CN212397680U - High magnetic induction is slitter edge coiling mechanism for oriented silicon steel - Google Patents
High magnetic induction is slitter edge coiling mechanism for oriented silicon steel Download PDFInfo
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- CN212397680U CN212397680U CN202020810602.4U CN202020810602U CN212397680U CN 212397680 U CN212397680 U CN 212397680U CN 202020810602 U CN202020810602 U CN 202020810602U CN 212397680 U CN212397680 U CN 212397680U
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- material blocking
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Abstract
The utility model discloses a slitter edge coiling mechanism for high magnetic induction grain-oriented silicon steel, which comprises a base, a first movable cylinder block fixed at one end of the base, and a movable cylinder fixed on the movable cylinder block, wherein a sliding shaft is fixed at the front end of the movable cylinder block of the base; a movable bracket is movably embedded on the sliding shaft; a second movable air cylinder seat is fixed on the movable bracket; the telescopic end of the movable cylinder is fixed on the second movable cylinder seat; a bearing assembly is fixed at the top of the movable support; the bearing assembly penetrates through a shaft body; a first material blocking disc is fixed at the front end of the movable support; the shaft body penetrates through the first material blocking disc and is provided with a first conical head; the utility model discloses a high magnetic induction is slitter edge coiling mechanism for oriented silicon steel can batch the slitter edge, accomplishes and batches the back, can the automatic blanking ejection of compact, and it can be collected the slitter edge, avoids causing the mixed and disorderly phenomenon of workshop.
Description
Technical Field
The utility model relates to a high magnetic induction oriented silicon steel processing equipment, concretely relates to high magnetic induction oriented silicon steel coils mechanism with slitter edge belongs to high magnetic induction oriented silicon steel processing equipment technical field.
Background
The transformer iron core mainly comprises oriented silicon steel laminations, and the laminations are cut along the rolling direction of the oriented silicon steel strip and form an annular loop; oriented silicon steel sheets are generally classified into two types: the basic difference between the general oriented silicon steel sheet and the high magnetic induction oriented silicon steel sheet is the magnitude of magnetic induction intensity or magnetic flux density, and the value is a measured value under the condition that the magnetic field is 800A/m and is marked with a symbol B800; the B800 parameter of a general oriented silicon steel sheet is usually not more than 1.880T, the B800 parameter of a high magnetic induction oriented silicon steel sheet is more than 1.890T, and the high magnetic induction oriented silicon steel sheet needs to be trimmed in the production process.
SUMMERY OF THE UTILITY MODEL
In order to solve the problem, the utility model provides a high magnetic induction is slitter edge coiling mechanism for oriented silicon steel can batch the slitter edge, accomplishes to batch the back, directly send it out can.
The utility model discloses a slitter edge coiling mechanism for high magnetic induction grain-oriented silicon steel, which comprises a base, a first movable cylinder block fixed at one end of the base, and a movable cylinder fixed on the movable cylinder block, wherein a sliding shaft is fixed at the front end of the movable cylinder block of the base; a movable bracket is movably embedded on the sliding shaft; a second movable air cylinder seat is fixed on the movable bracket; the telescopic end of the movable cylinder is fixed on the second movable cylinder seat; a bearing assembly is fixed at the top of the movable support; the bearing assembly penetrates through a shaft body; a first material blocking disc is fixed at the front end of the movable support; the shaft body penetrates through the first material blocking disc and is provided with a first conical head; a second material stopping disc is fixedly arranged on one surface, far away from the movable support, of the first material stopping disc; a feeding and pressing mechanism is arranged on the back surface between the first material blocking disc and the second material blocking disc; a discharge hole is formed in the front side between the first material blocking plate and the second material blocking plate; a driving shaft is arranged on the second material blocking disc opposite to the shaft body; a second conical head which is opposite to the first conical head is arranged on the driving shaft; the driving shaft is provided with an outer bearing body outside the second material blocking plate; the driving shaft is connected to a cycloidal pin gear reducer through a chain wheel and a roller chain, and the cycloidal pin gear reducer is driven by a torque motor; when the rotating shaft rotates, the second conical head fixed at the front end of the rotating shaft synchronously rotates, the second conical head rotates to transmit rotating force to the first conical head, and the first conical head and the shaft body can rotate on the inner side of the bearing assembly; when high magnetic induction oriented silicon steel slitter edge is led into between first conical head and the second conical head through the feed chute, through pressing the flexible arm of pressing of material cylinder with the pressure roll to high magnetic induction oriented silicon steel slitter edge top of driving of material cylinder, and when first conical head and second conical head rotate, can coil the slitter edge, accomplish to coil tip or slitter edge and coil and cut off the back, through removing cylinder drive removal support and first fender material dish along the motion of sliding axial second fender charging tray keeping away from, thereby, first conical head and the separation of second conical head, the slitter edge is rolled up automatic whereabouts and is entered into the discharge gate.
Furthermore, the feeding and pressing mechanism comprises a feeding groove, and supports are fixed on the base at two sides of the feeding groove; a material pressing arm is hinged on the support; a material pressing cylinder is hinged between the material pressing arm and the material feeding groove; and a pressing roller is arranged at the other end of the pressing arm.
Still further, the pressing rollers respectively press the upper portions of the first conical head and the second conical head.
The utility model discloses a prior art compares, the utility model discloses a high magnetic induction is slitter edge coiling mechanism for oriented silicon steel can batch the slitter edge, accomplishes and batches the back, can the automatic blanking ejection of compact, and it can be collected the slitter edge, avoids causing the mixed and disorderly phenomenon of workshop.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a schematic side structure of the present invention.
