CN114632830B

CN114632830B - Automatic wire drawing spinning equipment for electrothermal alloy material

Info

Publication number: CN114632830B
Application number: CN202210213096.4A
Authority: CN
Inventors: 杨广文; 杨彪; 卞保全
Original assignee: Yancheng Xingkai Environmental Protection Technology Co ltd
Current assignee: Yancheng Xingkai Environmental Protection Technology Co ltd
Priority date: 2022-03-04
Filing date: 2022-03-04
Publication date: 2023-07-25
Anticipated expiration: 2042-03-04
Also published as: CN114632830A

Abstract

The invention relates to the field of wire drawing and spinning equipment, in particular to automatic wire drawing and spinning equipment for electrothermal alloy materials, which comprises a bottom plate, a support plate a, a winding disc a, a support frame, a support plate e, a winding disc b, traction alloy and alloy to be wire drawn; a supporting block b, a sliding plate and a supporting block c are sequentially arranged on the bottom plate from right to left, and a wire drawing die is arranged at the top of the supporting block b; the support plate a is arranged on the sliding plate, and a motor a for driving the rolling disc a to rotate is arranged on the support plate a; the inner wall of the top of the support frame is provided with a lifting device, the bottom of the lifting device is provided with a support plate d, and the bottom of the support plate d is provided with a cutter; a motor b for driving the winding disc b to rotate is arranged on the supporting plate e; the traction alloy is connected with the alloy to be drawn. The invention can conveniently finish the initial end wire drawing of the alloy to be wire-drawn, and the winding disc a provides the tension for wire drawing, and can also carry out spinning finishing winding on the alloy after wire drawing, thereby being convenient to use.

Description

Automatic wire drawing spinning equipment for electrothermal alloy material

Technical Field

The invention relates to the field of wire drawing and spinning equipment, in particular to automatic wire drawing and spinning equipment for electrothermal alloy materials.

Background

In the prior art, after the raw materials of the electrothermal alloy materials are purchased, the diameter of different requirements is formed by wire drawing treatment, the starting end of the material to be drawn needs to be processed into a cylinder with smaller diameter before wire drawing by the existing wire drawing machine so as to pass through a wire drawing die hole, the starting end is fixed on a winding disc, wire drawing can be performed, the use is inconvenient, and the processing operation for the starting end of the material is troublesome in many cases, and wastes time and labor.

The Chinese patent with the publication number of CN213103804U discloses automatic wire drawing spinning equipment for electrothermal alloy materials, which has the advantages of simple, reasonable and reliable structure, convenient traction and wire drawing through multidirectional direction-changing conveying, and convenient use, and realizes sequential discharge of spinning through a directional telescopic structure.

However, the above disclosed solution has the following disadvantages: it is also necessary to work the starting end of the alloy material to pass through the drawing die, which is cumbersome to use.

Disclosure of Invention

The invention aims at solving the problems in the background technology and provides automatic wire drawing and spinning equipment for an electrothermal alloy material, which is convenient for drawing the starting end of the alloy material to be drawn.

The technical scheme of the invention is as follows: an automatic wire drawing spinning device for electrothermal alloy materials comprises a bottom plate, a support plate a, a winding disc a, a support frame, a support plate e, a winding disc b, traction alloy and alloy to be wire drawn;

the bottom plate is provided with a support block b, a sliding plate and a support block c from right to left in sequence, the top of the support block b is provided with a wire drawing die, the sliding plate is arranged in a longitudinal sliding manner, the bottom plate is provided with a linear reciprocating motion assembly for driving the sliding plate to slide, and the bottom of the support block c is longitudinally provided with two groups of cutting grooves; the support plate a is arranged on the sliding plate, the support plate a is provided with two groups, and the support plate a is provided with a motor a for driving the rolling disc a to rotate; the support frame is arranged on the bottom plate, the inner wall of the top of the support frame is vertically provided with a lifting device, a support plate d is arranged at the telescopic end of the bottom of the lifting device, and two groups of cutters are longitudinally arranged at the bottom of the support plate d; the support plate e is arranged on the bottom plate, two groups of support plates e are arranged, a motor b for driving the rolling disc b to rotate is arranged on the support plate e, and fixing assemblies for fixing the ends of the alloy are arranged on the rolling disc b and the rolling disc a; one end of the traction alloy is connected with the winding disc b, the other end of the traction alloy passes through the wire drawing die to be connected with the alloy to be drawn, and the diameter of the traction alloy is smaller than the aperture of a wire drawing hole on the wire drawing die.

