CN113948309A

CN113948309A - Winding mechanism for high-frequency transformer production

Info

Publication number: CN113948309A
Application number: CN202111437052.1A
Authority: CN
Inventors: 徐超; 鲁文斌; 张官忠
Original assignee: Changde Zhongchi Electronics Co ltd
Current assignee: Shenzhen Yamaxi Electronics Co ltd
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-01-18
Anticipated expiration: 2041-11-30
Also published as: CN113948309B

Abstract

The invention discloses a winding mechanism for producing a high-frequency transformer, which relates to the technical field of winding mechanisms and comprises the following components: the base, the top of base is provided with the support column, presss from both sides tight unit, it is located one side of support column to press from both sides tight unit to run through the opposite side of support column to support column for carry out the wire winding operation to the transformer. The clamping unit is arranged, the movable column is pushed to extrude the limiting spring to contract to drive the movable column to move, the reset column is extruded, the reset spring is extruded to contract to drive the reset column to move, the clamping column at the top end is driven to move to be separated from the rotating disc, fixing of the clamping column can be relieved, the clamping column is pushed to extrude the telescopic spring to contract to drive the clamping column to move, the clamping column is made to move to the proper size of the transformer, the first motor is started to drive the transmission column to rotate, the rotating disc is driven to drive the transformer to rotate through the clamping column, and clamping and fixing of transformers of different sizes can be completed.

Description

Winding mechanism for high-frequency transformer production

Technical Field

The invention relates to the technical field of winding mechanisms, in particular to a winding mechanism for producing a high-frequency transformer.

Background

Electronic devices have penetrated into various fields of our lives, and the electronic devices have different electricity utilization standards, so that a transformer is needed, the transformer is a device for converting alternating voltage, current and impedance by utilizing an electromagnetic mutual inductance effect, the transformer consists of an iron core (or a magnetic core) and a coil, the coil can be provided with two or more than two windings, and a winding machine is a device for winding a linear object on a specific workpiece and is generally used for winding a copper wire.

But current coiling machine is complicated not only structure, and the function is single moreover, can not install fixedly to multiple not equidimension iron core (or magnetic core), and the scope that leads to this coiling machine to be suitable for is little, is unfavorable for the popularization of coiling machine to when the staff carries out the copper line winding to iron core (or magnetic core), need the handheld copper line of staff to twine, can not fix the coil, has increased staff's work load, and has certain potential safety hazard.

Disclosure of Invention

The invention aims to: in order to solve the problems that the coil winding machine is single in function, the applicable range is small, and the coil cannot be fixed, so that certain potential safety hazards exist, a winding mechanism for high-frequency transformer production is provided.

In order to achieve the purpose, the invention provides the following technical scheme: a winding mechanism for producing a high-frequency transformer comprises:

the top end of the base is provided with a supporting column;

the clamping unit is positioned on one side of the supporting column, penetrates through the supporting column to the other side of the supporting column and is used for performing winding operation on the transformer;

and the fixing unit is positioned at the top end of the base, penetrates through the base and is used for fixing the wire coil.

As a still further scheme of the invention: the clamping unit comprises a first motor, a transmission column, a rotating disc, a clamping column, a telescopic spring, a moving column, a limiting spring, a resetting column, a resetting spring and a clamping column, wherein the first motor is positioned on one side of the support column, the transmission column is positioned on one side of the first motor and penetrates through the support column to the other side of the support column, the rotating disc is positioned on one side of the transmission column, which is far away from the first motor, the two clamping columns are respectively positioned at two ends of the rotating disc and penetrate into the rotating disc, the telescopic spring is positioned inside the rotating disc and is close to one end of the clamping column, the moving column is positioned on one side of the clamping column, which is far away from the rotating disc, and penetrates into the clamping column, the limiting spring is positioned inside the clamping column and is positioned at the top end of the moving column, the resetting column is positioned inside the clamping column and is positioned at one end of the moving column, the reset spring is located at the bottom end of the reset column, and the clamping column is located at the top end of the reset column and penetrates through the clamping column to the inside of the rotating disc.

