CN101643160B - Feeding device for amorphous alloy ribbons - Google Patents

Abstract

The invention relates to a feeding device for amorphous alloy ribbons, which is provided with a feed channel for transporting the amorphous alloy ribbons. The feed channel comprises distributing racks which are arranged in sequence, a vibrator, a cradle and upper and lower feed rollers, which are distributed on a rack in sequence, wherein, the vibrator is provided with a vibrating trough which is connected with a vibration driving mechanism driving the vibrating trough to vibrate; the vibration driving mechanism can comprise a vibrating cylinder and a pressure-regulating valve of the vibrating cylinder; the front of the bottom surface of the vibrating trough is hinged with the rack and the back thereof is connected with the cylinder. The feeding device features simple structure, convenient use and high production efficiency and can automatically remove the scraps on the amorphous alloy ribbons so as to avoid the operators from being harmed and the product quality from being influenced.

Description

Feeding device for amorphous alloy ribbons

Technical field

The present invention relates to a kind of feeding device for amorphous alloy ribbons, relate generally to the technical field of making the cutting production line that becomes argon gas amorphous alloy material unshakable in one's determination.

Background technology

Non-crystaline amorphous metal, or be called glassy metal, it is a kind of new material that comes out the seventies in 20th century; Be to utilize chilling technique; With the molten steel one-shot forming is that thickness is 30 microns strip, and the solid alloy that obtains (strip) is to be different from the crystal structure that atomic rule is arranged in the cold rolled silicon steel material, and this just its atom of alloy is in the non-crystal structure of random arrangement; Make it have narrow B-H loop, have high magnet conductivity and low-loss characteristics; Simultaneously non-crystaline amorphous metal atomic arrangement irregular limited having free passage of electronics and causes electrical resistivity to exceed 2-3 doubly than crystalline alloy, so also helps reducing eddy current loss.With the non-crystaline amorphous metal is the transformer core that raw material is processed; Its open circuit loss is compared with the traditional transformer that adopts silicon steel plate; Reduced about 75%; Make amorphous alloy transformer have very energy-conservation significantly and environment protecting, when amorphous alloy transformer iron core is used for oil immersed transformer, can obviously reduce discharging multiple pernicious gas.So increasing production firm adopts non-crystaline amorphous metal to be used as the raw MAT'L of transformer core.

In the manufacturing process of amorphous core, need shear amorphous steel band, form the amorphous thin slice of suitable size; Therefore feeder need be set is sent to the cutting head place with amorphous steel band; Form one and be typically provided with feeding pair roller and some roller bearings on the said feeding channel, steel band is sent in the gap between the feeding pair roller along some roller bearings by the feeding channel of trough to shear knife; The feeding pair roller clamps the steel band appropriateness and rotation, drives steel band and moves forward.But, owing to tend to have some chips on the amorphous steel band, if these chips jump; Will bring harm to operating personal; If stay on the steel band, will influence the quality of amorphous core, therefore be necessary in the feeding process, to adopt suitable mode that these chips are removed.

Summary of the invention

The objective of the invention is provides a kind of feeding device for amorphous alloy ribbons for overcoming the above-mentioned defective of prior art, and this apparatus structure is simple, and is easy to use, and can remove the chip on the amorphous steel band automatically.

The present invention realizes that the technical scheme of above-mentioned purpose is:

A kind of feeding device for amorphous alloy ribbons; Be provided with the feeder channel that is used to transmit amorphous alloy ribbon; Said feeder channel by the material distributing rest that is arranged in order and the vibrator that on frame, distributes successively, cradle and up and down the feeding pair roller constitute; Said vibrator is provided with vibra shoot, and said vibra shoot is connected with the vibratory drive mechanism that drives its vibration.

Said vibratory drive mechanism can the involving vibrations cylinder and the pressure-modulation valve of vibrating air cylinder; The front portion and the frame of the bottom surface of said vibra shoot are hinged; The rear portion of said vibra shoot bottom surface connects said cylinder, drives the vibra shoot vibration through cylinder thus, and the chip on the steel band is shaken off down.

The low heeling condition in high back before said vibra shoot should be usually, the position, center is higher than said material distributing rest, is lower than described cradle, makes steel band successfully extend to the cradle that exceeds from the material distributing rest of lower thus.

Said cradle generally should be horizontally disposed with; Be positioned at the place ahead of said vibrator; Its arrival end is in abutting connection with the exit end of said vibra shoot, and exit end plays the effect of between vibra shoot and feeding pair roller, accepting steel band in abutting connection with said feeding gap between the feeding pair roller up and down.

Said cradle can be made up of some roller bearings and the baffle plate that lays respectively at said roller bearing both sides, and rotary connection is on the said baffle plate in its both sides respectively at the two ends of said roller bearing, and steel band can move on roller bearing smoothly thus.

