CN113927426B - Optical element wire drawing device for metal material processing - Google Patents

Abstract

The invention discloses an optical element wire drawing device for processing metal materials, which comprises: a driving seat; the upper bearing table is transversely fixed on the upper end surface of the driving seat; the mounting machine body is vertically and symmetrically arranged at the two sides of the upper end surface of the upper bearing table; the transmission clamping assembly is embedded in the upper bearing table and used for clamping and positioning the metal material main board and driving the metal material main board to transversely displace in multiple angles; and the wire drawing processing assembly is transversely arranged between the installation machine bodies and is arranged right above the transmission clamping assembly in an overhead mode through the installation machine bodies, and the wire drawing processing assembly performs wire drawing work on the surface of the metal material main board.

Description

Optical element wire drawing device for metal material processing

Technical Field

The invention belongs to the technical field of wire drawing machine equipment, and particularly relates to an optical element wire drawing device for metal material processing.

Background

Generally, in the metal material surface wire drawing treatment, lines are formed on the surface of a workpiece by a grinding product, so that the metal material surface wire drawing treatment can play a role in decoration and fully embody the texture of the metal material, and is more and more widely applied; at present, most of common mechanical wire drawing adopts flat pressing type abrasive belt wire drawing, a metal workpiece is mainly fixed on a die, an abrasive belt is made to adhere to the surface of a processed metal to draw wires by grinding the abrasive belt to run at a high speed, but the contact surface of the abrasive belt is relatively fixed, so the abrasive belt is more suitable for wire drawing work of large metal material plates, and the surface wire drawing effect of the abrasive belt is common for wire drawing work of small metal material plates; and generally, the wire drawing machine can only form linear wire grains, and the wire drawing grains are relatively single. Accordingly, those skilled in the art have provided an optical fiber drawing apparatus for processing a metallic material to solve the problems set forth in the background art described above.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: an optical fiber drawing device for processing a metal material, comprising:

a driving seat;

the upper bearing table is transversely fixed on the upper end surface of the driving seat;

the installation machine body is vertically and symmetrically arranged at the two sides of the upper end surface of the upper bearing table;

the transmission clamping assembly is embedded in the upper bearing table and used for clamping and positioning the metal material mainboard and driving the metal material mainboard to perform transverse multi-angle displacement; and

and the wire drawing processing assembly is transversely arranged between the installation machine bodies and arranged right above the transmission clamping assembly in an overhead mode through the installation machine bodies, and performs wire drawing work on the surface of the metal material main board.

Further, as preferred, the transmission clamping assembly includes:

the fixed frame is transversely arranged on the upper bearing table;

the connecting shaft is vertically arranged in the fixed rack;

the clamping disc is coaxially arranged at the upper end of the connecting shaft in a relatively rotatable manner and is used for positioning and clamping the edge position of the metal material mainboard; and

the driving tooth holder is arranged on one side, far away from the connecting shaft, of the fixed rack, and is connected with the clamping disc through a transmission belt for transmission, and drives the clamping disc to perform circular rotation motion.

Further, preferably, the method further comprises:

the limiting frame is sleeved on the connecting shaft, an inner mounting concave position is formed in the upper bearing platform, and the limiting frame is transversely limited in the inner mounting concave position in a relatively sliding manner;

the rotating disc is arranged in the upper bearing table and positioned below the fixed rack in a relatively rotating manner; and

and one end of the transmission support rod is connected to the rotating disc, and the other end of the transmission support rod is rotatably connected with the connecting shaft.

Further, as the preferred, the rotary disc is further transversely and rotatably provided with a connecting screw rod through a bearing, the connecting screw rod is provided with a positioning sleeve in a sliding mode through a thread meshing effect, and one end of the transmission support rod is hinged to the positioning sleeve.

