CN205835624U - A kind of high voltage ceramic capacitor ceramic dielectric chip moulding press - Google Patents

Abstract

The utility model discloses a kind of high voltage ceramic capacitor ceramic dielectric chip moulding press, including the rotating disk that can rotate, rotating disk is circumferentially evenly arranged with several circular holes, is placed with a lower mold in each circular hole；Lower mold includes annulus lower concave part and protuberance under the disk raised up.Rotating disk is disposed with feed station, stamping station and unloading station along direction of rotation.The upper mold being arranged above highly can lifting of stamping station；Upper mold includes annulus upper recess and downwardly convex disk upper convex portion.Disk upper convex portion is provided with vertical slot, transverse groove, spring and stripper；The ejector beam that height can lift it is provided with in protuberance under disk.Unloading station includes discharge ram and blowpit.After using said structure, energy automatic press high voltage ceramic capacitor ceramic dielectric chip, ram efficiency is high, forming, and the ceramic dielectric chip volume stamped out is little, and capacitance is big and is not likely to produce crackle or burr, and compressive resistance is high.

Description

A kind of high voltage ceramic capacitor ceramic dielectric chip moulding press

Technical field

This utility model relates to ceramic capacitor production field, and particularly a kind of high voltage ceramic capacitor ceramic dielectric chip becomes Swaging machine.

Background technology

Traditional discrete component ceramic capacitor based on disc, this shaping structures is simple, technical maturity, operation Easy, it is simple to mass, large-scale production.But for high voltage ceramic capacitor, primary concern is that compressive resistance and Rated capacitors is the highest.And between both, the most conflicting.Under equal conditions: medium is the thinnest, capacitance is more Greatly, compressive resistance is the lowest, and vice versa.Traditional disc type ceramic capacitor volume is relatively large, is unfavorable for the group of electrical device Dress.

It addition, during ceramic capacitor molding, easily produce burr or crackle.During follow-up insulation coating, when in identical coating Under, due to burr or the existence of crackle, by big for the insulation thickness difference making ceramic capacitor, also make the resistance to of ceramic capacitor Compressive Strength reduces.

Utility model content

The technical problems to be solved in the utility model is for above-mentioned the deficiencies in the prior art, and provides a kind of higfh-tension ceramics Capacitor ceramic dielectric chip moulding press, this high voltage ceramic capacitor ceramic dielectric chip moulding press energy automatic press higfh-tension ceramics Capacitor ceramic dielectric chip, ram efficiency is high, forming, and the ceramic dielectric chip volume stamped out is little, and capacitance is big and is difficult to Cracking or burr, compressive resistance is high.

For solving above-mentioned technical problem, the technical solution adopted in the utility model is:

A kind of high voltage ceramic capacitor ceramic dielectric chip moulding press, ceramic dielectric chip includes the disk recess being coaxially disposed With annulus protuberance, disk recess is positioned at the inside of annulus protuberance, and the thickness of annulus protuberance is disk recess thickness 1.2～3 times, circle The 2/3～4/5 of a diameter of ceramic dielectric chip of dish recess；The disk recess of disk recess and the junction of annulus protuberance are provided with Circular arc, ceramic dielectric chip is overall compressing.

Moulding press includes the rotating disk that can rotate, and rotating disk is circumferentially evenly arranged with several circular holes, Mei Geyuan A lower mold it is placed with in hole；Lower mold includes annulus lower concave part and protuberance under the disk raised up.

Rotating disk is disposed with feed station, stamping station and unloading station along direction of rotation.

Feed station is provided above feed pipe.

The upper mold being arranged above highly can lifting of stamping station；Upper mold includes annulus upper recess and downwardly convex Disk upper convex portion.

Disk upper convex portion is all corresponding with the disk recess of ceramic dielectric chip with protuberance under disk；Annulus upper recess and annulus Lower concave part is all corresponding with the annulus protuberance of ceramic dielectric chip.

