CN216099770U - Wire storage structure of annular diamond cutting wire - Google Patents

Abstract

The utility model discloses a wire storage structure of an annular diamond cutting wire, which is characterized in that: the wire winding device comprises a wire storage area and a cutting area, wherein the wire storage area is provided with more than two wire winding rollers, one of the wire winding rollers is a wire inlet roller, the other wire winding roller is a wire outlet roller, the wire inlet roller and the wire outlet roller are respectively driven by a servo motor, the cutting area is provided with two cutting rollers, and one or two cutting rollers are driven by the servo motor; one end of the wire inlet roller is a wire inlet end, one end of the wire outlet roller is a wire outlet end, the wire inlet end and the wire outlet end are arranged on the same side, and a tensioning assembly is arranged between the wire inlet roller and the wire outlet roller. The wire storage structure of the annular diamond cutting wire has the advantages of strong tension, high cutting efficiency, long service life of the diamond cutting wire and the like, is simple in structure, can improve the wire storage amount according to requirements, and is particularly suitable for storage of the annular diamond cutting wire.

Description

Wire storage structure of annular diamond cutting wire

Technical Field

The utility model relates to the field of wire cutting, in particular to a wire storage structure of an annular diamond cutting wire.

Background

Nonmetal such as silicon, semiconductor silicon and pottery for the photovoltaic adopts buddha's warrior attendant wire-electrode cutting in a large number for raising efficiency, for raising surface quality and efficiency, has adopted annular buddha's warrior attendant wire-electrode cutting again, but the annular line is short, and it is high with trading frequency, and high hard material such as carborundum, silicon nitride need cut for a long time, and the annular line of no reserve line hardly satisfies the requirement.

Chinese patent CN101693314B discloses an included angle double-wire barrel storage and operation structure of linear cutting ring-shaped wire electrode, and specifically discloses the following contents: the wire electrode wire winding device comprises wire barrels, a shaft bracket device and a power device, wherein the wire barrels are arranged on a rotating shaft and used for storing annular wire electrodes, the shaft bracket device is used for installing the rotating shaft, the power device is used for driving the rotating shaft to move, two rotating shafts are arranged on the shaft bracket device, one wire barrel is respectively arranged on each rotating shaft, the two wire barrels are arranged side by side, and the axes of the two wire barrels form a heterofacial linear state with a required included angle along the axis of the rotating shaft; the power device is connected with one of the rotating shafts, the rotating shafts are driven to rotate to drive the wire barrels on the rotating shafts to rotate, and the other wire barrel also rotates around the axis of the wire barrel; the wire guiding wheels are respectively arranged at corresponding positions on two sides of the wire barrel, the guided-in electrode wires are wound into the wire barrel through the wire guiding wheels with certain pre-tension, and are wound to the other side of the wire barrel in a parallel arrangement mode in a reciprocating mode between the two wire barrels, and then are guided out by the wire guiding barrel on the other side, the guided-out electrode wires are guided back to the wire guiding wheels to be connected with the guided-in electrode wires after passing through a processing area under the guiding of other guiding principles, and the whole electrode wires are connected in an annular mode.

In the above patent, there still exist poor tension, the structure is complicated, is not suitable for diamond cutting line.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a wire storage structure suitable for an annular diamond cutting wire.

The purpose of the utility model is realized by the following technical scheme: the utility model provides a store up line structure of annular buddha's warrior attendant cutting wire which characterized in that: the wire winding device comprises a wire storage area and a cutting area, wherein the wire storage area is provided with more than two wire winding rollers, one of the wire winding rollers is a wire inlet roller, the other wire winding roller is a wire outlet roller, the wire inlet roller and the wire outlet roller are respectively driven by a servo motor, the cutting area is provided with two cutting rollers, and one or two cutting rollers are driven by the servo motor; one end of the wire inlet roller is a wire inlet end, one end of the wire outlet roller is a wire outlet end, the wire inlet end and the wire outlet end are arranged on the same side, and a tensioning assembly is arranged between the wire inlet roller and the wire outlet roller. By adopting the above mode, through all setting up servo motor on going into the line roller and going out the line roller, can improve the tensile force of buddha's warrior attendant line, and simple structure can form buddha's warrior attendant line closed loop and store, can improve cutting efficiency and life.

