CN114823129A

CN114823129A - Even winding device is used in inductance production

Info

Publication number: CN114823129A
Application number: CN202210514691.1A
Authority: CN
Inventors: 蔡伟佳; 陈振华
Original assignee: Guangzhou Deyuchuang Technology Co ltd
Current assignee: Guangzhou Deyuchuang Technology Co ltd
Priority date: 2022-05-11
Filing date: 2022-05-11
Publication date: 2022-07-29
Anticipated expiration: 2042-05-11

Abstract

The invention discloses a uniform winding device for inductance production, which relates to the field of inductance production devices and aims at solving the problems of complex structure and high production, use and maintenance cost caused by huge machine bodies of the existing winding equipment of inductance elements; the clamping mechanism comprises a first support, a first sliding block and a first motor, the first sliding block is connected with the first support in a sliding mode, a cover plate is arranged at the top end of the first support, a first air cylinder for driving the first sliding block to move is arranged at the top end of the cover plate, and a first suspension is arranged on one side of the first sliding block. The winding device is novel in structure, compact in structure, simple and efficient, and solves the problem that the existing winding device for the inductance element is complex in structure and large in machine body, so that the production, use and maintenance costs are high.

Description

Even winding device is used in inductance production

Technical Field

The invention relates to the field of inductor production devices, in particular to a uniform winding device for inductor production.

Background

The inductor is a common electronic element, the main working part of the inductor is composed of a copper core coil, the purpose of stabilizing circuit current is achieved by utilizing the electromagnetic induction phenomenon, and due to the fact that the structure of the existing mechanical automation equipment for winding the inductor is very complex and the machine body is huge, the production, use and maintenance costs of relevant equipment are high, a part of manual production lines are still reserved for production of the inductor, but the production efficiency of the manual production lines is very low, and in order to solve the problems, an even winding device for inductor production is provided.

Disclosure of Invention

The uniform winding device for inductance production provided by the invention solves the problems of high production, use and maintenance costs caused by complex structure and large machine body of the existing winding equipment for inductance elements.

In order to achieve the purpose, the invention adopts the following technical scheme:

a uniform winding device for inductance production comprises a winding core and copper wires, and also comprises a clamping mechanism, a wire guiding mechanism and a wire arranging mechanism, wherein the clamping mechanism is used for uniformly winding the winding core and the copper wires;

the clamping mechanism comprises a first support, a first sliding block and a first motor, the first sliding block is connected with the first support in a sliding mode, a cover plate is arranged at the top end of the first support, a first air cylinder for driving the first sliding block to move is arranged at the top end of the cover plate, a first suspension is arranged on one side of the first sliding block, a lower clamping seat and an upper clamping seat are respectively connected between the first suspension and the first support in a rotating mode and used for clamping a winding core, and one end of a copper wire is connected with the winding core in a winding mode;

the wire guiding mechanism comprises two groups of side plates, two groups of wire guiding wheels and two groups of cutting wheels are arranged between the two groups of side plates, and the two groups of wire guiding wheels clamp the copper wires;

the wire arranging mechanism comprises a second support, a second sliding block and a fourth motor, the second sliding block is connected with the second support in a sliding mode, a nut is sleeved on the second sliding block, a screw rod is connected with the nut in a threaded mode, two ends of the screw rod are rotatably connected with the second support, and the wire guiding mechanism is connected with the outer wall of the second sliding block.

As a preferred technical scheme of the present invention, the first bracket is provided with a first sliding groove along a vertical direction, the first sliding groove is arranged in a dovetail groove, and the first sliding block and the first sliding groove are matched with each other.

As a preferred technical solution of the present invention, the housing of the first cylinder is fixedly connected to the cover plate, and the piston rod of the first cylinder is vertically and downwardly fixedly connected to the first slider.

As a preferable technical solution of the present invention, the top end of the rotating shaft of the upper holder penetrates through the cover plate, the first motor housing is fixedly connected to the cover plate, the output shaft of the first motor penetrates through the cover plate, and the output shaft of the first motor and the rotating shaft of the upper holder are driven by a first belt.