Annulus lower concave part is arranged with the junction of protuberance under disk and the junction of annulus upper recess and disk upper convex portion There is the chamfering corresponding with circular arc.

Being provided with vertical slot in disk upper convex portion, the bottom of vertical slot is provided with the transverse groove connected；Set in vertical slot It is equipped with spring, in transverse groove, is provided with stripper；One end of spring is fixed in vertical slot, and the other end of spring is solid with stripper Fixed connection；When the spring is compressed, the bottom of stripper can be with the bottom flush of disk upper convex portion.

The ejector beam that height can lift it is provided with in protuberance under disk.

Unloading station includes discharge ram and the blowpit being arranged on rotating disk side, and discharge ram can be by unloading station Ceramic dielectric chip push on blowpit.

The quantity of described circular hole is 8.

The quantity of described circular hole is 6.

Described blowpit is inclined at the side of rotating disk.

Between described blowpit and horizontal plane in sharp clevis angle be 30～60 °.

After this utility model uses said structure, energy automatic press high voltage ceramic capacitor ceramic dielectric chip, ram efficiency Height, forming, the ceramic dielectric chip volume stamped out is little, and capacitance is big and is not likely to produce crackle or burr, and compressive resistance is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model a kind of high voltage ceramic capacitor ceramic dielectric chip moulding press.

Fig. 2 shows the structural representation of upper mold.

Fig. 3 shows the structural representation of lower mold.

Fig. 4 shows the structural representation of ceramic dielectric chip.

Detailed description of the invention

With concrete better embodiment, this utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in Figures 1 to 4, a kind of high voltage ceramic capacitor ceramic dielectric chip moulding press, including on upper mold 1, annulus Recess 11, disk upper convex portion 12, vertical slot 121, spring 122, transverse groove 123, stripper 124, lower mold 2, annulus lower concave part 21, Protuberance 22, ejector beam 221, rotating disk 3, circular hole 31, stamping station 32, feed station 33, feed pipe 331, rampman under disk The main skill such as position 34, discharge ram 341, blowpit 342, ceramic dielectric chip 4, annulus protuberance 41, disk recess 42 and circular arc 43 Art feature.

As shown in Figure 4, ceramic dielectric chip includes disk recess and the annulus protuberance being coaxially disposed, and disk recess is positioned at annulus The inside of protuberance.

The thickness of annulus protuberance is disk recess thickness 1.2～3 times, preferably 1.2～2 times, more preferably 1.2～ 1.6 again.

The 2/3～4/5 of a diameter of ceramic dielectric chip of disk recess.

The junction of disk recess and annulus protuberance is provided with circular arc, and the angle of circular arc is preferably 15-60 °, the most excellent Elect 45 ° as.The setting of this circular arc, can prevent the generation of molding burr and crackle, and compacting qualification rate is high.

Above-mentioned ceramic dielectric chip is overall compressing.

Can be used for arranging interior electrode on disk recess, annulus protuberance can be used for arrange external electrode.

As it is shown in figure 1, moulding press includes the rotating disk that can rotate, rotating disk is circumferentially evenly arranged with several circles Hole, is placed with a lower mold in each circular hole；As it is shown on figure 3, lower mold includes under annulus lower concave part and the disk that raises up convex Portion.

Rotating disk is disposed with feed station, stamping station and unloading station along direction of rotation.

Feed station is provided above feed pipe.

The upper mold being arranged above highly can lifting of stamping station.As in figure 2 it is shown, upper mold includes annulus upper recess With downwardly convex disk upper convex portion.

Disk upper convex portion is all corresponding with the disk recess of ceramic dielectric chip with protuberance under disk；Annulus upper recess and annulus Lower concave part is all corresponding with the annulus protuberance of ceramic dielectric chip.

Annulus lower concave part is arranged with the junction of protuberance under disk and the junction of annulus upper recess and disk upper convex portion There is the chamfering corresponding with circular arc.