As a still further scheme of the invention: the fixing unit comprises a fixing block, two sleeving columns, two movable columns, two shrinkage columns, two fixing columns, two shrinkage springs, a supporting plate and a locking block, the fixing block is positioned at the top end of the base and positioned at one side of the supporting column, the movable columns are positioned at one side of the fixing block, which is far away from the supporting column, and penetrate into the base, the two sleeving columns are respectively positioned at one sides, which are close to the fixing block and the movable columns, the two shrinkage columns are respectively positioned at two ends of the movable columns and penetrate into the movable columns, the fixing column is positioned in the movable columns and positioned between the shrinkage columns, the two shrinkage springs are respectively positioned at two ends of the fixing column and connected with one end of the shrinkage column, the supporting plate is positioned in the movable columns and positioned at the connecting positions of the shrinkage columns and the shrinkage springs, the locking block is positioned at the bottom end of the supporting plate and penetrates through the movable column to the inside of the base.

As a still further scheme of the invention: the transmission post passes through the bearing and is connected with the support column rotation, the inside of rotating the disc be provided with centre gripping post assorted shifting chute, the inside of rotating the disc be provided with expanding spring assorted shrink groove, the one side that the rotating the disc was kept away from to the centre gripping post is provided with the stopper.

As a still further scheme of the invention: the inside of centre gripping post is provided with and removes post assorted flexible groove, the inside of centre gripping post be provided with spacing spring assorted spring groove, the inside of centre gripping post be provided with reset spring assorted reset groove, the inside of rotating disc be provided with a plurality ofly with card post assorted fixed slot.

As a still further scheme of the invention: the inside of base be provided with activity post assorted sliding tray, the bottom of activity post is provided with the sliding block that matches with the sliding tray, the inside both sides of base be provided with locking piece assorted locking groove.

As a still further scheme of the invention: the movable column is provided with a movable groove matched with the contraction column in the inside, the movable column is provided with a limiting groove matched with the supporting plate in the inside, and the movable column is provided with a supporting groove matched with the fixed column in the inside.

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

1. the clamping unit is arranged, the movable column is pushed to extrude the limiting spring to shrink so as to drive the movable column to move, the movable column is moved to extrude the reset column, the extrusion reset spring shrinks so as to drive the reset column to move, the reset column moves so as to drive the clamping column at the top end to move, the clamping column is separated from the rotating disc, fixing of the clamping column can be relieved, the clamping column is pushed to extrude the telescopic spring, the telescopic spring shrinks so as to drive the clamping column to move, the clamping column is made to move to the proper size of the transformer, clamping and fixing of the transformer can be completed, the first motor is started to drive the transmission column to rotate, the rotating disc is driven to rotate, the transformer is driven to rotate by the clamping column, and clamping and fixing of transformers with different sizes can be completed through mutual matching of the parts;

2. Through setting up fixed unit, promote the shrink post extrusion shrink spring of activity post both sides, shrink spring shrink drives the shrink post and removes, drive the backup pad and remove, it shifts out from the base is inside to drive the locking piece, remove the fixed to the activity post, promote the activity post and remove inside the base, keep away from each other with the fixed column, install the one end of coil on the cover post of fixed column one side, promote the activity post and remove, it cup joints fixedly with the cover post through of the coil other end to make the activity post, loosen and extrude the shrink post, shrink spring promotes the backup pad and removes, it removes to drive the locking piece, the locking piece stretches out to the base inside from the activity post, through the mutually supporting between the above a plurality of parts, can accomplish the quick fixed of coil.

Drawings

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

FIG. 2 is a structural cross-sectional view of a support post of the present invention;

FIG. 3 is a structural cross-sectional view of the base of the present invention;

fig. 4 is an enlarged view of the invention at a.