As a preferred technical scheme of the present invention, the cutting knife is disposed on the circumferential wall of the cutting wheel, the wire guide plates are disposed on the ends of the two sets of side plates away from the wire guide wheel, the wire guide plates are sleeved with the guide rings, the guide rings are made of ceramic materials, and the copper wires penetrate through the space between the two sets of cutting wheels and the guide rings.

As a preferable technical scheme of the invention, a second motor and a third motor are arranged on the outer side of the side plate, an output shaft of the second motor is coaxially connected with a cutting wheel provided with a cutter, and an output shaft of the third motor is coaxially connected with a wire guide wheel.

As a preferred technical scheme of the present invention, the second bracket is provided with a second sliding groove along the vertical direction, the second sliding groove is arranged in a dovetail groove, and the second sliding block and the second sliding groove are matched with each other.

As a preferable technical solution of the present invention, a housing of the fourth motor is fixedly connected to the second bracket, an output shaft of the fourth motor vertically penetrates the second bracket upward, one end of the screw rod vertically penetrates the second bracket upward, and the output shaft of the fourth motor and the tail end of the screw rod are driven by a second belt.

As a preferred technical scheme of the present invention, a feeding mechanism is disposed between the clamping mechanism, the wire guiding mechanism and the wire arranging mechanism, and the feeding mechanism includes a transfer block and a second suspension, the transfer block is horizontally sleeved with a second cylinder and a guide rod, the second cylinder and the guide rod are parallel to each other, the second suspension is disposed between the guide rod and the end of the piston rod of the second cylinder, and the end of the second suspension is provided with a clamping groove, and the clamping groove clamps the standby winding core.

As a preferred technical scheme of the invention, the bottom ends of the clamping mechanism, the wire guide mechanism, the wire arranging mechanism and the feeding mechanism are provided with bases.

The beneficial effects of the invention are as follows:

1. wire mechanism makes the copper line pass through guide ring, cutting wheel and wire wheel, and third motor drive wire wheel send the line downwards between holder and the last holder, stops the wire winding after, rotates the round through second motor drive cutting wheel, through cutter and another group cutting wheel extrusion cutting copper line for the wire winding is accomplished in the copper line disconnection.

2. The clamping mechanism drives the first sliding block to move along the first sliding groove through the first air cylinder, the first sliding block drives the first suspension and the lower clamping seat to upwards clamp the winding core and the copper wire together with the upper clamping seat through the first sliding block, the first motor drives the winding core through the upper clamping seat driven by the first belt, the lower clamping seat starts to wind wires in a rotating mode, the fourth motor drives the lead screw to rotate through the second belt, the lead screw drives the second sliding block to move along the second sliding groove through the nut, the second sliding block drives the wire mechanism to move up and down, and therefore the copper wire passing through the wire mechanism is uniformly wound on the winding core.

3. The feeding mechanism clamps the standby winding core through the second suspension, assists in balancing through the guide rod, and drives the second suspension to feed materials to the clamping mechanism through the second air cylinder.

In conclusion, the device has a compact structure, is simple and efficient, and effectively solves the problems of complex structure and high production, use and maintenance cost caused by a huge machine body of the conventional inductive element winding equipment.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of another view angle of fig. 1 according to the present invention.

Fig. 3 is a schematic structural diagram of fig. 2 from another view angle according to the present invention.

Fig. 4 is a schematic structural diagram of a clamping mechanism and a wire guiding mechanism of the present invention.

Fig. 5 is a structural sectional view of the wire guide mechanism of the present invention.

Fig. 6 is a partial mechanical exploded view of the wire guide mechanism of the present invention.

Fig. 7 is a structural sectional view of the traverse mechanism of the present invention.

Fig. 8 is a partial structural sectional view of the traverse mechanism of the present invention.

Fig. 9 is a schematic structural view of the feeding mechanism of the present invention.

