CN220532694U - Magnetic stripe rounding device - Google Patents

Abstract

The utility model relates to the technical field of magnetic stripe installation, in particular to a device for rolling a magnetic stripe to be installed into a circular ring. In order to improve the rolling efficiency and rolling consistency of the magnetic stripe, the utility model provides a magnetic stripe rolling device which comprises a rolling piece and a jacking mechanism, wherein the rolling piece is provided with a rolling groove and a feeding notch, the feeding notch penetrates through the inner side wall of the rolling groove and the outer side wall of the rolling piece, and the connecting side wall of the feeding notch connected with the inner side wall of the rolling groove is tangent with the inner side wall of the rolling groove at the connecting part; the ejection mechanism comprises an ejection driving piece and an ejection piece, wherein the ejection piece is connected with a driving rod of the ejection driving piece and faces the feeding notch, and the ejection end of the ejection piece can extend into the winding groove through the feeding notch under the driving of the ejection driving piece. The magnetic strip winding device is used for winding the magnetic strip into the circular ring, the winding efficiency is high, and the consistency of the magnetic strip circular ring formed by winding is good.

Description

Magnetic stripe rounding device

Technical Field

The utility model relates to the technical field of magnetic stripe installation, in particular to a device for rolling a magnetic stripe to be installed into a circular ring.

Background

At present, when installing the magnetic stripe, generally the manual work is coiled into the ring with the magnetic stripe, and it is inefficiency to coil, and the uniformity of the magnetic stripe ring of coiling formation is poor, influences the assembly quality of the product of being equipped with the magnetic stripe ring.

Disclosure of Invention

In order to improve the rolling efficiency and rolling consistency of the magnetic stripe, the utility model provides a magnetic stripe rolling device, which comprises a rolling piece and a material ejection mechanism, wherein the rolling piece is provided with a rolling groove and a feeding notch, the feeding notch penetrates through the inner side wall of the rolling groove and the outer side wall of the rolling piece, and the connecting side wall of the feeding notch connected with the inner side wall of the rolling groove is tangent with the inner side wall of the rolling groove at the connecting part; the ejection mechanism comprises an ejection driving piece and an ejection piece, wherein the ejection piece is connected with a driving rod of the ejection driving piece and faces the feeding notch, and the ejection end of the ejection piece can extend into the winding groove through the feeding notch under the driving of the ejection driving piece. When the magnetic strip rolling device is used for rolling the magnetic strip into a circular ring, the magnetic strip to be rolled only needs to be placed between the rolling piece and the ejection mechanism, the ejection driving piece in the ejection mechanism can be used for driving the ejection piece to eject the magnetic strip to be rolled into the rolling groove through the feeding notch, and the connecting side wall, which is connected with the inner side wall of the rolling groove, of the feeding notch is tangential to the inner side wall of the rolling groove at the connecting position, so that the magnetic strip to be rolled is tightly attached to the inner side wall of the rolling groove after being ejected into the rolling groove by the ejection piece until the ejection piece completely ejects the magnetic strip to be rolled into the rolling groove, and the magnetic strip to be rolled is rolled into the circular ring in the rolling groove. Therefore, compared with manual winding, the magnetic strip winding device is high in winding efficiency, and the uniformity of the magnetic strip circular ring formed by winding is good.

Preferably, the round rolling piece is a rectangular block, the round rolling groove is located in the middle of the rectangular block, the feeding notch is close to the edge of the rectangular block, and the extending direction of the feeding notch is perpendicular to the outer side wall penetrating through the feeding notch. The rolling piece is simple in structure, simple and convenient to process and manufacture, and the manufacturing cost of the magnetic stripe rolling device can be effectively reduced.