In the figure: 1. a base; 101. a support pillar; 2. a clamping unit; 201. a first motor; 202. a drive post; 203. rotating the disc; 204. a clamping post; 205. a tension spring; 206. moving the column; 207. a limiting spring; 208. a reset column; 209. a return spring; 210. clamping the column; 3. a fixing unit; 301. a fixed block; 302. sleeving the column; 303. a movable post; 304. a contracting column; 305. fixing a column; 306. a retraction spring; 307. a support plate; 308. a locking block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a winding mechanism for producing a high-frequency transformer includes:

the device comprises a base 1, wherein a supporting column 101 is arranged at the top end of the base 1;

the clamping unit 2 is positioned on one side of the supporting column 101, penetrates through the supporting column 101 to the other side of the supporting column 101, and is used for performing winding operation on the transformer;

and the fixing unit 3 is positioned at the top end of the base 1, penetrates into the base 1 and is used for fixing the coil.

In this embodiment: the coil is fixed through the parts in the fixing unit 3, and then the transformer is clamped and fixed on the base 1 through the parts in the clamping unit 2, so that the winding operation of the coil on the surface of the transformer can be completed.

Referring to fig. 1 to 4, the clamping unit 2 includes a first motor 201, a transmission column 202, a rotary disc 203, a clamping column 204, a telescopic spring 205, a moving column 206, a limit spring 207, a reset column 208, a reset spring 209 and a clamping column 210, the first motor 201 is located at one side of the support column 101, the transmission column 202 is located at one side of the first motor 201 and penetrates through the support column 101 to the other side of the support column 101, the rotary disc 203 is located at one side of the transmission column 202 away from the first motor 201, the clamping column 204 includes two clamping columns 204, the two clamping columns 204 are respectively located at two ends of the rotary disc 203 and penetrate through to the inside of the rotary disc 203, the telescopic spring 205 is located at one end of the rotary disc 203 and close to the clamping column 204, the moving column 206 is located at one side of the clamping column 204 away from the rotary disc 203 and penetrates through to the inside of the clamping column 204, the limit spring 207 is located inside of the clamping column 204 and located at the top end of the moving column 206, the reset column 208 is located inside the clamping column 204 and at one end of the moving column 206, the reset spring 209 is located at the bottom end of the reset column 208, and the locking column 210 is located at the top end of the reset column 208 and penetrates through the clamping column 204 to the inside of the rotating disc 203.

In this embodiment: promote to remove the post 206 extrusion spacing spring 207 and contract and drive and remove the post 206 removal, remove the post 206 removal extrusion reset post 208, the post 208 that resets extrudes reset spring 209 and contracts and drive the post 208 that resets and remove, the post 208 that resets removes and drives the card post 210 on top and remove, card post 210 removes and rotates the disc 203 separation, can remove the fixed to centre gripping post 204, promote centre gripping post 204 again and extrude expanding spring 205, expanding spring 205 contracts and drives centre gripping post 204 and removes, make centre gripping post 204 remove to suitable transformer size, can accomplish the centre gripping fixed to the transformer, start a motor 201 and drive transmission post 202 and rotate, transmission post 202 rotates and drives the disc 203 rotation, it drives the transformer rotation to rotate through centre gripping post 204 to rotate disc 203, can accomplish the centre gripping fixed to different size transformers.

Please refer to fig. 1 to 3, the fixing unit 3 includes a fixing block 301, two engaging posts 302, two movable posts 303, two retracting posts 304, a fixing post 305, two retracting springs 306, a supporting plate 307, and a locking block 308, the fixing block 301 is located at the top end of the base 1 and located at one side of the supporting post 101, the movable post 303 is located at one side of the fixing block 301 away from the supporting post 101 and penetrates into the base 1, the engaging posts 302 are two, the two engaging posts 302 are respectively located at one side of the fixing block 301 and the movable post 303 close to each other, the two retracting posts 304 are located at two ends of the movable post 303 and penetrate into the movable post 303, the fixing post 305 is located inside the movable post 303 and located between the retracting posts 304, the two retracting springs 306 are located at two ends of the fixing post 305 and connected to one end of the retracting post 304, the supporting plate 307 is located inside the movable post 303, and is located at the junction of the retracting column 304 and the retracting spring 306, and the locking block 308 is located at the bottom end of the supporting plate 307 and penetrates through the movable column 303 to the inside of the base 1.