Being provided with vertical slot in disk upper convex portion, the bottom of vertical slot is provided with the transverse groove connected；Set in vertical slot It is equipped with spring, in transverse groove, is provided with stripper；One end of spring is fixed in vertical slot, and the other end of spring is solid with stripper Fixed connection；When the spring is compressed, the bottom of stripper can be with the bottom flush of disk upper convex portion.

The ejector beam that height can lift it is provided with in protuberance under disk.Ejector beam is preferably by the electricity being arranged in rotating disk Machine is driven.

Unloading station includes discharge ram and the blowpit being arranged on rotating disk side, and discharge ram can be by unloading station Ceramic dielectric chip push on blowpit.

The quantity of above-mentioned circular hole is preferably 8 or 6.

Further, above-mentioned blowpit is inclined at the side of rotating disk, between blowpit and horizontal plane in sharp shape Angle is preferably 30～60 °.

Preferred implementation of the present utility model described in detail above, but, this utility model is not limited to above-mentioned reality Execute the detail in mode, in technology concept of the present utility model, the technical solution of the utility model can be entered The multiple equivalents of row, these equivalents belong to protection domain of the present utility model.

Claims (5)

1. a high voltage ceramic capacitor ceramic dielectric chip moulding press, it is characterised in that: ceramic dielectric chip includes being coaxially disposed Disk recess and annulus protuberance, disk recess is positioned at the inside of annulus protuberance, and the thickness of annulus protuberance is disk recess thickness 1.2～3 times, the 2/3～4/5 of a diameter of ceramic dielectric chip of disk recess；The disk recess of disk recess and annulus protuberance Junction is provided with circular arc, and ceramic dielectric chip is overall compressing；

Moulding press includes the rotating disk that can rotate, and rotating disk is circumferentially evenly arranged with several circular holes, in each circular hole It is placed with a lower mold；Lower mold includes annulus lower concave part and protuberance under the disk raised up；

Rotating disk is disposed with feed station, stamping station and unloading station along direction of rotation；

Feed station is provided above feed pipe；

The upper mold being arranged above highly can lifting of stamping station；Upper mold includes annulus upper recess and downwardly convex circle Dish upper convex portion；

Disk upper convex portion is all corresponding with the disk recess of ceramic dielectric chip with protuberance under disk；Annulus upper recess and annulus are recessed Portion is all corresponding with the annulus protuberance of ceramic dielectric chip；

Under annulus lower concave part and disk the junction of protuberance and the junction of annulus upper recess and disk upper convex portion be provided with The chamfering that circular arc is corresponding；

Being provided with vertical slot in disk upper convex portion, the bottom of vertical slot is provided with the transverse groove connected；It is provided with in vertical slot Spring, is provided with stripper in transverse groove；One end of spring is fixed in vertical slot, and the other end of spring is fixing with stripper even Connect；When the spring is compressed, the bottom of stripper can be with the bottom flush of disk upper convex portion；

The ejector beam that height can lift it is provided with in protuberance under disk；

Unloading station includes discharge ram and the blowpit being arranged on rotating disk side, and discharge ram can be by the porcelain on unloading station Dielectric chip pushes on blowpit.

High voltage ceramic capacitor ceramic dielectric chip moulding press the most according to claim 1, it is characterised in that: described circular hole Quantity be 8.

High voltage ceramic capacitor ceramic dielectric chip moulding press the most according to claim 1, it is characterised in that: described circular hole Quantity be 6.

High voltage ceramic capacitor ceramic dielectric chip moulding press the most according to claim 1, it is characterised in that: described discharging Groove is inclined at the side of rotating disk.

High voltage ceramic capacitor ceramic dielectric chip moulding press the most according to claim 4, it is characterised in that: described discharging Between groove and horizontal plane in sharp clevis angle be 30～60 °.