Said material distributing rest can be provided with some rotatable distributing rollers that laterally arrange, and said each distributing roller distributes alternately up and down.

Said material distributing rest is installed on the pedestal of said pedestal usually, so that be connected with discharging device.

On the said frame cutting head can be installed, said upper and lower feeding roller is installed on the housing of said cutting head, so as with the shear knife close fit.

Said feeding roller down can be provided with the feeding servomotor that is used to drive its rotation,, said feeding servomotor is positioned at the said below of feeding roller down; Drive described feeding roller down through the feeding servomotor and rotate, control the feeding amount of steel band thus, the said feeding roller of going up is installed on the feeding roll shaft; The said feeding roller of going up is connected with its feeding roller cylinder that moves up and down of drive; Depress feeding roller through feeding cylinder, band clip between the feeding roller up and down, just can be moved by the drive steel band when feeding roller rotates down; Adopt the driving of cylinder simultaneously as last feeding roller, favourable and feeding roller up and down to the pressure control of steel band in suitable scope.

Can be provided with guide groove on the two side of the housing of said cutting head; Sliding part and said guide groove free-running fit can directly or be passed through in said two ends of going up the feeding roll shaft; Said sliding part is fixedly connected on said two ends of going up feeding roller respectively; And be inserted in the said guide groove, and be provided with the bearing fit gap between the sidewall of guide groove, guarantee to go up the track that feeding roller moves up and down thus.

Because the present invention makes amorphous alloy ribbon pass through material distributing rest, vibrator, cradle and feeding pair roller up and down successively, forms the failure-free feeder channel; Adopt the structure of material distributing rest in the process of feeding, many to be made in order, avoid the phase mutual interference, the steel band band can not be screwed in together, makes the feeding process effective smoothly; Adopt the structure of vibrator, can make amorphous thin ribbon in the feeding process under oscillating action, remove the chip on the amorphous steel band, avoid in the later stage operation influence to product design is avoided in personnel's injury; Adopt the structure of cradle and up and down feeding make amorphous alloy ribbon can send shear knife exactly to roll structure.The present invention makes that the feed process is more convenient, safety and accurately, improved work efficiency, has eliminated the steel band chip to the threat of operating personal with to the influence of product design.

Description of drawings

Fig. 1 is a structural representation of the present invention.

The specific embodiment

As shown in Figure 1; The invention provides a kind of feeding device for amorphous alloy ribbons; Comprise the feeder channel that is used to transmit amorphous alloy ribbon; Said feeder channel by the material distributing rest that is arranged in order 5 and the vibrator 1 that on frame, distributes successively, cradle 6 and up and down feeding pair roller 3 constitute, said vibrator is provided with vibra shoot 2, said vibra shoot is connected with the vibratory drive mechanism that drives its vibration.

Said vibratory drive mechanism can involving vibrations cylinder 7 and the pressure-modulation valve 8 of vibrating air cylinder; The front portion and the frame of the bottom surface of said vibra shoot are hinged; The rear portion of said vibra shoot bottom surface connects said cylinder, drives the vibra shoot vibration through cylinder thus, and the chip on the steel band is shaken off down.Chip falls into eye and damages when avoiding that the later stage, personnel put lamination in order, uses the air cylinder driven vibra shoot, and application force is relaxed more, reduces the infringement to machinery.The low heeling condition in high back before said vibra shoot should be usually, the position, center is higher than said material distributing rest, is lower than described cradle, makes steel band successfully extend to the cradle that exceeds from the material distributing rest of lower thus.

Said cradle generally should be horizontally disposed with; Be positioned at the place ahead of said vibrator; Its arrival end is in abutting connection with the exit end of said vibra shoot, and exit end plays the effect of between vibra shoot and feeding pair roller, accepting steel band in abutting connection with said feeding gap between the feeding pair roller up and down.Said cradle can be made up of some roller bearings 9 and the baffle plate that lays respectively at said roller bearing both sides, and rotary connection is on the said baffle plate in its both sides respectively at the two ends of said roller bearing, and steel band can move on roller bearing smoothly thus.Amorphous alloy ribbon can directly get into cradle from vibra shoot, is sending under the effect of rotating shaft up and down between the feeding pair roller.

Said material distributing rest can be provided with some rotatable distributing rollers that laterally arrange, and said each distributing roller distributes alternately up and down.Form between the said distributing roller and go up sub-material mouth, middle sub-material mouth and following sub-material mouth.The purpose of this structure is: prevent that amorphous alloy ribbon on many delivery machines when the cutting head direction moves, is screwed in together each other.

Said material distributing rest is installed on the pedestal of said pedestal usually, so that be connected with discharging device.Amorphous thin ribbon on the delivery machine gets into vibra shoot through material distributing rest.

On the said frame cutting head can be installed; Said upper and lower feeding roller is installed on the housing of said cutting head; So that with the shear knife close fit, when steel band is sent to up and down between the feeding roller, under the driving of feeding servomotor; Feeding roller pushes and advances steel band up and down, and shear knife is sheared then.