Further, preferably, the wire drawing processing assembly includes:

the inner driving shafts can be correspondingly arranged in the installation bodies in a relatively rotating way;

the central column piece is vertically erected between the installation machine bodies;

the main pinch rollers are symmetrically arranged at the upper end and the lower end of the central column piece in a relatively rotating way;

the connecting abrasive belt is sleeved between each inner driving shaft and the main pinch roller;

the limiting guide bars are transversely and vertically symmetrically erected on the central column piece; and

the side length adjusting devices are arranged in a left-right symmetrical mode and are arranged on the limiting guide bar in a transverse sliding mode.

Further, preferably, the side lengthening device includes:

the adjusting main disc is symmetrically erected on two sides of the central column piece in a relatively rotating way;

the inner guide seats are sleeved outside the limiting guide rods in a relatively sliding manner, inner slotted holes are formed in the inner guide seats, jacking rods are arranged in the inner slotted holes in a sliding manner, and one ends of the jacking rods are connected with the adjusting main disc;

the connecting support frames are arranged on the upper side and the lower side of the adjusting main disc in a central symmetry manner and are obliquely fixed on the inner guide seats, one ends of the connecting support frames are rotatably connected with side guide shafts, and the side guide shafts are abutted and contacted with the connecting abrasive belts; and

and the supporting springs are transversely and symmetrically connected between the limiting guide rod and the inner guide seat which are positioned below.

Further, preferably, the method further comprises:

the two ends of the hinged frame are respectively hinged on the connecting support frame and the central column piece, and the hinged frame is constructed into a two-section type foldable support rod structure;

the sliding support rod is transversely arranged on the central column piece and is positioned below the limiting guide rod, and an outer guide sleeve is arranged on the sliding support rod in a sliding mode;

the spring support is arranged in the outer guide sleeve in a limiting way and can slide vertically relatively, and the upper end of the spring support is connected with the hinged frame; and

and the inner wheel is rotatably arranged below the spring support.

Preferably, the inner wheel is abutted against and contacted with the connecting abrasive belt when the hinge frame body is overhead at a 120-degree bend.

Compared with the prior art, the invention has the beneficial effects that:

the wire drawing device comprises an upper bearing table, a transmission clamping assembly, a wire drawing processing assembly, a rotating disc and a connecting shaft, wherein the transmission clamping assembly is arranged at the upper end of the upper bearing table and can be used for clamping and positioning a metal material main board, the wire drawing processing assembly is arranged right above the transmission clamping assembly and can be used for performing wire drawing work on the surface of the metal material main board; in the wire drawing process, the contact surface area of the connecting abrasive belt and the metal material main plate is adjusted by the transverse sliding action of the side length adjusting device, and particularly when a side guide shaft in the side length adjusting device is overlapped with a main pressing wheel, the connecting abrasive belt is in line contact with the surface of the metal material main plate at the moment so as to deal with the wire drawing work of the surface of a high-precision material and improve the wire drawing effect.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the transport clamping assembly of the present invention;

FIG. 3 is a schematic view of a drawing assembly according to the present invention;

FIG. 4 is a schematic structural view of the side lengthening device of the present invention;

in the figure: the device comprises a driving seat 1, an upper bearing table 2, an installation machine body 3, a wire drawing processing assembly 4, an inner driving shaft 41, a central column 42, a main pressing wheel 43, a connecting abrasive belt 44, a limit guide bar 45, a transmission clamping assembly 5, a connecting shaft 51, a chuck 52, a transmission belt 53, a driving tooth seat 54, a limit frame 55, a rotating disc 56, a connecting screw 57, a transmission support rod 58, a side length adjusting device 6, an adjusting main disc 61, an inner guide seat 62, a support spring 63, a connection support frame 64, a side guide shaft 65, a hinged frame 66, a sliding support rod 67 and a spring support 68.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, an optical fiber drawing apparatus for processing a metal material includes:

a driving seat 1;

the upper bearing table 2 is transversely fixed on the upper end surface of the driving seat 1;

the mounting machine body 3 is vertically and symmetrically arranged at the two sides of the upper end surface of the upper bearing platform 2;

the transmission clamping assembly 5 is embedded in the upper bearing table 2, and the transmission clamping assembly 5 is used for clamping and positioning the metal material mainboard and driving the metal material mainboard to perform transverse multi-angle displacement; and

wire drawing processing subassembly 4 transversely sets up between the installation organism 3, and through installation organism 3 is maked somebody a mere figurehead directly over transmission clamping subassembly 5, wire drawing processing subassembly 4 carries out wire drawing work to the metal material mainboard surface, wherein need notice that, when the metal material mainboard is fixed completely in the transmission clamping subassembly, wire drawing processing subassembly and metal material mainboard surface are the contact of closely laminating.

