer passage, dam 16 rotates around drive shaft 32, two dam 16 block stop transfer passage end simultaneously, prevent that capacitor plug-in components from passing, wait that the upset fixture 3 of next process is got the material, and is more stable.

Conveying member 10 top is provided with the direction subassembly 2 that aligns in electric capacity plug-in components whereabouts direction, and direction subassembly 2 includes that a pair of blanking deflector 21 and drive blanking deflector 21 do the guide driving piece 20 of the motion that opens and shuts, and the shaping of blanking deflector 21 inside wall has the direction of supplying electric capacity plug-in components to drop to conveying mechanism 1's guide way 22 along length direction interval, and the shaping of guide way 22 top has the direction of supplying electric capacity plug-in components to fall into the chamfer structure 23 of guide way 22, the guide way 22 of two blanking deflectors 21 are close to each other, and the interval of formation can supply electric capacity plug-in components to fall into slowly just, because blanking deflector 21 has the take the altitude, electric capacity plug-in components fall into guide way 22 more fast through chamfer structure 23 in, is fixed a position the electric capacity plug-in components that fall into by guide way 22, and the phenomenon that electric capacity plug-in components can not appear falling down, is convenient for subsequent unloading.

Specifically, the guiding driving member 20 includes a bottom support plate 24 for slidably supporting the blanking guide plates 21, the bottom support plate 24 is provided with a pair of bottom guide rails 25 which are perpendicular to the conveying direction of the capacitor plug-in units, the bottom of each blanking guide plate 21 is provided with a bottom sliding seat 26 which is slidably matched with the bottom guide rails 25, and two bottom sliding seats 26 are provided at the bottom of each blanking guide plate 21 and slidably matched with the bottom guide rails 25 through the bottom sliding seats 26, so that the two blanking guide plates 21 are close to or away from each other in a horizontal transverse motion manner.

The bottom support plate 24 is provided with a rotatable gear seat 29, the gear seat 29 is engaged with and driven by a first tooth condition 27 and a second tooth condition 28 which are parallel to the bottom guide rail 25 respectively, the moving directions of the first tooth condition 27 and the second tooth condition 28 are opposite, the first tooth condition 27 is connected with the bottom sliding seat 26 of one blanking guide plate 21, the second tooth condition 28 is connected with the bottom sliding seat 26 of the other blanking guide plate 21, the bottom support plate 24 is provided with a telescopic cylinder 291 which is connected with the first tooth condition 27 or the second tooth condition 28, the telescopic direction of the telescopic cylinder 291 is parallel to the sliding direction of the first tooth condition 27 or the second tooth condition 28, the telescopic cylinder 291 drives one tooth condition to be engaged with and driven by the gear seat 29, the other tooth condition correspondingly slides in the opposite direction, and the two blanking guide plates 21 correspondingly approach to or separate from each other.

The punched capacitor plug-in components fall off from the material distributing plate, before falling, the two blanking guide plates 21 move away from each other to a certain distance, the distance can be just used for the capacitor plug-in components to fall, then the capacitor plug-in components fall to move freely, when falling, the capacitor plug-in components slide in along the chamfer structures 23 of the guide grooves 22, the guide grooves 22 of the blanking guide plates 21 limit the capacitor plug-in components after contacting the conveying components 10, the falling phenomenon cannot occur, after the capacitor plug-in components are stable, the blanking guide plates 21 are opened, and the conveying components 10 advance to convey the capacitor plug-in components.

The tail end of the conveying mechanism 1 is provided with a turning clamping mechanism 3 for turning and blanking the capacitor plug-in units, the turning clamping mechanism 3 comprises a pair of openable clamping blocks 37 and a turning driving piece for driving the clamping blocks 37 to swing back and forth, the turning driving piece comprises a turning seat 34 and a driving shaft 32 rotatably mounted on the turning seat 34, the driving shaft 32 is driven by a rotating motor 31 to rotate, bearing seats 33 are arranged at two ends of the driving shaft 32, the driving shaft 32 is fixedly nested with the turning seat 34, mounting holes 35 are formed in the inner end of the turning seat 34, the turning seat 34 is connected with the driving shaft 32 in a bonding mode, transversely-arranged finger cylinders 36 are mounted on the turning seat 34, the clamping blocks 37 are mounted at the driving end of the finger cylinders 36, the turning seat 34 is driven by the rotating motor 31 to rotate back and forth for 180 degrees around the driving shaft 32, when the turning seat 34 rotates to the conveying mechanism 1, the clamping blocks 37 just fall on the retaining structure 15, the clamping blocks 37 are located at the top of the retaining blocks 16, the finger cylinders 36 drive the lower two clamping blocks 37 to clamp the upper half part of the capacitor plug-in the retaining structure 15, then 180 degrees are turned to the next process, and the punching process is completed.

