CN219252737U - Leftover bits cutting device is used in condenser production - Google Patents

Abstract

The utility model discloses a leftover material cutting device for capacitor production, which relates to the technical field of capacitor production and comprises a cutting box, wherein a primary cutting mechanism is connected to the inside of the cutting box and comprises a crushing roller A, the back surface of the crushing roller A is connected with a gear A through a shaft rod A, the back surface of the gear A is connected with a motor, a secondary cutting mechanism is connected to the inside of the cutting box, discharging plates are connected to the two sides of the inside of the cutting box through connecting arms, clamping grooves are connected to the two sides of the bottom of the cutting box, and a storage bin is connected to the inside of the cutting box. Leftover bits cutting device is used in condenser production prevents that aluminum product material leftover bits ejection of compact in-process can block up in the inside of flitch to lead to it unable normal ejection of compact, reduce its availability factor, need not that the manual drive of staff it moves, prevent frequent mediation discharge gate, increase staff's the amount of labour, reduce its availability factor.

Description

Leftover bits cutting device is used in condenser production

Technical Field

The utility model relates to the technical field of capacitor production, in particular to a leftover material cutting device for capacitor production.

Background

Along with the daily change of electronic information technology, the updating speed of digital electronic products is faster and faster, the sales volume of consumer electronic products mainly including flat televisions, notebook computers, digital cameras and the like is continuously increased, the capacitor industry is driven to increase, in the production and processing process of capacitors, aluminum electrolytic capacitors are one of common capacitor types, aluminum scrap can be produced in the production and processing process of the capacitors, aluminum has good recycling performance, therefore, aluminum scrap has good recycling value, aluminum scrap is cut, crushed and recycled, and the aluminum scrap is cut, crushed and recycled, so that the edge scrap cutting equipment for the production and processing of the capacitors, provided by Chinese patent 2021224406544, can reduce the operation intensity of workers and improve the discharging flexibility of the cutting equipment.

The comparative case carries out ejection of compact recovery processing after cutting aluminium waste material, but because materials such as aluminium iron, at the in-process of cutting ejection of compact, presents irregular state, produces the angle of colluding at the in-process of cutting easily to lead to the in-process of ejection of compact can block up in the inside of discharge gate, thereby lead to it to carry out normal ejection of compact, reduce its availability factor.

In the prior art, after a discharge hole of a device is blocked in the process of recycling and discharging aluminum waste, the device is manually dredged by a worker through using a tool, so that the device is prevented from being blocked, the discharge hole is frequently dredged, the labor capacity of the worker is increased, and the use efficiency of the worker is reduced.

Therefore, a need exists for a scrap cutting device for capacitor production with a discharge port prevented from being blocked.

Disclosure of Invention

The utility model aims to provide a leftover material cutting device for capacitor production, which solves the problems that in the prior art, materials such as aluminum iron and the like are in an irregular state in the process of cutting and discharging, and hook angles are easy to generate in the process of cutting, so that the inside of a discharging hole is blocked in the process of discharging, normal discharging cannot be performed, and the use efficiency is reduced.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the utility model provides a leftover bits cutting device is used in condenser production, includes the cutting case, the internal connection of cutting case has a cutting mechanism once, the internal connection of cutting case has a secondary cutting mechanism, the inside both sides of cutting case all are connected with the flitch through the linking arm, the both sides of cutting case bottom all are connected with the draw-in groove, the internal connection of cutting case has the feed bin, the both sides of feed bin all are connected with the card arm through round pin axle A, the both sides of secondary cutting mechanism all are connected with vibration mechanism.

The vibration mechanism comprises a square groove long block, a round rod is connected inside the square groove long block in a sliding mode, the back face of the round rod is connected with the front face of the secondary cutting mechanism, and a transmission arm is connected to the bottom of the square groove long block.

Optionally, the primary cutting mechanism includes crushing roller A, crushing roller A's the back is connected with gear A through axostylus axostyle A, gear A's the back is connected with the motor, gear A's external engagement is connected with gear B, gear B's front is connected with crushing roller B through axostylus axostyle B, gear B's the back is connected with the belt through belt pulley A.

Optionally, secondary cutting mechanism includes cutting wheel A, cutting wheel A's the back is connected with gear C through axostylus axostyle C, gear C's external engagement is connected with gear D, gear D's the back is connected with belt pulley B, and belt pulley B's outside is connected with the inside of belt, gear D's front is connected with cutting wheel B through axostylus axostyle D.

Optionally, the front sides of the cutting wheel A and the cutting wheel B are respectively connected with the back sides of the two round bars.

Optionally, both sides inside the cutting box are all connected with the slider through spout sliding connection, are connected between slider and the square groove long piece.

Optionally, the top of the connecting arm is connected with the inside of the cutting box.

Optionally, the front of the discharging plate is connected with the front of the connecting arm through a pin shaft B.