In this embodiment, the transmission clamping assembly 5 includes:

the fixed frame is transversely arranged on the upper bearing table 2;

the connecting shaft 51 is vertically arranged in the fixed rack;

the clamping disc 52 is coaxially arranged at the upper end of the connecting shaft 51 in a relatively rotatable manner, and the clamping disc 52 is used for positioning and clamping the edge position of the metal material main plate; and

and the driving tooth holder 54 is arranged on one side of the fixed rack far away from the connecting shaft 51, the driving tooth holder 54 is connected with the clamping disc 52 through a transmission belt 53 for transmission, and drives the clamping disc 52 to perform circular rotation motion, wherein particularly when the wire drawing processing assembly is in line contact with the metal material main board, the driving tooth holder drives the clamping disc to perform circular rotation motion, so that spiral-pattern-type wire lines are formed on the surface of the metal material main board.

As a preferred embodiment, the method further comprises the following steps:

the limiting frame 55 is sleeved on the connecting shaft 51, an inner mounting concave position is arranged in the upper bearing platform 2, and the limiting frame 55 is transversely and relatively slidably limited in the inner mounting concave position;

the rotating disc 56 is arranged in the upper bearing table 2 and can rotate relatively and is positioned below the fixed frame; and

one end of the transmission and connection supporting rod 58 is connected to the rotating disc 56, the other end of the transmission and connection supporting rod 58 is connected with the connecting shaft 51 in a rotating mode, the transmission and connection supporting rod drives the connecting shaft to transversely slide in a reciprocating mode under the rotating effect of the rotating disc, and at the moment, the wire drawing processing assembly can form linear type wire grain wire drawing processing on the surface of the metal material main board.

In this embodiment, the rotating disc 56 is further provided with a connecting screw 57 through a bearing in a transverse rotating manner, the connecting screw 57 is provided with a positioning sleeve in a sliding manner through a thread engagement effect, one end of the transmission and connection supporting rod 58 is hinged to the positioning sleeve, and the effective distance between the transmission and connection supporting rod and the axis of the rotating disc is adjusted through the circumferential rotation of the connecting screw, so that the reciprocating wire drawing length is adjusted.

In this embodiment, the wire drawing processing assembly 4 includes:

inner driving shafts 41 which are relatively rotatably provided in the respective installation bodies 3;

a center post 42 vertically erected between the mounting bodies 3;

main press wheels 43 which are symmetrically arranged at the upper end and the lower end of the central column 42 in a relatively rotating way;

a connecting abrasive belt 44 sleeved between each inner driving shaft 41 and the main pinch roller 43;

the limiting guide bars 45 are transversely and vertically symmetrically erected on the central column member 42; and

the side length adjusting devices 6 are arranged in a bilaterally symmetrical mode, each side length adjusting device 6 is arranged on the limiting guide rod 45 in a sliding mode, when the side length adjusting devices are overlapped with the main pressing wheel, the connecting abrasive belt is in line contact with the surface of the metal material main plate, particularly in the wire drawing work of the surface of a high-precision material, the wire drawing precision can be effectively improved, and the wire drawing line effect is guaranteed.