In this embodiment: promote the shrink post 304 extrusion shrink spring 306 shrink of activity post 303 both sides and drive shrink post 304 and remove, shrink post 304 removes and drives backup pad 307 and remove, backup pad 307 removes and drives locking piece 308 and removes, locking piece 308 removes and shifts out from base 1 is inside, remove the fixed to activity post 303, promote activity post 303 and remove inside the base 1, keep away from each other with fixed column 301, install the one end of coil on the post 302 that cup joints of fixed column 301 one side, promote activity post 303 and remove, make activity post 303 cup joint fixedly with the passing through of the coil other end cup joints post 302, loosen again and extrude shrink post 304, shrink spring 306 promotes backup pad 307 and removes, backup pad 307 removes and drives locking piece 308 and removes, locking piece 308 stretches out to base 1 inside from activity post 303, can accomplish the quick fixed of coil.

Please refer to fig. 2-4, the transmission column 202 is rotatably connected to the support column 101 through a bearing, a moving groove matched with the clamping column 204 is disposed inside the rotating disc 203, a contracting groove matched with the expanding spring 205 is disposed inside the rotating disc 203, and a limiting block is disposed on one side of the clamping column 204 far away from the rotating disc 203.

In this embodiment: starting a first motor 201 to drive the transmission column 202 to rotate, the transmission column 202 rotates to drive the rotating disc 203 to rotate, the rotating disc 203 rotates to drive the transformer to rotate through the clamping column 204, and then the transformer can be driven to rotate to be wound with the coil better.

Please refer to fig. 2-4, the clamping column 204 is provided with a telescopic slot matching with the moving column 206, the clamping column 204 is provided with a spring slot matching with the limit spring 207, the clamping column 204 is provided with a reset slot matching with the reset spring 209, and the rotating disc 203 is provided with a plurality of fixing slots matching with the clamping column 210.

In this embodiment: promote to remove the post 206 extrusion spacing spring 207 shrink and drive and remove the post 206 removal, remove the post 206 removal extrusion and restore post 208, restore post 208 extrusion reset spring 209 shrink and drive and restore post 208 and remove, it removes the card post 210 that drives the top and removes to restore post 208, card post 210 removes and rotates the disc 203 separation, promote centre gripping post 204 extrusion expanding spring 205 shrink and drive centre gripping post 204 and remove, make centre gripping post 204 carry out the centre gripping to the transformer of equidimension not fixed.

Please refer to fig. 1 to 3, a sliding groove matched with the movable column 303 is disposed inside the base 1, a sliding block matched with the sliding groove is disposed at the bottom end of the movable column 303, and locking grooves matched with the locking block 308 are disposed on two sides inside the base 1.

In this embodiment: the locking block 308 moves out of the base 1, the movable column 303 is released from being fixed, the movable column 303 is pushed to move in the base 1, and coils with different lengths can be fixedly sleeved through the movement of the movable column 303.

Please refer to fig. 1 to 3, a movable groove matched with the retractable column 304 is disposed inside the movable column 303, a limiting groove matched with the supporting plate 307 is disposed inside the movable column 303, and a supporting groove matched with the fixed column 305 is disposed inside the movable column 303.

In this embodiment: the contracting columns 304 at the two sides of the movable column 303 are pushed to extrude the contracting springs 306, the contracting springs 306 are extruded and contracted to drive the contracting columns 304 to move, the contracting columns 304 move to drive the supporting plate 307 to move, and the supporting plate 307 moves to drive the locking blocks 308 to move, so that the contracting columns 304 can move in the movable column 303.

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 the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides a high frequency transformer production is with wire winding mechanism which characterized in that includes:

the device comprises a base (1), wherein a supporting column (101) is arranged at the top end of the base (1);

the clamping unit (2) is positioned on one side of the supporting column (101), penetrates through the supporting column (101) to the other side of the supporting column (101), and is used for performing winding operation on the transformer;

the fixing unit (3) is located at the top end of the base (1) and penetrates into the base (1) to be used for fixing the coil.