Optionally, the top of discharging plate is connected with the sliding block through the sliding tray sliding connection, and the top of sliding block is connected with the bottom of transmission arm through the hinge.

The utility model has the technical effects and advantages that:

1. leftover bits cutting device is used in condenser production, aluminum product material leftover bits drive flitch vibration through vibrating mechanism at the in-process of smashing the cutting, prevent that aluminum product material leftover bits from discharging the in-process can block up in the inside of flitch to lead to it can't carry out normal ejection of compact, reduce its availability factor.

2. Leftover bits cutting device is used in condenser production, vibration mechanism moves aluminium material leftover bits in-process that smashes through secondary cutting mechanism automatically, need not that the staff manually drive it moves, prevents frequent mediation discharge gate, increases staff's amount of labour, reduces its availability factor.

Drawings

FIG. 1 is a front cross-sectional view of the structure of the present utility model;

FIG. 2 is a schematic rear view of the cutting box of the present utility model;

FIG. 3 is a schematic view of a structural vibration mechanism of the present utility model;

fig. 4 is a right side view of the clamping arm of the structure of the utility model.

In the figure: 1 cutting box, 2 primary cutting mechanism, 21 crushing roller A, 22 crushing roller B, 23 gear A, 24 motor, 25 gear B, 26 belt, 3 secondary cutting mechanism, 31 cutting wheel A, 32 cutting wheel B, 33 gear C, 34 gear D, 4 connecting arm, 5 discharging plate, 6 vibrating mechanism, 61 square groove long block, 62 round bar, 63 driving arm, 7 draw-in groove, 8 feed bin, 9 draw-in arm.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

The utility model provides a leftover material cutting device for capacitor production, which is shown in fig. 1-4, and comprises a cutting box 1 of a connecting component, wherein the top of the cutting box 1 is communicated with a feeding pipe, the bottom of the cutting box 1 is provided with a discharge hole, the top of the cutting box 1 is communicated with a feeding bin, the bottom of the cutting box 1 is provided with a discharge hole, the inside of the cutting box 1 is connected with a primary cutting mechanism 2 capable of crushing materials for the first time, the primary cutting mechanism 2 comprises a crushing roller A21 for crushing the materials, the back surface of the crushing roller A21 is connected with a transmission gear A23 through a shaft rod A, the back surface of the gear A23 is connected with a motor 24 for providing driving force, the bottom of the motor 24 is connected with the back surface of the cutting box 1 through a connecting frame, the outer meshing of the gear A23 is connected with a transmission gear B25, the front surface of the gear B25 is connected with a crushing roller B22 matched with the crushing roller A21 through a belt pulley A, the back surface of the gear B25 is connected with a transmission belt 26, and the positions of the shaft rod A, the shaft rod C and the shaft rod D and the cutting box 1 are connected with bearings.

The inside of cutting case 1 is connected with the secondary cutting mechanism 3 that the secondary was smashed the material, secondary cutting mechanism 3 is including the cutting wheel A31 of smashing the material, the back of cutting wheel A31 is connected with driven gear C33 through axostylus axostyle C, the outside meshing of gear C33 is connected with driven gear D34, the back of gear D34 is connected with belt pulley B, belt pulley B's outside is connected with belt 26's inside, gear D34's front is connected with the cutting wheel B32 of cooperation cutting wheel A31 smashing the material through axostylus axostyle D, cutting wheel A31 is connected with the front of cutting wheel B32 respectively with the back of two round bars 62.

The inside both sides of cutting case 1 all are connected with the flitch 5 that makes it carry out the ejection of compact through coupling assembling's linking arm 4 convenient to the material water conservancy diversion, the front of flitch 5 is connected with the front of linking arm 4 through coupling assembling's round pin axle B, the top of linking arm 4 is connected with the inside of cutting case 1, the both sides of cutting case 1 bottom all are connected with coupling assembling's draw-in groove 7, the bottom equidistant recess that is equipped with of draw-in groove 7 can with the card arm card in its inside to fix the position of feed bin 8, the internal connection of cutting case 1 has feed bin 8 that can store material or ejection of compact, the both sides of feed bin 8 all are connected with the card arm 9 that cooperates draw-in groove 7 to change feed bin 8 angle through round pin axle A, the both sides of secondary cutting mechanism 3 all are connected with vibration mechanism 6 that can drive flitch 5 vibration.

The vibration mechanism 6 comprises square groove long blocks 61 sliding in the square groove long blocks 52 through internal square grooves, sliding blocks are connected to two sides of the inside of the cutting box 1 through sliding grooves, the sliding blocks are connected with the square groove long blocks 61, round rods 62 can be connected to the inside of the square groove long blocks 61 in a sliding mode, square grooves are formed in the back faces of the square groove long blocks 61, arc-shaped movement of the round rods 62 can be decomposed into transverse movement and vertical movement through the square grooves, the transverse movement moves in the square grooves, the vertical movement drives the body to move, the back faces of the round rods 62 are connected with the front faces of the secondary cutting mechanisms 3, transmission arms 63 are connected to the bottoms of the square groove long blocks 61, sliding blocks are connected to the tops of the discharging plates 5 through sliding grooves in a sliding mode, and the tops of the sliding blocks are connected with the bottoms of the transmission arms 63 through hinges.