Reference numbers in the figures: 1. a clamping mechanism; 101. a first bracket; 102. a first chute; 103. a first slider; 104. a first suspension; 105. a lower clamping seat; 106. a cover plate; 107. a first cylinder; 108. a first motor; 109. an upper clamping seat; 110. a first belt; 111. winding the core; 112. a copper wire; 2. a wire guide mechanism; 201. a side plate; 202. a wire guide wheel; 203. a cutting wheel; 204. a cutter; 205. a wire guide plate; 206. a guide ring; 207. a second motor; 208. a third motor; 3. a wire arranging mechanism; 301. a second bracket; 302. a second chute; 303. a second slider; 304. a nut; 305. a screw rod; 306. a fourth motor; 307. a second belt; 4. a feeding mechanism; 401. a transfer block; 402. a second cylinder; 403. a guide bar; 404. a second suspension; 405. a clamping groove; 5. a base.

Detailed Description

The technical scheme of the invention is clearly and completely described in the following with reference to the accompanying drawings. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-9, an even winding device for inductance production comprises a winding core 111 and a copper wire 112, and further comprises a clamping mechanism 1, a wire guiding mechanism 2 and a wire arranging mechanism 3, wherein the clamping mechanism 1, the wire guiding mechanism 2, the wire arranging mechanism 3 and the feeding mechanism 4 are used for evenly winding the winding core 111 and the copper wire 112, and a base 5 is arranged at the bottom end of the clamping mechanism 1, the wire guiding mechanism 2, the wire arranging mechanism 3 and the feeding mechanism 4.

The clamping mechanism 1 comprises a first bracket 101, a first slider 103 and a first motor 108, the first slider 103 is connected with the first bracket 101 in a sliding manner, a cover plate 106 is arranged at the top end of the first bracket 101, a first cylinder 107 for driving the first slider 103 to move is arranged at the top end of the cover plate 106, a first suspension 104 is arranged on one side of the first slider 103, a lower clamping seat 105 and an upper clamping seat 109 for clamping a winding core 111 are respectively connected between the first suspension 104 and the first bracket 101 in a rotating manner, and one end of a copper wire 112 is connected with the winding core 111 in a winding manner; first spout 102 has been seted up along vertical direction to first support 101, and first spout 102 is the dovetail setting, first slider 103 matches each other with first spout 102, the casing and the apron 106 fixed connection of first cylinder 107, and the piston rod of first cylinder 107 is vertical downwards and first slider 103 fixed connection, apron 106 is run through on the pivot top of going up holder 109, first motor 108 casing and apron 106 fixed connection, and the output shaft of first motor 108 runs through apron 106, through the transmission of first belt 110 between the pivot of first motor 108 output shaft and last holder 109.

The wire guiding mechanism 2 comprises two groups of side plates 201, two groups of wire guiding wheels 202 and two groups of cutting wheels 203 are arranged between the two groups of side plates 201, and the two groups of wire guiding wheels 202 clamp the copper wires 112; the cutting wheel 203 is provided with a cutter 204 on the circumferential wall, the wire guide plate 205 is arranged at one end of the two groups of side plates 201 far away from the wire guide wheel 202, the wire guide plate 205 is sleeved with a guide ring 206, the guide ring 206 is made of ceramic material, the copper wire 112 penetrates between the two groups of cutting wheels 203 and the guide ring 206, the second motor 207 and the third motor 208 are arranged on the outer side of the side plate 201, the output shaft of the second motor 207 is coaxially connected with the cutting wheel 203 provided with the cutter 204, the output shaft of the third motor 208 is coaxially connected with the wire guide wheel 202, the wire guide mechanism 2 enables the copper wire 112 to pass through the guide ring 206, the cutting wheel 203 and the wire guide wheel 202, the third motor 208 drives the wire guide wheel 202 to feed wires between the lower clamping seat 105 and the upper clamping seat 109, after the winding is stopped, the cutting wheel 203 is driven to rotate for one circle by the second motor 207, the copper wire 112 is extruded by the cutter 204 and the other group of cutting wheel 203, and the copper wire 112 is cut to be disconnected, and the winding is completed.