Preferably, the wire storage area is provided with two wire winding rollers, one of the two wire winding rollers is the wire inlet roller, and the other wire winding roller is the wire outlet roller.

Preferably, the wire storage area is provided with a plurality of winding roller sets, each winding roller set is provided with a wire inlet roller and a wire outlet roller, the wire inlet ends of the wire inlet rollers and the wire outlet ends of the wire outlet rollers of each winding roller set are located on the same side, and the wire inlet ends and the wire outlet ends of the two most edge winding roller sets respectively correspond to the two cutting rollers of the cutting area.

Preferably, the wire inlet roller and the wire outlet roller are both provided with a plurality of V-shaped annular grooves which are uniformly arranged along the axial direction and surround the circumference of the rollers.

Preferably, the servo motors on the wire inlet roller and the wire outlet roller rotate synchronously.

Preferably, the tensioning assembly comprises a transition wheel arranged between the thread outlet roller and the thread inlet roller.

Preferably, the number of the transition wheels is two, an included angle exists between the axis of the two transition wheels and the axis of the wire inlet roller and the axis of the wire outlet roller, and an included angle also exists between the axis of the two transition wheels.

Has the advantages that:

the wire storage structure of the annular diamond cutting wire has the advantages of strong tension, high cutting efficiency, long service life of the diamond cutting wire and the like, is simple in structure, can improve the wire storage amount according to requirements, and is particularly suitable for storage of the annular diamond cutting wire.

Drawings

FIG. 1 is a front view showing a wire-out structure of a diamond wire in example 1;

FIG. 2 is an isometric view of the wire outlet structure of the cutting line of the ring-shaped diamond in example 1;

fig. 3 is an isometric view of the wire outlet structure of the ring-shaped diamond cutting wire in example 1.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings, but the present invention is not limited to these embodiments, and any modifications or substitutions in the basic spirit of the embodiments will still fall within the scope of the present invention as claimed in the claims.

Example 1: as shown in fig. 1-3, the present embodiment provides a wire storage structure of a circular diamond cutting wire.

The method specifically comprises the following steps: comprises a wire storage area and a cutting area. The wire storage area is provided with two wire winding rollers, one of the two wire winding rollers is a wire inlet roller 1, the other one of the two wire winding rollers is a wire outlet roller 2, the wire inlet roller and the wire outlet roller are respectively driven by a servo motor 3, and the two servo motors synchronously rotate. The circumference of income line roller and play line roller all is provided with the V-arrangement annular groove that the cross-section is the V type, V-arrangement annular groove evenly is provided with a plurality ofly along the axial. One end of the wire inlet roller is a wire inlet end, one end of the wire outlet roller is a wire outlet end, and the directions of the wire inlet end and the wire outlet end are on the same side.

In addition, the cutting zone has two cutting rollers 4, one or both of which are driven by a servomotor. As another embodiment of this embodiment, the cutting roller is also provided with the V-shaped annular groove.

As another implementation manner in this embodiment, a tension assembly is disposed between the wire inlet roller and the wire outlet roller. The tensioning assembly comprises a transition wheel 5 arranged between the outlet roller and the inlet roller. In the embodiment, the number of the transition wheels is two, an included angle exists between the axis of the two transition wheels and the axis of the wire inlet roller and the axis of the wire outlet roller, and an included angle also exists between the axes of the two transition wheels.

In particular, in this embodiment, the axis of one of the transition wheels has an acute angle with the horizontal direction, and the axis of the other transition wheel has an acute angle with the vertical direction.