2. The winding mechanism for producing the high-frequency transformer is characterized in that the clamping unit (2) comprises a first motor (201), a transmission column (202), a rotating disc (203), a clamping column (204), a telescopic spring (205), a moving column (206), a limiting spring (207), a reset column (208), a reset spring (209) and a clamping column (210), the first motor (201) is positioned on one side of the supporting column (101), the transmission column (202) is positioned on one side of the first motor (201) and penetrates through the supporting column (101) to the other side of the supporting column (101), the rotating disc (203) is positioned on one side of the transmission column (202) far away from the first motor (201), the clamping columns (204) are two, the two clamping columns (204) are respectively positioned at two ends of the rotating disc (203) and penetrate through the inner part of the rotating disc (203), the utility model discloses a clamping device, including rotating disc (203), telescopic spring (205), removal post (206), reset post (208), reset spring (209), clamping column (208), rotating disc (203), clamping column (204), and the one end that just is close to clamping column (204), removal post (206) is located clamping column (204), and runs through to the inside of clamping column (204), spacing spring (207) is located the inside of clamping column (204), and is located the top of removing post (206), reset post (208) is located the inside of clamping column (204), and is located the one end of removing post (206), reset spring (209) are located the bottom of reset post (208), card post (210) is located the top of reset post (208), and runs through the inside of clamping column (204) to rotating disc (203).

3. The winding mechanism for producing the high-frequency transformer is characterized in that the fixing unit (3) comprises a fixing block (301), a sleeve column (302), a movable column (303), a contraction column (304), a fixing column (305), a contraction spring (306), a supporting plate (307) and a locking block (308), the fixing block (301) is positioned at the top end of the base (1) and positioned at one side of the supporting column (101), the movable column (303) is positioned at one side of the fixing block (301) far away from the supporting column (101) and penetrates into the base (1), the sleeve column (302) comprises two sleeve columns (302), the two sleeve columns (302) are respectively positioned at the mutually close sides of the fixing block (301) and the movable column (303), the contraction column (304) comprises two contraction columns, and the two contraction columns (304) are respectively positioned at two ends of the movable column (303), the fixing column (305) is located inside the movable column (303) and located between the contraction columns (304), the two contraction springs (306) are located at two ends of the fixing column (305) respectively and connected with one end of each contraction column (304), the supporting plate (307) is located inside the movable column (303) and located at the connection position of the contraction columns (304) and the contraction springs (306), and the locking block (308) is located at the bottom end of the supporting plate (307) and runs through the movable column (303) to the inside of the base (1).

4. The winding mechanism for producing the high-frequency transformer is characterized in that the transmission column (202) is rotatably connected with the support column (101) through a bearing, a moving groove matched with the clamping column (204) is formed in the rotating disc (203), a contraction groove matched with the expansion spring (205) is formed in the rotating disc (203), and a limit block is arranged on one side, away from the rotating disc (203), of the clamping column (204).

5. The winding mechanism for producing the high-frequency transformer is characterized in that a telescopic groove matched with a moving column (206) is formed in the clamping column (204), a spring groove matched with a limiting spring (207) is formed in the clamping column (204), a reset groove matched with a reset spring (209) is formed in the clamping column (204), and a plurality of fixing grooves matched with clamping columns (210) are formed in the rotating disc (203).

6. The winding mechanism for the production of the high-frequency transformer as claimed in claim 3, wherein the base (1) is internally provided with a sliding groove matched with the movable column (303), the bottom end of the movable column (303) is provided with a sliding block matched with the sliding groove, and two sides of the inside of the base (1) are provided with locking grooves matched with the locking blocks (308).

7. The winding mechanism for the production of the high-frequency transformer as claimed in claim 3, wherein the inside of the movable column (303) is provided with a movable groove matched with the shrinkage column (304), the inside of the movable column (303) is provided with a limit groove matched with the support plate (307), and the inside of the movable column (303) is provided with a support groove matched with the fixed column (305).