The wire arranging mechanism 3 comprises a second support 301, a second sliding block 303 and a fourth motor 306, the second sliding block 303 is connected with the second support 301 in a sliding mode, a nut 304 is sleeved on the second sliding block 303, the nut 304 is in threaded connection with a screw rod 305, two ends of the screw rod 305 are rotatably connected with the second support 301, the wire guiding mechanism 2 is connected with the outer wall of the second sliding block 303, a second sliding groove 302 is formed in the second support 301 in the vertical direction, the second sliding groove 302 is in a dovetail groove arrangement, the second sliding block 303 is matched with the second sliding groove 302, a shell of the fourth motor 306 is fixedly connected with the second support 301, an output shaft of the fourth motor 306 vertically penetrates through the second support 301 upwards, one end of the screw rod 305 vertically penetrates through the second support 301 upwards, and the output shaft of the fourth motor 306 is in transmission with the tail end of the screw rod 305 through a second belt 307.

The feeding mechanism 4 is arranged between the clamping mechanism 1, the wire guiding mechanism 2 and the wire arranging mechanism 3, the feeding mechanism 4 comprises a switching block 401 and a second suspension frame 404, the switching block 401 is horizontally sleeved with a second air cylinder 402 and a guide rod 403, the second air cylinder 402 and the guide rod 403 are parallel to each other, the second suspension frame 404 is arranged between the guide rod 403 and the tail end of a piston rod of the second air cylinder 402, a clamping groove 405 is formed in the tail end of the second suspension frame 404, the clamping groove 405 clamps the standby winding core 111, the feeding mechanism 4 clamps the standby winding core 111 through the second suspension frame 404, auxiliary balance is achieved through the guide rod 403, and the second suspension frame 404 is driven by the second air cylinder 402 to feed materials to the clamping mechanism 1.

The working principle is as follows: the copper wire 112 passes through the guide ring 206, the cutting wheel 203 and the wire guide wheel 202, the third motor 208 drives the wire guide wheel 202 to send the wire between the lower clamping seat 105 and the upper clamping seat 109, the clamping mechanism 1 drives the first slide block 103 to move along the first slide groove 102 through the first air cylinder 107, the first suspension 104 and the lower clamping seat 105 are driven by the first slide block 103 to upwards clamp the winding core 111 and the copper wire 112 with the upper clamping seat 109, the first motor 108 drives the upper clamping seat 109 to drive the winding core 111 and the lower clamping seat 105 to rotate and start winding the wire through the first belt 110, the fourth motor 306 drives the screw rod 305 to rotate through the second belt 307, the screw rod 305 drives the second slide block 303 to move along the second slide groove 302 through the nut 304, the second slide block 303 drives the wire guide mechanism 2 to move up and down, so that the copper wire 112 passing through the wire guide mechanism 2 is uniformly wound on the winding core 111, after the winding stops, the second motor 207 drives the cutting wheel 203 to rotate, the copper wire 112 is cut by the cutter 204 and another set of cutting wheels 203, so that the copper wire 112 is broken to complete the winding.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the principle of the present invention, several improvements and modifications may be made, which should also be regarded as the protection scope of the present invention, and other parts of the present invention which are not described in detail belong to the prior art, and therefore are not described herein again, and finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The uniform winding device for inductance production comprises a winding core (111) and a copper wire (112), and is characterized by further comprising a clamping mechanism (1), a wire guide mechanism (2) and a wire arrangement mechanism (3), wherein the clamping mechanism is used for uniformly winding the winding core (111) and the copper wire (112);

the clamping mechanism (1) comprises a first support (101), a first sliding block (103) and a first motor (108), the first sliding block (103) is connected with the first support (101) in a sliding mode, a cover plate (106) is arranged at the top end of the first support (101), a first air cylinder (107) for driving the first sliding block (103) to move is arranged at the top end of the cover plate (106), a first suspension (104) is arranged on one side of the first sliding block (103), a lower clamping seat (105) and an upper clamping seat (109) which are used for clamping a winding core (111) are respectively connected between the first suspension (104) and the first support (101) in a rotating mode, and one end of a copper wire (112) is connected with the winding core (111) in a winding mode;

