CN217726979U - Element fixing structure for resistance-capacitance cutting machine - Google Patents

Abstract

The utility model belongs to an element fixing structure for a resistance capacitance cutting machine, which comprises two transmission shafts, wherein any transmission shaft is connected with a motor, a conveyor belt is arranged between the two transmission shafts, the outer surface of the conveyor belt is uniformly provided with conveying teeth, and the middle part of the conveyor belt is provided with a processing bracket; the left and right sides that the processing support is located the conveyer belt upper surface below is equipped with down the mould, the mould left and right sides that pushes down is equipped with the shearing table, push down the mould middle part be equipped with conveyer belt assorted brace table, be equipped with the processing groove between brace table and the shearing table, processing support top is equipped with the cutter frame, the cutter frame upside is equipped with the cylinder, the cylinder runs through the cutter frame and is connected with the cutter, the cutter include with processing groove assorted cutter piece, cutter piece one side is equipped with the tangent plane with the shearing table, be equipped with the clearance between cutter piece opposite side and the brace table, conveyer belt afterbody bilateral symmetry is equipped with two arcs and leads the sign, the utility model discloses simple structure is fixed effectual to resistance capacitance to can improve machining efficiency.

Description

Element fixing structure for resistance-capacitance cutting machine

Technical Field

The utility model belongs to the technical field of the electronic parts processing, concretely relates to resistance capacitance cutting machine component fixed knot constructs.

Background

Resistance capacitor deposits with the form of resistance area or electric capacity area usually after having produced, as shown in fig. 1, resistance area and electric capacity area all are that pin 2 is connected side by side to a plurality of circuit main part 1 both ends, and pin 2 with one side is fixed by paper tape 3, and resistance capacitor need tailor pin 2 before using, and current resistance capacitor uses single mould to process one by one at the in-process of pin 2 of cutter processing, and fixed and centre gripping action duplicate to it is inefficient to lead to going up unloading.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: the element fixing structure for the resistance-capacitance cutting machine is simple in structure, good in resistance-capacitance fixing effect and capable of improving machining efficiency.

In order to realize the technical purpose, the utility model discloses a technical scheme as follows:

an element fixing structure for a resistance capacitance cutting machine comprises two transmission shafts, wherein a motor is connected to any one of the transmission shafts, a conveying belt is arranged between the two transmission shafts and used for conveying a resistance belt or a capacitance belt, conveying teeth are uniformly arranged on the outer surface of the conveying belt and can be clamped into gaps between the resistance belt or the capacitance belt, so that the conveying belt can continuously drive the resistance belt or the capacitance belt to move through the rotation of the transmission shafts, and a processing support is arranged in the middle of the conveying belt;

the processing support is provided with a pressing die on the left side and the right side below the upper surface of the conveyor belt, the cutting tables are arranged on the left side and the right side of the pressing die and matched with the cut surfaces to cut off redundant pins, the supporting table matched with the conveyor belt is arranged in the middle of the pressing die and used for supporting the conveyor belt to prevent the conveyor belt from being pulled to influence the cutting precision when the cutting tables and the cut surfaces are matched to cut, a processing groove is arranged between the supporting table and the cutting tables and used for reserving a space for moving a cutter, a cutter frame is arranged above the processing support and used for supporting an air cylinder, an air cylinder is arranged on the upper side of the cutter frame and penetrates through the cutter frame to be connected with the cutter, the cutter includes the connecting plate, the symmetry can be dismantled to connecting plate downside be connected with processing groove assorted cutter piece, cutter piece one side is equipped with the tangent plane with the shearing table, and the tangent plane is used for cuting the pin, be equipped with the clearance between cutter piece opposite side and the brace table, set up the clearance and make the surplus pin after cuting be bent by the cutter piece to form the finished product in the clearance, conveyer belt afterbody bilateral symmetry is equipped with two arcs and leads the sign, and the resistance capacitance after the processing is n shape, leads the sign through the arc of both sides and can stretch into resistance capacitance n shape and erect it along with the rotation of conveyer belt, slides to next processing link through resistance capacitance gravity.

The utility model discloses simple structure is fixed effectual to resistance capacitance to can improve machining efficiency.

And guide grooves matched with the conveyor belt are arranged on two sides of the support table.

The cutting knife rest is detachably connected with a limiting baffle plate, and the limiting baffle plate is located right above the supporting table.