Preferably, a material ejection guide member is arranged between the feeding notch and the material ejection driving member, and the guiding side surface of the material ejection guide member is coplanar with the side wall connected with the feeding notch. Therefore, when the magnetic stripe rounding device is used for rounding the magnetic stripe to be rolled into a circular ring, the magnetic stripe to be rolled can be abutted against the guide side surface of the ejection guide piece, so that the magnetic stripe to be rolled is pushed by the ejection mechanism to be tightly attached to the guide side surface of the ejection guide piece to advance, and the influence on the rolling efficiency of the magnetic stripe rounding device due to the fact that the advancing direction is inclined or changed in the process that the magnetic stripe to be rolled enters the rounding groove through the feeding notch is avoided.

Further, the ejector comprises an ejector block and an ejector plate, the ejector block is installed and fixed on a driving rod of the ejector driving piece, the ejector plate is located on an ejector end face of the ejector block, which is away from the ejector driving piece, and the ejector plate faces to an ejector sliding face of the ejector guiding piece and is attached to a guiding side face of the ejector guiding piece. In this way, the ejector plate in the ejector piece is connected with the driving rod of the ejector driving piece through the ejector block, so that the connection is simple and stable; the ejector plate is attached to the guide side face of the ejector guide piece towards the ejector sliding face of the ejector guide piece, so that the ejector plate can be driven by the ejector driving piece to push the magnetic stripe to be wound to move forwards stably.

Further preferably, a top of the ejection guide member is provided with an ejection guide rail, a clamping groove is formed in the bottom of the ejection block, and the ejection block is clamped on the ejection guide rail through the clamping groove and can slide along the ejection guide rail. Therefore, the ejector block in the ejector piece can be clamped on the ejector guide rail at the top of the ejector guide piece through the clamping groove, so that the ejector piece slides along the extending direction of the ejector guide rail under the drive of the ejector driving piece, the advancing direction is stable, and the phenomenon that the ejector piece shakes or changes direction when pushing the magnetic stripe to be wound to advance to influence the winding efficiency of the magnetic stripe winding device is avoided.

Preferably, the magnetic stripe rolling device comprises a feeding mechanism, the feeding mechanism comprises a feeding driving piece and a feeding pushing plate, the feeding pushing plate is arranged on a feeding driving rod of the feeding driving piece, and the feeding pushing plate is positioned between the rolling piece and the ejection mechanism and parallel to the guiding side face of the ejection guiding piece. Therefore, when the magnetic stripe rolling device is used for rolling the magnetic stripe to be rolled into the circular ring, the feeding driving piece in the feeding mechanism can be used for driving the feeding pushing plate to push the magnetic stripe to be rolled to the feeding position between the rolling piece and the ejection mechanism, so that the ejection mechanism can conveniently eject the magnetic stripe to be rolled into the rolling groove to be rolled into the circular ring, and compared with manual feeding, the feeding speed is high, and the feeding position is accurate.

Further, the two sides of the feeding pushing plate are provided with feeding guide blocks, the feeding guide blocks are perpendicular to the feeding pushing plate and extend along the advancing direction of the feeding pushing plate, and a material ejection chute capable of accommodating the material ejection plate is arranged between the feeding guide blocks and the guide side surfaces of the material ejection guide pieces. Like this, the material loading guide block that is located material loading push pedal both sides forms the material loading groove that holds the magnetic stripe usefulness of waiting to wind with the material loading push pedal cooperation, when using, can discharge a plurality of magnetic stripes of waiting to wind the book in the material loading groove, and the material loading is convenient swift.

Further preferably, the feeding driving member and the feeding pushing plate are located at two sides of the ejection guiding member. Therefore, the feeding driving piece and the feeding pushing plate in the feeding mechanism are positioned on two sides of the ejection guide piece, and when feeding is performed, the feeding driving rod of the feeding driving piece is retracted to pull the feeding pushing plate to push the magnetic stripe to be wound to the feeding position, so that feeding is simple and convenient, the occupied space of the magnetic stripe rounding device can be effectively reduced, and arrangement is convenient.