the wire guiding mechanism (2) comprises two groups of side plates (201), two groups of wire guiding wheels (202) and two groups of cutting wheels (203) are arranged between the two groups of side plates (201), and the two groups of wire guiding wheels (202) clamp the copper wires (112);

the wire arranging mechanism (3) comprises a second support (301), a second sliding block (303) and a fourth motor (306), the second sliding block (303) is connected with the second support (301) in a sliding mode, a nut (304) is sleeved on the second sliding block (303), a screw rod (305) is connected with the nut (304) in a threaded mode, two ends of the screw rod (305) are rotatably connected with the second support (301), and the wire guiding mechanism (2) is connected with the outer wall of the second sliding block (303).

2. The uniform winding device for inductance production according to claim 1, wherein the first bracket (101) is provided with a first sliding groove (102) along a vertical direction, the first sliding groove (102) is arranged in a dovetail groove manner, and the first sliding block (103) is matched with the first sliding groove (102).

3. The uniform winding device for inductance production according to claim 2, wherein the housing of the first cylinder (107) is fixedly connected with the cover plate (106), and the piston rod of the first cylinder (107) is vertically and downwardly fixedly connected with the first sliding block (103).

4. The uniform winding device for inductance production according to claim 3, wherein the top end of the rotating shaft of the upper holder (109) penetrates through the cover plate (106), the housing of the first motor (108) is fixedly connected with the cover plate (106), the output shaft of the first motor (108) penetrates through the cover plate (106), and the output shaft of the first motor (108) and the rotating shaft of the upper holder (109) are driven by a first belt (110).

5. The uniform winding device for inductance production according to claim 1, wherein the cutting wheel (203) is provided with a cutter (204) at the peripheral wall thereof, the two sets of side plates (201) are provided with a wire guide plate (205) at the end far away from the wire guide wheel (202), the wire guide plate (205) is sleeved with a guide ring (206), the guide ring (206) is made of ceramic material, and the copper wire (112) penetrates between the two sets of cutting wheels (203) and the guide ring (206).

6. The uniform winding device for inductance production according to claim 1, wherein a second motor (207) and a third motor (208) are arranged outside the side plate (201), an output shaft of the second motor (207) is coaxially connected with a cutting wheel (203) provided with a cutter (204), and an output shaft of the third motor (208) is coaxially connected with a wire guide wheel (202).

7. The uniform winding device for inductance production according to claim 1, wherein the second bracket (301) is provided with a second sliding groove (302) along a vertical direction, the second sliding groove (302) is arranged in a dovetail groove manner, and the second sliding block (303) is matched with the second sliding groove (302).

8. The uniform winding device for inductance production according to claim 7, wherein a housing of the fourth motor (306) is fixedly connected with the second bracket (301), an output shaft of the fourth motor (306) vertically and upwardly penetrates through the second bracket (301), one end of the screw rod (305) vertically and upwardly penetrates through the second bracket (301), and the output shaft of the fourth motor (306) and the tail end of the screw rod (305) are in transmission through a second belt (307).

9. The uniform winding device for inductance production according to claim 1, wherein a feeding mechanism (4) is arranged among the clamping mechanism (1), the wire guiding mechanism (2) and the wire arranging mechanism (3), the feeding mechanism (4) comprises a switching block (401) and a second suspension (404), the switching block (401) is horizontally sleeved with a second cylinder (402) and a guide rod (403), the second cylinder (402) and the guide rod (403) are parallel to each other, the second suspension (404) is arranged between the guide rod (403) and the tail end of a piston rod of the second cylinder (402), a clamping groove (405) is formed in the tail end of the second suspension (404), and the clamping groove (405) clamps the standby winding core (111).

10. The uniform winding device for inductance production according to claim 9, wherein the bottom ends of the clamping mechanism (1), the wire guiding mechanism (2), the wire arranging mechanism (3) and the feeding mechanism (4) are provided with bases (5).