In this embodiment, the side lengthening device 6 includes:

the adjusting main disc 61 is symmetrically arranged on two sides of the central column member 42 in a relatively rotatable manner;

the inner guide seats 62 are sleeved outside the limiting guide bars 45 in a relatively sliding manner, inner slotted holes are formed in the inner guide seats 62, jacking rods are arranged in the inner slotted holes in a sliding manner, and one ends of the jacking rods are connected with the adjusting main disc 61;

the connecting support frames 64 are arranged on the upper side and the lower side of the adjusting main disc 61 in a central symmetry manner, and are obliquely fixed on the inner guide seats 62, one ends of the connecting support frames 64 are rotatably connected with side guide shafts 65, and the side guide shafts 65 are abutted and contacted with the connecting abrasive belt 44; and

the supporting springs 63 are transversely and symmetrically connected between the limiting guide bars 45 and the inner guide seats 62 which are positioned below the main discs, the inner guide seats can perform limiting sliding along the limiting guide bars through the rotation effect of the adjusting main discs, and the connecting support frames which are positioned on the upper and lower sides of the adjusting main discs and are arranged in central symmetry can synchronously drive the side guide shafts to perform reverse sliding, so that the tightness of the connecting abrasive belt is ensured while the contact surface area of the connecting abrasive belt and the metal material main plate is changed, and the phenomenon of loosening and slipping is prevented.

As a preferred embodiment, the method further comprises the following steps:

a hinge frame 66, both ends of which are respectively hinged on the connecting bracket 64 and the central column member 42, wherein the hinge frame 66 is constructed into a two-section foldable strut structure;

a sliding support rod 67 transversely disposed on the central column 42 below the limit guide rod 45, wherein an outer guide sleeve (not shown) is slidably disposed on the sliding support rod 67;

a spring support 68, which is arranged in the outer guide sleeve in a relatively vertically slidable limiting manner, wherein the upper end of the spring support 68 is connected with the hinge frame 66; and

the inner wheel is rotatably arranged below the spring support 68, and particularly after the connecting support frame below transversely slides along with the inner guide seat to a certain length, the inner wheel can abut against the connecting abrasive belt through the spring support, so that the connecting abrasive belt is ensured to be tightly attached to the surface of the metal material main board.

In this embodiment, the inner wheel abuts against and contacts the connecting abrasive belt 44 when the main body of the hinge frame 66 is overhead at a 120-degree bend, and after the connecting support frame is continuously displaced in the transverse direction, the spring support can press the inner wheel downwards with high strength through the elastic force of the spring support, so as to prevent a gap from being generated between the connecting abrasive belt and the metal material main plate.

Specifically, in the metal material wire drawing, the edge of a metal material main board is clamped and positioned through a clamping plate, at the moment, a connecting abrasive belt can be abutted and contacted with the surface of the metal material main board, an inner driving shaft drives the rotating connecting abrasive belt to perform wire drawing work on the metal material main board, a rotating disc can drive the clamping plate to transversely slide in a reciprocating mode through a transfer support rod under the rotating action, at the moment, the effective distance between the transfer support rod and the axis of the rotating disc is adjusted through the circumferential rotation of a connecting screw rod, the reciprocating wire drawing length is adjusted, meanwhile, in the wire drawing process, the transverse sliding action of a side length adjusting device is used for adjusting the contact surface area of the connecting abrasive belt and the metal material main board, when the connecting abrasive belt is in line contact with the metal material main board, the abrasive belt can be connected through the driving rotating action of a driving tooth seat to form spiral-pattern silk thread grains on the surface of the metal material main board, and the wire drawing work of various different silk threads is achieved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent substitutions or changes according to the technical solution and the inventive concept of the present invention should be covered by the scope of the present invention.

Claims (4)

1. The utility model provides a light unit wire drawing device is used in metal material processing which characterized in that: it includes:

a drive seat (1);

the upper bearing table (2) is transversely fixed on the upper end surface of the driving seat (1);

the mounting machine body (3) is vertically and symmetrically arranged at the two sides of the upper end surface of the upper bearing table (2);

the transmission clamping assembly (5) is embedded in the upper bearing table (2), and the transmission clamping assembly (5) is used for clamping and positioning the metal material mainboard and driving the metal material mainboard to perform transverse multi-angle displacement; and

the wire drawing processing assembly (4) is transversely arranged between the installation machine bodies (3) and is arranged right above the transmission clamping assembly (5) in an overhead mode through the installation machine bodies (3), and the wire drawing processing assembly (4) performs wire drawing work on the surface of the metal material main board;