Preferably, the magnetic stripe rounding device comprises a substrate, and the rounding piece, the ejection mechanism, the ejection guide piece and the feeding mechanism are all arranged on the substrate. Therefore, the rolling piece, the ejection mechanism, the ejection guide piece and the feeding mechanism in the magnetic strip rolling device are all arranged on the substrate, so that an integral structure is formed, the performance stability of the magnetic strip rolling device can be kept, the magnetic strip rolling device is convenient to move, and the magnetic strip rolling device is convenient to use.

Drawings

FIG. 1 is a schematic view of a first perspective structure of a magnetic stripe rounding device according to the present utility model;

fig. 2 is a schematic view of a second view angle structure of the magnetic stripe rounding device of the present utility model.

Detailed Description

The magnetic stripe rounding device of the present utility model will be described in detail with reference to fig. 1 and 2.

As shown in fig. 1 and 2, the magnetic stripe rounding device of the present utility model comprises a substrate 1, a rounding element 2, a material ejection mechanism, a material ejection guide element 4 and a material feeding mechanism, wherein the rounding element 2, the material ejection mechanism, the material ejection guide element 4 and the material feeding mechanism are all arranged on the substrate 1. Therefore, the rolling piece 2, the ejection mechanism, the ejection guide piece 4 and the feeding mechanism in the magnetic strip rolling device are arranged on the substrate 1 to form an integral structure, so that the performance stability of the magnetic strip rolling device can be kept, the magnetic strip rolling device is convenient to move, and the magnetic strip rolling device is convenient to use.

As shown in fig. 1 and 2, the round piece 2 is provided with a round groove 21 and a feeding notch 22, the feeding notch 22 penetrates through the side wall of the round groove 21 and the outer side wall of the round piece 2, and a connecting side wall 221 connected with the inner side wall 211 of the round groove 21 in the feeding notch 22 is tangent with the inner side wall 211 of the round groove 21 at the connecting position. Preferably, the round piece 2 is a rectangular block, the round groove 21 is positioned in the middle of the rectangular block, the feeding notch 22 is close to the edge of the rectangular block, and the extending direction of the feeding notch 22 is perpendicular to the outer side wall penetrated by the feeding notch 22. The rolling piece 2 is simple in structure, simple and convenient to process and manufacture, and the manufacturing cost of the magnetic stripe rolling device can be effectively reduced. Preferably, the coiling groove 21 is a circular through hole, so that after the magnetic strip is coiled into a circular ring by the magnetic strip coiling device, the coiled magnetic strip circular ring can be ejected and taken down from the coiling groove 21 by the taking mechanism, and the taking is simple and convenient.