Detailed Description
Example 1:
as shown in fig. 1 and 2, the slitter edge coiling mechanism for high magnetic induction grain-oriented silicon steel of the present invention comprises a base 1, a first movable cylinder block 2 fixed at one end of the base, and a movable cylinder 3 fixed on the movable cylinder block, wherein a sliding shaft 4 is fixed at the front end of the movable cylinder block of the base 1; a movable bracket 5 is movably embedded on the sliding shaft 4; a second movable cylinder seat 6 is fixed on the movable bracket 5; the telescopic end of the movable cylinder 3 is fixed on a second movable cylinder seat 6; a bearing assembly 7 is fixed at the top of the movable bracket 5; a shaft body 8 penetrates through the bearing assembly 7; a first material blocking disc 9 is fixed at the front end of the movable bracket 5; the shaft body 8 penetrates through the first material blocking disc and is provided with a first conical head 10; a second material blocking plate 11 is fixedly arranged on one surface, far away from the movable support, of the first material blocking plate 9; a feeding and pressing mechanism is arranged on the back surface between the first material blocking plate 9 and the second material blocking plate 11; a discharge hole 12 is formed in the front side between the first material blocking plate 9 and the second material blocking plate 11; the second material blocking plate 11 is provided with a driving shaft 12 opposite to the shaft body; a second conical head 13 opposite to the first conical head is arranged on the driving shaft 12; an outer bearing body 14 is arranged outside the second material blocking disc of the driving shaft 12; the driving shaft 12 is connected to a cycloidal pin gear reducer 15 through a chain wheel and a roller chain, and the cycloidal pin gear reducer 15 is driven by a torque motor 16; when the rotating shaft rotates, the second conical head fixed at the front end of the rotating shaft synchronously rotates, the second conical head rotates to transmit rotating force to the first conical head, and the first conical head and the shaft body can rotate on the inner side of the bearing assembly; when high magnetic induction oriented silicon steel slitter edge is led into between first conical head and the second conical head through the feed chute, through pressing the flexible arm of pressing of material cylinder with the pressure roll to high magnetic induction oriented silicon steel slitter edge top of driving of material cylinder, and when first conical head and second conical head rotate, can coil the slitter edge, accomplish to coil tip or slitter edge and coil and cut off the back, through removing cylinder drive removal support and first fender material dish along the motion of sliding axial second fender charging tray keeping away from, thereby, first conical head and the separation of second conical head, the slitter edge is rolled up automatic whereabouts and is entered into the discharge gate.
The feeding and pressing mechanism comprises a feeding groove 17, and supports 18 are fixed on two sides of the feeding groove of the base 1; a swaging arm 19 is hinged on the support 18; a material pressing cylinder 20 is hinged between the material pressing arm 19 and the material feeding groove 17; the other end of the material pressing arm 19 is provided with a pressing roller 21; the pressing rollers 21 press the upper portions of the first and second cones 10 and 13, respectively.
The above-mentioned embodiment is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles of the present invention are included in the claims of the present invention.
Claims (3)
1. The utility model provides a high magnetic induction is slitter edge coiling mechanism for oriented silicon steel which characterized in that: the device comprises a base, a first movable cylinder seat fixed at one end of the base and a movable cylinder fixed on the movable cylinder seat, wherein a sliding shaft is fixed at the front end of the movable cylinder of the base; a movable bracket is movably embedded on the sliding shaft; a second movable air cylinder seat is fixed on the movable bracket; the telescopic end of the movable cylinder is fixed on the second movable cylinder seat; a bearing assembly is fixed at the top of the movable support; the bearing assembly penetrates through a shaft body; a first material blocking disc is fixed at the front end of the movable support; the shaft body penetrates through the first material blocking disc and is provided with a first conical head; a second material stopping disc is fixedly arranged on one surface, far away from the movable support, of the first material stopping disc; a feeding and pressing mechanism is arranged on the back surface between the first material blocking disc and the second material blocking disc; a discharge hole is formed in the front side between the first material blocking plate and the second material blocking plate; a driving shaft is arranged on the second material blocking disc opposite to the shaft body; a second conical head which is opposite to the first conical head is arranged on the driving shaft; the driving shaft is provided with an outer bearing body outside the second material blocking plate; the driving shaft is connected to a cycloidal pin gear reducer through a chain wheel and a roller chain, and the cycloidal pin gear reducer is driven by a torque motor.
2. The slitter edge coiling mechanism for high magnetic induction grain-oriented silicon steel according to claim 1, characterized in that: the feeding and pressing mechanism comprises a feeding groove, and supports are fixed on the base at two sides of the feeding groove; a material pressing arm is hinged on the support; a material pressing cylinder is hinged between the material pressing arm and the material feeding groove; and a pressing roller is arranged at the other end of the pressing arm.
3. The slitter edge coiling mechanism for high magnetic induction grain-oriented silicon steel of claim 2, wherein: and the compression rollers respectively compress the upper parts of the first conical head and the second conical head.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020810602.4U CN212397680U (en) | 2020-05-15 | 2020-05-15 | High magnetic induction is slitter edge coiling mechanism for oriented silicon steel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020810602.4U CN212397680U (en) | 2020-05-15 | 2020-05-15 | High magnetic induction is slitter edge coiling mechanism for oriented silicon steel |
Publications (1)
Publication Number | Publication Date |
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CN212397680U true CN212397680U (en) | 2021-01-26 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202020810602.4U Active CN212397680U (en) | 2020-05-15 | 2020-05-15 | High magnetic induction is slitter edge coiling mechanism for oriented silicon steel |
Country Status (1)
Country | Link |
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CN (1) | CN212397680U (en) |
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2020
- 2020-05-15 CN CN202020810602.4U patent/CN212397680U/en active Active
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