Preferably, the linear reciprocating assembly comprises a support plate b, a support plate c and a linear reciprocating device; the support plate b is arranged on the bottom plate and is positioned between the sliding plate and the support block c; the support plate c is arranged on the left side surface of the sliding plate; the linear reciprocating motion device is horizontally and longitudinally arranged on the supporting plate b, and the telescopic end of the linear reciprocating motion device is connected with the supporting plate c.

Preferably, the linear reciprocating motion device is an air cylinder, a hydraulic cylinder or an electric push rod.

Preferably, a supporting block a is arranged on the bottom plate and positioned on the right side of the supporting block b, and the supporting block a is positioned below the traction alloy and the alloy joint to be drawn.

Preferably, the fixing component comprises a limiting rod, a clamping plate and a bolt; the limiting rod is arranged on the outer wall of the winding drum a, and a perforated hole is formed in a circular plate at the end part of the winding drum a; the clamping plates are arranged in two groups, the two groups of clamping plates are arranged on the outer side face of the circular plate at the end part of the winding disc a, one group of clamping plates are in sliding connection with the circular plate at the end part of the winding disc a, the sliding direction of the clamping plates is close to or far away from the other group of clamping plates, through holes are formed in the fixed clamping plates, threaded holes are formed in the sliding clamping plates, and the through holes are opposite to the threaded holes; the bolts are matched with the threaded holes, the bolts penetrate through the through holes, two groups of limiting rings are arranged on the bolts, and the two groups of limiting rings are respectively positioned on two sides of a fixedly arranged clamping plate and are attached to two sides of the clamping plate; the two groups of fixed components have the same structure and are respectively arranged on the winding disc a and the winding disc b.

Preferably, the alloy to be drawn and the traction alloy are connected in a welding mode.

Preferably, the lifting device is an air cylinder, a hydraulic cylinder or an electric push rod.

Compared with the prior art, the invention has the following beneficial technical effects: the traction alloy on the rolling disc b is discharged to enable the traction alloy to pass through a wire drawing die, then the traction alloy and the alloy to be drawn are connected through welding, the motor b is started to drive the rolling disc b to roll, the alloy to be drawn is pulled through the wire drawing die to finish initial end wire drawing of the alloy to be drawn, after the traction alloy and the joint of the alloy to be drawn move to a supporting block c, the motor b is closed, the lifting device is started to cut off the joint of the traction alloy and the alloy to be drawn by two groups of cutters, then the initial section of the alloy to be drawn is fixed on the rolling disc a through a fixing component, the motor a and the linear reciprocating motion component are started again, the rolling disc a starts to rotate and carries out longitudinal reciprocating motion, the rolling disc a which rotates provides wire drawing tension, and the alloy after wire drawing can be spun, tidied and rolled, and the use is convenient.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

fig. 3 is a schematic structural view of the fixing assembly.

Reference numerals: 1. a bottom plate; 2. a supporting block a; 3. a support block b; 4. a slide plate; 5. a support block c; 6. drawing a wire mould; 7. a supporting plate a; 8. a winding reel a; 9. a motor a; 10. a support plate b; 11. a support plate c; 12. a linear reciprocating motion device; 13. grooving; 14. a support frame; 15. a lifting device; 16. a support plate d; 17. a cutter; 18. a support plate e; 19. a winding reel b; 20. a motor b; 21. drawing the alloy; 22. drawing an alloy; 23. a limit rod; 24. perforating; 25. a clamping plate; 26. a bolt; 27. and a limiting ring.

Detailed Description

Example 1

The invention provides automatic wire drawing and spinning equipment for electrothermal alloy materials, which comprises a bottom plate 1, a supporting plate a7, a winding disc a8, a supporting frame 14, a supporting plate e18, a winding disc b19, a traction alloy 21 and an alloy 22 to be wire drawn;