As shown in fig. 1 and 2, the ejector mechanism comprises an ejector driving member 31 and an ejector member 32, the ejector member 32 is connected with a driving rod 311 of the ejector driving member 31 and faces the feeding slot opening 22 on the round rolling member 2, and the ejector end of the ejector member 32 can extend into the round rolling groove 21 through the feeding slot opening 22 under the driving of the ejector driving member 31; the ejector guide 4 is located between the feed slot 22 and the ejector drive 31, and the guide side 41 of the ejector guide 4 is coplanar with the connecting side wall 221 of the feed slot 22. In this way, when the magnetic stripe 6 to be wound is wound into a circular ring by using the magnetic stripe winding device of the utility model, the magnetic stripe 6 to be wound can be abutted against the guiding side surface 41 of the ejector guide 4, so that the magnetic stripe 6 to be wound is pushed by the ejector mechanism to be tightly attached to the guiding side surface 41 of the ejector guide 4, and the winding efficiency of the magnetic stripe winding device of the utility model is prevented from being influenced by tilting or changing the advancing direction in the process that the magnetic stripe 6 to be wound enters the winding groove 21 through the feeding notch 22. Preferably, the ejector driving member 31 is a driving cylinder, and the selection and control are simple and convenient. Preferably, the ejector 32 comprises an ejector block 321 and an ejector plate 322, the ejector block 321 is mounted and fixed on the driving rod 311 of the ejector driving member 31, the ejector plate 322 is located on the ejector end surface of the ejector block 321 facing away from the ejector driving member 31, and the ejector sliding surface (not shown in the figure) of the ejector plate 322 facing the ejector guide 4 is attached to the guide side surface 41 of the ejector guide 4. In this way, the ejector plate 322 in the ejector 32 is connected with the driving rod 311 of the ejector driving member 31 through the ejector block 321, so that the connection is simple and stable; the ejector plate 322 is attached to the guiding side surface 41 of the ejector guide 4 towards the ejector sliding surface of the ejector guide 4, so that the ejector plate 322 can push the magnetic stripe 6 to be wound to advance stably under the driving of the ejector driving piece 31. Preferably, the top of the ejector guide 4 is provided with an ejector rail 42, the bottom of the ejector block 321 is provided with a clamping groove (not shown in the figure), and the ejector block 321 is clamped on the ejector rail 42 by the clamping groove and can slide along the ejector rail 42. In this way, the ejector block 321 in the ejector member 32 can be clamped on the ejector guide rail 42 at the top of the ejector guide member 4 through the clamping groove, so that the ejector member 32 slides along the extending direction of the ejector guide rail 42 under the drive of the ejector driving member 31, the advancing direction is stable, and the phenomenon that the ejector member 32 shakes or changes direction when pushing the magnetic stripe 6 to be wound to advance can be avoided, and the winding efficiency of the magnetic stripe rounding device is affected.

As shown in fig. 1 and 2, the feeding mechanism includes a feeding driving member 51 and a feeding push plate 52, the feeding push plate 52 is mounted on a feeding driving lever 511 of the feeding driving member 51, and the feeding push plate 52 is located between the rolling member 2 and the ejection mechanism and parallel to the guide side surface 41 of the ejection guide member 4. Therefore, when the magnetic stripe winding device is used for winding the magnetic stripe 6 to be wound into the circular ring, the feeding driving piece 51 in the feeding mechanism can be used for driving the feeding pushing plate 52 to push the magnetic stripe 6 to be wound to the feeding position between the winding piece 2 and the ejection mechanism, so that the ejection mechanism can conveniently eject the magnetic stripe 6 to be wound into the circular ring winding groove 21 to be wound into the circular ring, and compared with manual feeding, the feeding speed is high, and the feeding position is accurate. Preferably, the two sides of the feeding pushing plate 52 are provided with feeding guide blocks 53, the feeding guide blocks 53 are perpendicular to the feeding pushing plate 52 and extend along the advancing direction of the feeding pushing plate 52, and a material ejection chute (not shown in the figure) capable of accommodating the material ejection plate 322 is arranged between the feeding guide blocks 53 and the guiding side surface 41 of the material ejection guide 4. In this way, the feeding guide blocks 53 located at two sides of the feeding pushing plate 52 are matched with the feeding pushing plate 52 to form a feeding groove (not shown in the figure) for accommodating the magnetic strips 6 to be wound, and when in use, a plurality of magnetic strips 6 to be wound can be discharged into the feeding groove, so that feeding is convenient and quick. Preferably, the feeding driving member 51 and the feeding push plate 52 are located at both sides of the ejection guide 4. In this way, the feeding driving piece 51 and the feeding pushing plate 52 in the feeding mechanism are positioned on two sides of the ejection guide piece 4, and when feeding, the feeding driving rod 511 of the feeding driving piece 51 is retracted to pull the feeding pushing plate 52, so that the magnetic stripe 6 to be wound can be pushed to the feeding position, the feeding is simple and convenient, the occupied space of the magnetic stripe rounding device can be effectively reduced, and the arrangement is convenient. Preferably, the feeding driving member 51 can be a driving cylinder, and the selection and control are simple and convenient.