the wire drawing processing assembly (4) comprises:

the inner driving shafts (41) are correspondingly arranged in the installation machine bodies (3) in a relatively rotating way;

a central column (42) vertically overhead between the mounting bodies (3);

the main pinch rollers (43) are symmetrically arranged at the upper end and the lower end of the central column piece (42) in a relatively rotating way;

a connecting abrasive belt (44) sleeved between each inner driving shaft (41) and the main pinch roller (43);

the limiting guide bars (45) are transversely and symmetrically erected on the central column member (42) up and down; and

the side length adjusting devices (6) are symmetrically arranged in a left-right mode, and each side length adjusting device (6) is transversely arranged on the limiting guide rod (45) in a sliding mode;

the side lengthening device (6) comprises:

the adjusting main disc (61) is symmetrically erected on two sides of the central column member (42) in a relatively rotatable manner;

the inner guide seats (62) are sleeved outside the limiting guide rods (45) in a relatively sliding manner, inner slotted holes are formed in the inner guide seats (62), jacking rods are arranged in the inner slotted holes in a sliding manner, and one ends of the jacking rods are connected with the adjusting main disc (61);

the connecting support frames (64) are arranged on the upper side and the lower side of the adjusting main disc (61) in a central symmetry manner and are obliquely fixed on the inner guide seats (62), one ends of the connecting support frames (64) are rotatably connected with side guide shafts (65), and the side guide shafts (65) are abutted against and contacted with the connecting abrasive belt (44); and

the supporting springs (63) are transversely and symmetrically connected between the limiting guide bar (45) and the inner guide seat (62) which are positioned below;

the side length adjusting device (6) further comprises:

a hinged frame (66), two ends of which are respectively hinged on the connecting support frame (64) and the central column member (42), wherein the hinged frame (66) is constructed into a two-section type foldable support rod structure;

the sliding support rod (67) is transversely arranged on the central column piece (42) and is positioned below the limiting guide rod (45), and an outer guide sleeve is arranged on the sliding support rod (67) in a sliding mode;

the spring support column (68) is limited and arranged in the outer guide sleeve in a relatively vertical sliding mode, and the upper end of the spring support column (68) is connected with the hinge frame (66); and

an inner wheel rotatably disposed below the spring post (68);

the inner wheel is abutted and contacted with the connecting abrasive belt (44) when the main body of the hinge frame (66) is bent at 120 degrees and is overhead.

2. The optical fiber drawing apparatus for processing a metallic material according to claim 1, wherein: the transport clamping assembly (5) comprises:

the fixed frame is transversely arranged on the upper bearing table (2);

the connecting shaft (51) is vertically arranged in the fixed rack;

the clamping disc (52) is coaxially arranged at the upper end of the connecting shaft (51) in a relatively rotating mode, and the clamping disc (52) is used for positioning and clamping the edge position of the metal material main board; and

the driving tooth holder (54) is installed on one side, far away from the connecting shaft (51), of the fixed rack, and the driving tooth holder (54) is connected with the clamping disc (52) through a transmission belt (53) for transmission and drives the clamping disc (52) to perform circular rotation motion.

3. The optical fiber drawing apparatus for processing a metallic material according to claim 2, wherein: further comprising:

the limiting frame (55) is sleeved on the connecting shaft (51), an inner mounting concave position is formed in the upper bearing table (2), and the limiting frame (55) is transversely limited and can slide relatively in the inner mounting concave position;

the rotating disc (56) is arranged in the upper bearing table (2) in a relatively rotating mode and is positioned below the fixed rack; and

and one end of the transmission connecting rod (58) is connected to the rotating disc (56), and the other end of the transmission connecting rod (58) is rotatably connected with the connecting shaft (51).

4. The optical fiber drawing apparatus for processing a metallic material according to claim 3, wherein: the rotary disc (56) is further transversely and rotatably provided with a connecting screw rod (57) through a bearing, the connecting screw rod (57) is provided with a positioning sleeve in a sliding mode through a thread meshing effect, and one end of the transmission support rod (58) is hinged to the positioning sleeve.

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