Said feeding roller down can be provided with the feeding servomotor that is used to drive its rotation,, said feeding servomotor is positioned at the said below of feeding roller down; Drive described feeding roller down through the feeding servomotor and rotate, control the feeding amount of steel band thus, the said feeding roller of going up is installed on the feeding roll shaft; The said feeding roller of going up is connected with its feeding roller cylinder that moves up and down of drive; Depress feeding roller through feeding cylinder, band clip between the feeding roller up and down, just can be moved by the drive steel band when feeding roller rotates down; Adopt the driving of cylinder simultaneously as last feeding roller; Favourable and feeding roller up and down, are compared with motor-driven in suitable scope the pressure control of steel band, and the application force of air cylinder driven relatively relaxes.

Can be provided with guide groove on the two side of the housing of said cutting head; Sliding part and said guide groove free-running fit can directly or be passed through in said two ends of going up the feeding roll shaft; Said sliding part is fixedly connected on said two ends of going up feeding roller respectively; And be inserted in the said guide groove, and be provided with the bearing fit gap between the sidewall of guide groove, guarantee to go up the track that feeding roller moves up and down thus.Moving up and down of last feeding roller can make the extruding of non-crystaline amorphous metal steel band be superimposed.

When discharging device was three delivery machines, three amorphous alloy ribbons wherein got into feeder channel, during through material distributing rest, because the structure of distributing roller; Make three strips walk material smoothly, get into together in the vibra shoot, under the driving of vibrating air cylinder; The non-crystaline amorphous metal chip has been removed in the vibra shoot vibration, and this moment, strip was sent into up and down between the feeding roller through the rotating shaft on the cradle; Under the driving of feeding servomotor, after feeding roller pushes propelling to steel band up and down, it is sheared with shear knife.

Claims (9)

1. feeding device for amorphous alloy ribbons; Comprise three delivery machines; It is characterized in that being provided with the feeder channel that is used to transmit amorphous alloy ribbon; Said feeder channel by the material distributing rest that is arranged in order and the vibrator that on frame, distributes successively, cradle and up and down the feeding pair roller constitute, said vibrator is provided with vibra shoot, said vibra shoot is connected with the vibratory drive mechanism that drives its vibration;

Said material distributing rest is provided with some rotatable distributing rollers that laterally arrange, and said each distributing roller distributes alternately up and down; Form between the said distributing roller and go up sub-material mouth, middle sub-material mouth and following sub-material mouth.

2. feeding device for amorphous alloy ribbons as claimed in claim 1; The pressure-modulation valve that it is characterized in that said vibratory drive mechanism's involving vibrations cylinder and vibrating air cylinder; The front portion and the frame of the bottom surface of said vibra shoot are hinged, and the rear portion of said vibra shoot bottom surface connects said cylinder.

3. feeding device for amorphous alloy ribbons as claimed in claim 1 is characterized in that said vibra shoot is the low heeling condition in preceding high back, and the position, center is higher than said material distributing rest, is lower than described cradle.

4. feeding device for amorphous alloy ribbons as claimed in claim 1; It is characterized in that said cradle is horizontally disposed with; Be positioned at the place ahead of said vibrator, its arrival end is in abutting connection with the exit end of said vibra shoot, and exit end is in abutting connection with said feeding gap between the feeding pair roller up and down.

5. feeding device for amorphous alloy ribbons as claimed in claim 4 is characterized in that said cradle is made up of some roller bearings and the baffle plate that lays respectively at said roller bearing both sides, and the two ends difference rotary connection of said roller bearing is on the said baffle plate in its both sides.

6. feeding device for amorphous alloy ribbons as claimed in claim 1 is characterized in that material distributing rest is installed on the pedestal of said pedestal.

7. like claim 1,2,3,4,5 or 6 described feeding device for amorphous alloy ribbons, it is characterized in that on the said frame cutting head being installed, said upper and lower feeding pair roller is installed on the housing of said cutting head.

8. feeding device for amorphous alloy ribbons as claimed in claim 7; It is characterized in that said feeding pair roller down is provided with the feeding servomotor that is used to drive its rotation; Said feeding servomotor is positioned at the said below of feeding pair roller down; The said feeding pair roller of going up is installed in feeding on the roll shaft, and the said feeding pair roller of going up is connected with its feeding roller cylinder that moves up and down of drive.

9. feeding device for amorphous alloy ribbons as claimed in claim 8; The two side that it is characterized in that the housing of said cutting head is provided with guide groove; Said go up feeding to the two ends of roll shaft directly or through sliding part and said guide groove free-running fit; Said sliding part is fixedly connected on said two ends of going up the feeding pair roller respectively, and is inserted in the said guide groove, and is provided with the bearing fit gap between the sidewall of guide groove.

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