When the magnetic strip winding device is used for winding the magnetic strip into a circular ring, the magnetic strip 6 to be wound can be driven by the ejection driving piece 31 in the ejection mechanism to eject the magnetic strip 6 to be wound into the circular groove 21 through the feeding slot opening 22 only by placing the magnetic strip 6 to be wound between the winding piece 2 and the ejection mechanism, and the connecting side wall 221 of the feeding slot opening 22 is tangential to the inner side wall 211 of the circular groove 21 at the connecting position of the two, so that the magnetic strip 6 to be wound tightly clings to the inner side wall 211 of the circular groove 21 after being ejected into the circular groove 21 by the ejection piece until the ejection piece ejects the magnetic strip 6 to be wound into the circular groove 21 completely, and the magnetic strip 6 to be wound is wound into a circular ring in the circular groove 21 and tightly clings to the inner side wall 211 of the circular groove 21. Therefore, compared with manual winding, the magnetic strip winding device is high in winding efficiency, the consistency of the magnetic strip ring formed by winding is good, and meanwhile, the labor intensity of winding personnel can be effectively reduced.

Claims (9)

1. The magnetic stripe rounding device is characterized by comprising a rounding piece and a material ejection mechanism, wherein the rounding piece is provided with a rounding groove and a feeding notch, the feeding notch penetrates through the inner side wall of the rounding groove and the outer side wall of the rounding piece, and the connecting side wall of the feeding notch connected with the inner side wall of the rounding groove is tangent with the inner side wall of the rounding groove at the connecting part; the ejection mechanism comprises an ejection driving piece and an ejection piece, wherein the ejection piece is connected with a driving rod of the ejection driving piece and faces the feeding notch, and the ejection end of the ejection piece can extend into the winding groove through the feeding notch under the driving of the ejection driving piece.

2. The magnetic stripe rounding device of claim 1, wherein the rounding member is a rectangular block, the rounding groove is located in the middle of the rectangular block, the feeding slot is close to the edge of the rectangular block, and the extending direction of the feeding slot is perpendicular to the outer side wall through which the feeding slot penetrates.

3. The magnetic stripe rounding device of claim 2, wherein a liftout guide is disposed between the feed slot and the liftout drive, and wherein a guide side of the liftout guide is coplanar with a connecting sidewall of the feed slot.

4. The magnetic stripe rounding device of claim 3, wherein the ejector comprises an ejector block and an ejector plate, the ejector block is mounted and fixed on a driving rod of the ejector driving member, the ejector plate is located on an ejector end surface of the ejector block facing away from the ejector driving member, and the ejector plate faces towards an ejector sliding surface of the ejector guiding member and is attached to a guiding side surface of the ejector guiding member.

5. The magnetic stripe rounding device according to claim 4, wherein a top of the ejector guide is provided with an ejector rail, a bottom of the ejector block is provided with a clamping groove, and the ejector block is clamped on the ejector rail through the clamping groove and can slide along the ejector rail.

6. The magnetic stripe rounding device of claim 4 or 5, wherein the magnetic stripe rounding device comprises a loading mechanism comprising a loading driving member and a loading push plate, wherein the loading push plate is mounted on a loading driving rod of the loading driving member, and the loading push plate is positioned between the rounding member and the ejection mechanism and parallel to a guiding side surface of the ejection guiding member.

7. The magnetic stripe rounding device according to claim 6, wherein the feeding pushing plate is provided with feeding guide blocks at both sides, the feeding guide blocks are perpendicular to the feeding pushing plate and extend along the advancing direction of the feeding pushing plate, and a feeding chute capable of accommodating the feeding plate is provided between the feeding guide blocks and the guiding side surface of the feeding guide member.

8. The magnetic stripe rounding device of claim 7, wherein the loading drive and the loading pusher are located on both sides of the ejector guide.

9. The magnetic stripe rounding device of claim 6, wherein the magnetic stripe rounding device comprises a substrate, and the rounding element, the ejection mechanism, the ejection guide and the loading mechanism are all disposed on the substrate.