And a reinforcing rod is arranged between the two arc-shaped guide sticks.

The tail of the processing support is provided with an arc discharge outlet.

And a chamfer is arranged below one side of the cutter block corresponding to the support table.

Drawings

The invention can be further illustrated by means of non-limiting examples given in the figures;

fig. 1 is a schematic structural diagram of a resistance band and a capacitance band of the present invention;

fig. 2 is a first schematic structural diagram of an embodiment of an element fixing structure for a resistance-capacitance cut-off machine according to the present invention;

fig. 3 is a second schematic structural diagram of an embodiment of an element fixing structure for a resistance-capacitance cut-off machine according to the present invention;

fig. 4 is a third schematic structural view of an embodiment of an element fixing structure for a resistance-capacitance cut-off machine according to the present invention;

the main component symbols are as follows:

the device comprises a circuit main body 1, pins 2, a paper tape 3, a transmission shaft 5, a motor 51, a conveyor belt 6, a transmission tooth 61, a processing bracket 7, a pressing die 71, a shearing table 711, a supporting table 712, a guide groove 7121, a processing groove 713, a cutting knife rest 72, an air cylinder 721, a limit baffle 722, an arc discharge port 73, a cutting knife 8, a connecting plate 81, a cutting knife block 82, a cut surface 821, a chamfer 822, an arc guide label 9, a reinforcing rod 91, a fixing rod and a fixing rod,

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

As shown in fig. 2-4, the component fixing structure for the resistance-capacitance cutting machine of the present invention comprises two transmission shafts 5, wherein any one of the transmission shafts 5 is connected with a motor 51, a conveyor belt 6 is arranged between the two transmission shafts 5, the outer surface of the conveyor belt 6 is uniformly provided with conveying teeth 61, and the middle part of the conveyor belt 6 is provided with a processing bracket 7;

the left side and the right side of the processing bracket 7, which are positioned below the upper surface of the conveyor belt 6, are provided with lower pressing dies 71, the left side and the right side of the lower pressing dies 71 are provided with cutting tables 711, the middle part of the lower pressing dies 71 is provided with a supporting table 712 matched with the conveyor belt 6, a processing groove 713 is arranged between the supporting table 712 and the cutting tables 711, a cutting knife rest 72 is arranged above the processing bracket 7, the upper side of the cutting knife rest 72 is provided with an air cylinder 721, the air cylinder 721 penetrates through the cutter holder 72 to be connected with the cutter 8, the cutter 8 comprises a connecting plate 81, the lower side of the connecting plate 81 is symmetrically detachably connected with a cutter block 82 matched with the processing groove 713, one side of the cutter block 82 is provided with a tangent plane 821 tangent to the shearing table 711, a gap is formed between the other side of the cutter block 82 and the supporting table 712, and two arc-shaped guide tabs 9 are symmetrically arranged on two sides of the tail portion of the conveyor belt 6.

Adopt the utility model discloses, transmission shaft 5 rotates through motor 51 and drives conveyer belt 6 and remove, conveyer belt 6's conveying tooth 61 can be gone into in the clearance between resistance area or the electric capacity area with the card, rotation through transmission shaft 5 like this, conveyer belt 6 can be continuous drive resistance area or electric capacity area remove, unnecessary pin 2 can be cut with the cooperation of tangent plane 821 to shearing platform 711, bilateral symmetry's push down mould 71 and cutter piece 82 can be processed resistance area or electric capacity area both sides simultaneously, supporting bench 712 is used for supporting conveyer belt 6, avoid shearing platform 711 and tangent plane 821 cooperation when cuting pulling conveyer belt 6 influence shearing precision, processing groove 713 is cutter 8's removal headspace, cutter frame 72 supports cylinder 721, and cylinder 721 then provides power for cutter 8, tangent plane 821 is used for shearing pin 2, it makes the surplus pin 2 after cuting to be bent to form the finished product in the clearance by cutter piece 82 pressure, the electric capacity after having good worked is n shape, the arc through both sides is signed 9 and can stretch into electric capacity n shape and is put up it along with conveyer belt 6's rotation, slide to next processing electric capacity through resistance gravity.