as shown in fig. 1-2, a supporting block b3, a sliding plate 4 and a supporting block c5 are sequentially arranged on the bottom plate 1 from right to left, a wire drawing die 6 is arranged at the top of the supporting block b3, the sliding plate 4 is arranged in a sliding manner along the longitudinal direction, a linear reciprocating motion assembly for driving the sliding plate 4 to slide is arranged on the bottom plate 1, and two groups of cutting grooves 13 are longitudinally arranged at the bottom of the supporting block c 5; the support plate a7 is arranged on the sliding plate 4, the support plate a7 is provided with two groups, and the support plate a7 is provided with a motor a9 for driving the rolling disc a8 to rotate; the supporting frame 14 is arranged on the bottom plate 1, the inner wall of the top of the supporting frame 14 is vertically provided with a lifting device 15, the lifting device 15 is an air cylinder, a hydraulic cylinder or an electric push rod, a supporting plate d16 is arranged at the telescopic end of the bottom of the lifting device 15, and two groups of cutters 17 are longitudinally arranged at the bottom of the supporting plate d 16; the support plate e18 is arranged on the bottom plate 1, the support plate e18 is provided with two groups, the support plate e18 is provided with a motor b20 for driving the rolling disc b19 to rotate, and the rolling disc b19 and the rolling disc a8 are respectively provided with a fixing component for fixing the end parts of the alloy; one end of the traction alloy 21 is connected with the winding disc b19, the other end of the traction alloy 21 passes through the wire drawing die 6 to be connected with the alloy 22 to be drawn, the alloy 22 to be drawn is connected with the traction alloy 21 in a welding mode, and the diameter of the traction alloy 21 is smaller than the aperture of a wire drawing hole on the wire drawing die 6. The bottom plate 1 is provided with a supporting block a2, the supporting block a2 is positioned on the right side of the supporting block b3, and the supporting block a2 is positioned below the joint of the traction alloy 21 and the alloy 22 to be drawn.

In this embodiment, the traction alloy 21 on the rolling disc b19 is released to make the traction alloy 21 pass through the wire drawing die 6, then the traction alloy 21 and the alloy 22 to be drawn are connected by welding, the motor b20 is started to drive the rolling disc b19 to roll, the alloy 22 to be drawn passes through the wire drawing die to finish the initial end wire drawing of the alloy 22 to be drawn, when the connection of the traction alloy 21 and the alloy 22 to be drawn moves to the supporting block c5, the motor b20 is closed, the lifting device 15 is started to cut off the connection of the traction alloy 21 and the alloy 22 to be drawn by two groups of cutters 17, then the initial section of the alloy 22 to be drawn is fixed on the rolling disc a8 by a fixing component, the motor a9 and the linear reciprocating component are started, the rolling disc a8 starts to rotate and moves longitudinally and reciprocally, the rolling disc a8 which rotates provides the tension for wire drawing, and the alloy after wire drawing can be spun, finished and rolled, and the use is convenient.

Example two

As shown in fig. 1, compared with the first embodiment, the automatic wire drawing and spinning device for electrothermal alloy material provided by the invention has the advantages that the linear reciprocating motion assembly comprises a support plate b10, a support plate c11 and a linear reciprocating motion device 12; the supporting plate b10 is arranged on the bottom plate 1, and the supporting plate b10 is positioned between the sliding plate 4 and the supporting block c 5; the support plate c11 is arranged on the left side surface of the sliding plate 4; the linear reciprocating motion device 12 is horizontally and longitudinally arranged on the supporting plate b10, the telescopic end of the linear reciprocating motion device 12 is connected with the supporting plate c11, and the linear reciprocating motion device 12 is an air cylinder, a hydraulic cylinder or an electric push rod. The linear reciprocating device 12 can drive the sliding plate 4 to move back and forth by continuously stretching, so that the longitudinal reciprocating movement of the rolling disc a8 is completed, and the alloy spinning after wiredrawing is rolled more neatly and uniformly.

Example III

As shown in fig. 2-3, compared with the first embodiment, the automatic wire drawing and spinning device for electrothermal alloy material provided by the invention has the advantages that the fixing component comprises a limiting rod 23, a clamping plate 25 and a bolt 26; the limiting rod 23 is arranged on the outer wall of the winding drum a8, and a perforated hole 24 is arranged on a circular plate at the end part of the winding drum a 8; the clamping plates 25 are arranged in two groups, the two groups of clamping plates 25 are arranged on the outer side face of the circular plate at the end part of the rolling disc a8, one group of clamping plates 25 is in sliding connection with the circular plate at the end part of the rolling disc a8, the sliding direction of the clamping plates 25 is close to or far away from the other group of clamping plates 25, through holes are formed in the fixed clamping plates 25, threaded holes are formed in the sliding clamping plates 25, and the through holes are opposite to the threaded holes; the bolts 26 are matched with the threaded holes, the bolts 26 penetrate through the through holes, two groups of limiting rings 27 are arranged on the bolts 26, and the two groups of limiting rings 27 are respectively positioned on two sides of the fixedly arranged clamping plate 25 and are attached to two sides of the clamping plate 25; the two groups of fixed components have the same structure and are respectively arranged on the winding disc a8 and the winding disc b 19.