In use, annular diamond cutting lines are wound on the wire inlet roller, the transition wheel, the wire outlet roller and the cutting roller. The specific winding direction is as follows: the diamond cutting line 6 enters the second V-shaped ring groove of the wire outlet end of the wire outlet roller after being wound in from the first V-shaped ring groove of the wire inlet end of the wire inlet roller of the wire storage area, then enters the second V-shaped ring groove of the wire outlet roller after being wound out from the second V-shaped ring groove of the wire outlet roller, and enters the third V-shaped ring groove of the wire outlet roller after being wound out from the second V-shaped ring groove of the wire inlet roller. The above steps are repeated in a circulating mode until the last V-shaped ring groove of the wire inlet roller is wound, the wire enters the first transition wheel after being wound out of the V-shaped ring groove, the first transition wheel enters the second transition wheel, and the wire passes through the second transition wheel and then is wound out of the first V-shaped ring groove at the wire outlet end of the wire outlet roller; the diamond cutting line wound from the wire outlet end enters the first cutting roller of the cutting area, enters the second cutting roller after passing through the first cutting roller, and enters the first V-shaped annular groove of the wire inlet end of the wire inlet roller of the wire storage area after passing through the second cutting roller, so that a complete annular diamond cutting line is formed.

The wire storage structure of the annular diamond cutting wire has the advantages of being strong in tension force, high in cutting efficiency, long in service life of the diamond cutting wire and the like. The storage device is particularly suitable for storing annular diamond cutting wires.

Example 2: the embodiment provides a wire storage structure of a ring-shaped diamond cutting wire.

The method specifically comprises the following steps: comprises a wire storage area and a cutting area. The wire storage area is provided with a plurality of winding roller sets, and each winding roller set is provided with a wire inlet roller and a wire outlet roller. One end of the wire inlet roller is a wire inlet end, one end of the wire outlet roller is a wire outlet end, and the directions of the wire inlet end and the wire outlet end are the same side. The wire outlet end of the wire outlet roller of each group of winding roller sets corresponds to the wire inlet end of the wire inlet roller of the adjacent group of winding roller sets.

As an implementation manner in this embodiment, each of the incoming line rollers and each of the outgoing line rollers are driven by a servo motor, and each of the servo motors rotates synchronously.

In the embodiment, each of the wire inlet roller and the wire outlet roller is provided with a V-shaped annular groove with a V-shaped section in the circumferential direction, and the V-shaped annular grooves are uniformly provided in plurality in the axial direction.

In addition, the cutting area is provided with two cutting rollers, wherein one or two cutting rollers are driven by a servo motor. As another embodiment of this embodiment, the cutting roller is also provided with the V-shaped annular groove.

As another implementation manner in the embodiment, a tensioning assembly is arranged between the wire inlet roller and the wire outlet roller of each winding roller group. The tensioning assembly comprises a transition wheel arranged between the wire outlet roller and the wire inlet roller. The number of the transition wheels of the tensioning assembly in the embodiment is two, included angles exist between the axes of the two transition wheels and the axes of the wire inlet roller and the wire outlet roller, and included angles also exist between the axes of the two transition wheels.

In particular, in this embodiment, the axis of one of the transition wheels has an acute angle with the horizontal direction, and the axis of the other transition wheel has an acute angle with the vertical direction.