Because pin 2 is through shearing platform 711 and tangent plane 821 cooperation processing, and the length of push down mould 71 and cutter 8 can set up according to actual conditions for cylinder 721 single action can cut a plurality of resistance or electric capacity, and the resistance or electric capacity that just process still fix wait the arc in conveyer belt 6 and lead and sign 9 guides, and is simple to the fixed of resistance or electric capacity processing, goes up the unloading swiftly, promotes efficiency greatly, the utility model discloses simple structure is fixed effectual to resistance electric capacity to can improve machining efficiency.

Guide grooves 7121 matched with the conveyor belt 6 are arranged on two sides of the support platform 712. Not only prevent like this that conveyer belt 6 squints, promote the machining precision, guide slot 7121 also provides the surplus for the left and right sides of resistance capacitance n shape moreover, makes things convenient for the arc to lead to sign 9 and stretches into in the resistance capacitance who processes.

The lower side of the cutting tool holder 72 is detachably connected with a limit baffle 722, and the limit baffle 722 is positioned right above the support platform 712. Limiting baffle 722 can prevent that resistance capacitance is at machine-shaping's in-process, and resistance capacitance is by the reaction force perk that cutter piece 82 pushed down, and it is the finished product and receive the influence to fall, and when cutter piece 82 moved back, also prevented that the resistance capacitance card that has processed from being taken away from conveyer belt 6 between two cutter pieces 82, causes follow-up processing equipment to damage.

A reinforcing rod 91 is arranged between the two arc-shaped guide labels 9. The reinforcing rod 91 reinforces the position of the arc-shaped guide label 9, and reduces deformation.

The tail part of the processing bracket 7 is provided with an arc discharge hole 73. Arc bin outlet 73 can guide the outer 3 of arranging of waste paper tape like this, prevents to influence subsequent processing.

A chamfer 822 is provided below the side of the cutter block 82 corresponding to the support 712. The chamfer angle is arranged, so that the bending process of the pin 2 of the resistor capacitor is more moderate, and the processing is convenient.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (6)

1. The utility model provides a resistance capacitance cutting machine component fixed knot constructs, includes two transmission shafts (5), arbitrary transmission shaft (5) are connected with motor (51), two be equipped with conveyer belt (6), its characterized in that between transmission shaft (5): conveying teeth (61) are uniformly arranged on the outer surface of the conveying belt (6), and a processing bracket (7) is arranged in the middle of the conveying belt (6);

the left side and the right side of the processing support (7) below the upper surface of the conveyor belt (6) are provided with downward pressing molds (71), the left side and the right side of each downward pressing mold (71) are provided with shearing tables (711), the middle parts of the downward pressing molds (71) are provided with supporting tables (712) matched with the conveyor belt (6), a processing groove (713) is arranged between each supporting table (712) and each shearing table (711), a cutter frame (72) is arranged above the processing support (7), and an air cylinder (721) is arranged on the upper side of each cutter frame (72), the air cylinder (721) runs through the cutter frame (72) and is connected with the cutter (8), the cutter (8) comprises a connecting plate (81), a cutter block (82) matched with the processing groove (713) is connected to the lower side of the connecting plate (81) in a symmetrical mode, a tangent plane (821) tangent to the shearing table (711) is arranged on one side of the cutter block (82), a gap is formed between the other side of the cutter block (82) and the supporting table (712), and two arc-shaped guide labels (9) are symmetrically arranged on the two sides of the tail of the conveyor belt (6).

2. The component fixing structure for a resistance capacitance cut-off machine according to claim 1, characterized in that: the two sides of the support platform (712) are provided with guide grooves (7121) matched with the conveyor belt (6).

3. The component fixing structure for a resistance capacitance cut-off machine according to claim 1, characterized in that: the lower side of the cutting tool rest (72) is detachably connected with a limiting baffle (722), and the limiting baffle (722) is positioned right above the support table (712).

4. The component fixing structure for a resistance capacitance cut-off machine according to claim 1, characterized in that: a reinforcing rod (91) is arranged between the two arc-shaped guide sticks (9).

5. The component fixing structure for a resistance capacitance cut-off machine according to claim 1, characterized in that: the tail part of the processing support (7) is provided with an arc discharge outlet (73).

6. The component fixing structure for a resistance capacitance cut-off machine according to claim 1, characterized in that: a chamfer (822) is arranged below one side of the cutter block (82) corresponding to the support platform (712).

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