In this embodiment, the alloy bypasses the stop lever 23 or winds on the stop lever 23, then passes through the through hole 24, and finally is clamped by two groups of clamping plates 25, and the alloy can be pulled to provide power for wire drawing when the winding disc a8 or the winding disc b19 rotates.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims

1. The automatic wire drawing spinning equipment for the electrothermal alloy material is characterized by comprising a bottom plate (1), a supporting plate a (7), a winding disc a (8), a supporting frame (14), a supporting plate e (18), a winding disc b (19), a traction alloy (21) and an alloy to be wire drawn (22);

the bottom plate (1) is sequentially provided with a supporting block b (3), a sliding plate (4) and a supporting block c (5) from right to left, the top of the supporting block b (3) is provided with a wire drawing die (6), the sliding plate (4) is arranged in a sliding manner along the longitudinal direction, the bottom plate (1) is provided with a linear reciprocating motion assembly for driving the sliding plate (4) to slide, and the bottom of the supporting block c (5) is longitudinally provided with two groups of cutting grooves (13); the support plate a (7) is arranged on the sliding plate (4), the support plate a (7) is provided with two groups, and the support plate a (7) is provided with a motor a (9) for driving the rolling disc a (8) to rotate; the support frame (14) is arranged on the bottom plate (1), the inner wall of the top of the support frame (14) is vertically provided with a lifting device (15), the telescopic end of the bottom of the lifting device (15) is provided with a support plate d (16), and the bottom of the support plate d (16) is longitudinally provided with two groups of cutters (17); the support plate e (18) is arranged on the bottom plate (1), the support plate e (18) is provided with two groups, the support plate e (18) is provided with a motor b (20) for driving a rolling disc b (19) to rotate, and the rolling disc b (19) and the rolling disc a (8) are both provided with fixing components for fixing the ends of the alloy; one end of the traction alloy (21) is connected with the winding disc b (19), the other end of the traction alloy (21) passes through the wire drawing die (6) to be connected with the alloy (22) to be drawn, and the diameter of the traction alloy (21) is smaller than the diameter of a wire drawing hole on the wire drawing die (6);

the fixing component comprises a limiting rod (23), a clamping plate (25) and a bolt (26); the limiting rod (23) is arranged on the outer wall of the winding drum of the winding disc a (8), and a perforated hole (24) is formed in a circular plate at the end part of the winding disc a (8); two groups of clamping plates (25) are arranged, the two groups of clamping plates (25) are arranged on the outer side face of the circular plate at the end part of the winding disc a (8), one group of clamping plates (25) is in sliding connection with the circular plate at the end part of the winding disc a (8), the sliding direction of the clamping plates (25) is close to or far away from the other group of clamping plates (25), through holes are formed in the fixed clamping plates (25), threaded holes are formed in the sliding clamping plates (25), and the through holes are opposite to the threaded holes; the bolts (26) are matched with the threaded holes, the bolts (26) penetrate through the through holes, two groups of limiting rings (27) are arranged on the bolts (26), and the two groups of limiting rings (27) are respectively positioned on two sides of a fixedly arranged clamping plate (25) and are attached to two sides of the clamping plate (25); the two groups of fixed components have the same structure and are respectively arranged on the winding disc a (8) and the winding disc b (19).

2. The automatic wire drawing spinning apparatus for electric heating alloy material according to claim 1, wherein the linear reciprocating assembly comprises a support plate b (10), a support plate c (11) and a linear reciprocating device (12); the support plate b (10) is arranged on the bottom plate (1), and the support plate b (10) is positioned between the sliding plate (4) and the support block c (5); the support plate c (11) is arranged on the left side surface of the sliding plate (4); the linear reciprocating motion device (12) is horizontally and longitudinally arranged on the support plate b (10), and the telescopic end of the linear reciprocating motion device (12) is connected with the support plate c (11).

3. Automatic wire drawing and spinning equipment for electrothermal alloy materials according to claim 2, characterized in that the linear reciprocating motion device (12) is a cylinder, a hydraulic cylinder or an electric push rod.

4. The automatic wire drawing spinning device for the electrothermal alloy material according to claim 1, wherein a supporting block a (2) is arranged on the bottom plate (1), the supporting block a (2) is positioned on the right side of the supporting block b (3), and the supporting block a (2) is positioned below the joint of the traction alloy (21) and the alloy to be drawn (22).

5. Automatic wire drawing and spinning equipment for electrothermal alloy materials according to claim 1, characterized in that the alloy (22) to be drawn and the drawing alloy (21) are connected by welding.

6. Automatic wire drawing spinning apparatus for electrothermal alloy materials according to claim 1, wherein the lifting device (15) is a cylinder, a hydraulic cylinder or an electric push rod.