In use, the wire inlet roller, the transition wheel, the wire outlet roller and the cutting roller of each group of winding roller group are surrounded by annular diamond cutting wires. The specific winding direction is as follows: the diamond cutting line enters a second V-shaped ring groove at the wire outlet end of a wire inlet roller of a first group of wire winding roller sets in the wire storage area after being wound in from a first V-shaped ring groove at the wire inlet end of the wire inlet roller, then enters a second V-shaped ring groove of the wire inlet roller after being wound out from a second V-shaped ring groove of the wire outlet roller, then enters a third V-shaped ring groove of the wire outlet roller after being wound out from the second V-shaped ring groove of the wire inlet roller, and the diamond cutting line is circularly reciprocated until the diamond cutting line winds to the last V-shaped ring groove of the group of wire inlet roller, enters a first transition wheel of the group of tensioning assembly after being wound out from the V-shaped ring groove, enters a second transition wheel from the first transition wheel, and winds out from the first V-shaped ring groove at the wire outlet end of the group of wire outlet roller after passing through the second transition wheel, so that the winding of the first group of wire winding roller sets is completed. And then the diamond cutting wire continuously enters a first V-shaped ring groove at the wire inlet end of the wire inlet roller of the second group of wire winding roller assembly after being wound out from the wire outlet end of the first group of wire winding roller assembly, and then the wire is continuously wound according to the wire winding mode of the first group until the wire is wound out from the wire outlet end of the wire outlet roller of the last group of wire winding roller assembly. The diamond cutting line wound by the wire outlet end of the wire outlet roller of the last group of wire winding groups enters the first cutting roller of the cutting area, enters the second cutting roller after passing through the first cutting roller, and enters the first V-shaped annular groove of the wire inlet end of the wire inlet roller of the first group of wire winding roller group of the wire storage area after passing through the second cutting roller, so that a complete annular diamond cutting line is formed.

Adopt the wire storage structure of annular buddha's warrior attendant line of cut of this embodiment, it is strong to have a tensile force, cuts efficiently, advantages such as buddha's warrior attendant line of cut long service life, and simple structure can improve the wire storage volume as required. The storage device is particularly suitable for storing annular diamond cutting wires.

Claims (7)

1. The utility model provides a store up line structure of annular buddha's warrior attendant cutting wire which characterized in that: the wire winding device comprises a wire storage area and a cutting area, wherein the wire storage area is provided with more than two wire winding rollers, one of the wire winding rollers is a wire inlet roller, the other wire winding roller is a wire outlet roller, the wire inlet roller and the wire outlet roller are respectively driven by a servo motor, the cutting area is provided with two cutting rollers, and one or two cutting rollers are driven by the servo motor; one end of the wire inlet roller is a wire inlet end, one end of the wire outlet roller is a wire outlet end, the wire inlet end and the wire outlet end are arranged on the same side, and a tensioning assembly is arranged between the wire inlet roller and the wire outlet roller.

2. The wire storage structure of a circular diamond cutting wire as set forth in claim 1, wherein: the wire storage area is provided with two wire winding rollers, one of the two wire winding rollers is the wire inlet roller, and the other wire winding roller is the wire outlet roller.

3. The wire storage structure of a circular diamond cutting wire as set forth in claim 1, wherein: the wire storage area is provided with a plurality of wire winding roller sets, each wire winding roller set is provided with a wire inlet roller and a wire outlet roller, the wire inlet ends of the wire inlet rollers and the wire outlet ends of the wire outlet rollers of each wire winding roller set are located on the same side, and the wire inlet ends and the wire outlet ends of the two most edgewise wire winding roller sets respectively correspond to the two cutting rollers of the cutting area.

4. A reservoir structure of a circular diamond cutting wire as claimed in claim 2 or 3, wherein: the wire inlet roller and the wire outlet roller are both provided with V-shaped annular grooves around the circumference of the rollers, and the V-shaped annular grooves are uniformly arranged along the axial direction.

5. A reservoir structure of a circular diamond cutting wire as claimed in claim 2 or 3, wherein: and servo motors on the wire inlet roller and the wire outlet roller synchronously rotate.

6. A reservoir structure of a circular diamond-cut wire as claimed in claim 1, 2 or 3, wherein: the tensioning assembly comprises a transition wheel arranged between the wire outlet roller and the wire inlet roller.

7. The wire storage structure of a circular diamond cutting wire as set forth in claim 6, wherein: the number of the transition wheels is two, an included angle exists between the axis of each transition wheel and the axis of the wire inlet roller and the axis of the wire outlet roller, and an included angle also exists between the axis of each transition wheel and the axis of the wire outlet roller.

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