Specifically, the inner end of the clamping block 37 is provided with a clamping block 38, and two clamping grooves 39 matched with the shape of the side wall of the capacitor plug-in are formed on the contact surface of the clamping block 38 and the capacitor plug-in at intervals; the clamping groove 39 is an arc-shaped surface which is concave inwards, the clamping grooves 39 of the two clamping blocks 38 are matched, during clamping, the capacitor plug-in units can be surrounded, the capacitor plug-in units are not prone to being damaged, clamping stability is good, the capacitor plug-in units are not prone to falling in a turnover mode, and conveying stability is improved.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the effectiveness of the prior art and has practicability, and thus it is a product with practical value.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention, and it is to be understood that the present invention is not limited to the above embodiments, but may be modified within the scope of the present invention.

Claims (10)

1. The material distributing and guiding mechanism of the capacitor plate punching machine comprises a conveying mechanism located below a material distributing plate, and is characterized in that: conveying mechanism includes the transport piece of advancing the transport to the electric capacity plug-in components that drop, and the transport top is provided with the direction subassembly that aligns in electric capacity plug-in components whereabouts direction, and the direction subassembly includes that a pair of blanking deflector and drive blanking deflector are the guide driving piece of opening and shutting motion, and the blanking deflector inside wall has the guide way that supplies electric capacity plug-in components direction to drop to conveying mechanism along length direction interval shaping.

2. The distributing and guiding mechanism of the capacitor plate blanking machine according to claim 1, characterized in that: the conveying mechanism comprises a pair of conveying guide plates arranged at intervals, the conveying piece is installed between the two conveying guide plates, and a side baffle plate for guiding the capacitor plug-in piece to advance and convey is arranged at the top of each conveying guide plate along the length direction.

3. The dividing guide mechanism of the capacitor plate blanking machine according to claim 1 or 2, characterized in that: the conveying part comprises driving wheels arranged at two ends of the conveying guide plate and a belt part nested between the two driving wheels, and the top of the belt part is flush with the conveying guide plate.

4. The distributing and guiding mechanism of the capacitor plate blanking machine according to claim 2, characterized in that: two the interval is transfer passage between the side shield, and transfer passage end has the structure of keeping off the material, keeps off the material structure and installs in the terminal fender piece of carrying the deflector including can swinging respectively.

5. The distributing and guiding mechanism of the capacitor plate blanking machine according to claim 1, characterized in that: the guide driving part comprises a bottom supporting plate used for slidably supporting the blanking guide plate, a bottom guide rail perpendicular to the conveying direction of the capacitor plug-in is mounted on the bottom supporting plate, and a bottom sliding seat in sliding fit with the bottom guide rail is mounted at the bottom of the blanking guide plate.

6. The dividing guide mechanism of the capacitor plate blanking machine of claim 5, wherein: the bottom support plate is provided with a rotatable gear seat, the gear seat is meshed with and drives a first tooth condition and a second tooth condition which are parallel to the bottom guide rail respectively, the first tooth condition and the second tooth condition are opposite in movement direction, the first rack piece is connected with the bottom sliding seat of one blanking guide plate, and the second tooth condition is connected with the bottom sliding seat of the other blanking guide plate.

7. The distributing and guiding mechanism of the capacitor plate blanking machine according to claim 1, characterized in that: and a chamfer structure for guiding the capacitor plug-in unit to fall into the guide groove is formed at the top of the guide groove.

8. The distributing and guiding mechanism of the capacitor plate blanking machine according to claim 1, characterized in that: the tail end of the conveying mechanism is provided with an overturning clamping mechanism for overturning and discharging the capacitor plug-in unit, and the overturning clamping mechanism comprises a pair of openable clamping blocks and an overturning driving piece for driving the clamping blocks to swing in a reciprocating mode.

9. The dividing guide mechanism of the capacitor plate blanking machine of claim 8, wherein: the turnover driving piece comprises a turnover seat and a driving shaft which is rotatably installed on the turnover seat, the driving shaft is fixedly nested with the turnover seat, the turnover seat is provided with a transversely-arranged finger cylinder, and the clamping block is installed at the driving end of the finger cylinder.

10. The distributing and guiding mechanism of the capacitor plate blanking machine of claim 9, wherein: the clamping block is arranged at the inner end of the clamping block, and more than one clamping groove matched with the shape of the side wall of the capacitor plug-in unit is formed on the contact surface of the clamping block and the capacitor plug-in unit at intervals.

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