The inside of throwing into cutting case 1 with aluminum product leftover bits, starter motor 24 drive gear A23 cooperation gear B25 drives crushing roller A21 and crushing roller B22 rotation, smash the aluminum product leftover bits that will throw into simultaneously gear B25 drives gear D34 through belt 26 at rotatory in-process, gear D34 rotatory in-process drives cutting wheel A31 and cutting wheel B32 through gear C33 and rotates and carry out secondary crushing to aluminum product leftover bits, the kibbling aluminum product leftover bits drops at the top of flitch 5, cutting wheel A31 and cutting wheel B32 are through round bar 62 drive square groove long piece 61 up-and-down reciprocating motion in rotatory in-process, square groove long piece 61 in-process drive transmission arm 63 drives flitch 5 and shakes for its top aluminum product leftover bits drop speed, thereby prevent simultaneously that aluminum product leftover bits from stagnating at its top, aluminum product leftover bits drop at the inside of 8, thereby change the inclination of feed bin 8 through the position of drive arm 9 in the draw-in 7 bottom, determine that the feed bin 8 stores aluminum product leftover bits or directly discharge aluminum product leftover bits.

The aluminum product leftover bits are smashing the in-process of cutting and are driving the vibration of flitch 5 through vibrating mechanism 6, prevent that aluminum product leftover bits from discharging the in-process can block up in flitch 5's inside to lead to it to carry out normal ejection of compact, reduce its availability factor.

The vibration mechanism 6 moves the in-process of smashing the aluminium material leftover bits automatically through secondary cutting mechanism 3, need not that the staff manually drive it moves, prevents frequent mediation discharge gate, increases staff's amount of labour, reduces its availability factor.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. Leftover bits cutting device is used in condenser production, including cutting case (1), its characterized in that: the inside of cutting case (1) is connected with primary cutting mechanism (2), the inside of cutting case (1) is connected with secondary cutting mechanism (3), the inside both sides of cutting case (1) are all connected with flitch (5) through linking arm (4), the both sides of cutting case (1) bottom all are connected with draw-in groove (7), the inside of cutting case (1) is connected with feed bin (8), the both sides of feed bin (8) all are connected with card arm (9) through round pin axle A, the both sides of secondary cutting mechanism (3) all are connected with vibration mechanism (6);

the vibration mechanism (6) comprises a square groove long block (61), a round rod (62) is connected inside the square groove long block (61) in a sliding mode, the back face of the round rod (62) is connected with the front face of the secondary cutting mechanism (3), and a transmission arm (63) is connected to the bottom of the square groove long block (61).

2. The scrap cutting device for capacitor manufacturing according to claim 1, wherein: the primary cutting mechanism (2) comprises a crushing roller A (21), wherein the back of the crushing roller A (21) is connected with a gear A (23) through a shaft rod A, the back of the gear A (23) is connected with a motor (24), the outer meshing of the gear A (23) is connected with a gear B (25), the front of the gear B (25) is connected with a crushing roller B (22) through a shaft rod B, and the back of the gear B (25) is connected with a belt (26) through a belt pulley A.

3. The scrap cutting device for capacitor manufacturing according to claim 1, wherein: the secondary cutting mechanism (3) comprises a cutting wheel A (31), wherein the back surface of the cutting wheel A (31) is connected with a gear C (33) through a shaft lever C, the gear C (33) is connected with a gear D (34) in an external meshing manner, the back surface of the gear D (34) is connected with a belt pulley B, the outer part of the belt pulley B is connected with the inner part of a belt (26), and the front surface of the gear D (34) is connected with a cutting wheel B (32) through a shaft lever D.

4. A scrap cutting device for capacitor manufacturing according to claim 3, wherein: the front surfaces of the cutting wheel A (31) and the cutting wheel B (32) are respectively connected with the back surfaces of the two round rods (62).

5. The scrap cutting device for capacitor manufacturing according to claim 1, wherein: both sides inside the cutting box (1) are connected with sliding blocks through sliding grooves in a sliding mode, and the sliding blocks are connected with the square groove long blocks (61).

6. The scrap cutting device for capacitor manufacturing according to claim 1, wherein: the top of the connecting arm (4) is connected with the inside of the cutting box (1).

7. The scrap cutting device for capacitor manufacturing according to claim 1, wherein: the front face of the discharging plate (5) is connected with the front face of the connecting arm (4) through a pin shaft B.

8. The scrap cutting device for capacitor manufacturing according to claim 1, wherein: the top of the discharging plate (5) is connected with a sliding block in a sliding way through a sliding groove, and the top of the sliding block is connected with the bottom of the transmission arm (63) through a hinge.

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