CN210735857U

CN210735857U - Silicon steel sheet feeder

Info

Publication number: CN210735857U
Application number: CN201921473547.8U
Authority: CN
Inventors: 陈玲
Original assignee: Wuxi Julong Silicon Steel Co ltd
Current assignee: Wuxi Julong Silicon Steel Co ltd
Priority date: 2019-09-05
Filing date: 2019-09-05
Publication date: 2020-06-12
Anticipated expiration: 2029-09-05

Abstract

The utility model provides a silicon steel sheet feeder, including feeding baffle and movable mounting be in overspeed device tensioner on the feeding baffle, overspeed device tensioner is including running through the linkage subassembly and the slidable alternate of feeding baffle a plurality of removal subassemblies on the linkage subassembly, the linkage subassembly is including running through the linkage body of feeding baffle, it includes can the control panel that the slant promoted on the linkage body surface and the cover that can slide relatively establish a plurality of cores on the control panel, the core support hold to on the feeding baffle, the core is in the linkage can splice outward and be the cover tube-shape, each all open on the adjacent edge of core has meshing tooth, meshing tooth is in the in-process of core concatenation remains intermeshing's state throughout. The linkage body and the control panel are utilized to control the core plate to generate the expansion movement, so that the silicon steel sheet reel can be supported and fixed all the time in the process of cutting the silicon steel sheet.

Description

Silicon steel sheet feeder

Technical Field

The utility model relates to a silicon steel sheet cutting technical field especially relates to a silicon steel sheet feeder.

Background

In the process of cutting silicon steel sheets, silicon steel sheet blanks are usually wound into blank drums, the blank drums are fed to a silicon steel sheet cutting machine in a rolling extension mode, the blank drums are usually sleeved on rollers of a feeding machine when in use, the blank drums are suitable for the blank drums with different inner diameters, the rollers on the feeding machine are formed by splicing a plurality of adjustable core plates, the core plates can expand or contract along the radial direction of the rollers, gaps exist between every two adjacent core plates after the core plates expand along the radial direction of the rollers, the core plates forming the gaps can make the inner walls of the blank drums overhead, the edges of the core plates are abutted to the inner walls of the blank drums, and partial pressure damage is caused to the inner walls of the blank drums.

SUMMERY OF THE UTILITY MODEL

The utility model provides a prevent silicon steel sheet feeder that weighs wounded that causes silicon steel sheet blank reel inner wall.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a silicon steel sheet feeder, includes feeding baffle and movable mounting be in overspeed device tensioner on the feeding baffle, overspeed device tensioner is including running through the linkage subassembly and the slidable alternate of feeding baffle are in a plurality of removal subassemblies on the linkage subassembly, the linkage subassembly is including running through the linkage body of feeding baffle, remove the subassembly including can the control panel that the slant promoted on the linkage body surface and the cover that can slide relatively are established a plurality of cores on the control panel, the core support hold extremely on the feeding baffle, the core is in the outer concatenation that can be the cover tube-shape of linkage, each all open meshing tooth on the adjacent edge of core, meshing tooth is in the in-process of core concatenation remains intermeshing's state throughout.

Furthermore, the linkage body is composed of a circular table and a cylindrical section which are integrally formed, the axial leads of the circular table section and the cylindrical section are collinear, the cylindrical section is connected to the small end of the circular table section, and the cylindrical section can be slidably inserted into the feeding partition plate.

Furthermore, a plurality of linkage grooves are formed in the circular platform section, and the control panel can be slidably inserted into the linkage grooves.

Furthermore, the linkage groove is a strip-shaped blind groove, the groove length direction of the linkage groove is parallel to the axial direction of the circular table section, the groove depth direction of the linkage groove is parallel to the radial direction of the circular table section, and the groove bottom of the linkage groove is in an inclined state.

Furthermore, the control panel comprises integrated into one piece's interior accuse board, well accuse board and outer accuse board, interior accuse board slidable alternates in the linkage groove, interior accuse board laminating in the tank bottom of linkage groove, outer accuse board slidable alternates on the internal surface of core, well accuse board is along the radial setting of round platform section.

Furthermore, the core plate is a sector curved plate, the inner side surface of the core plate is provided with a supporting groove, the cross section shape of the supporting groove is the same as that of the linkage groove, and the outer control plate can be inserted into the supporting groove in a sliding manner.

Furthermore, the tensioning device further comprises a driving assembly, the driving assembly wraps a driving air cylinder, a piston rod of the driving air cylinder penetrates into the linkage body, a dust guard and a sealing plate are fixedly mounted on the piston rod, and after the driving air cylinder is started, the linkage body can move relative to the feeding partition plate under the clamping of the dust guard and the sealing plate.

Further, the cylinder body of the driving cylinder and the core plate are respectively arranged on two sides of the feeding partition plate.

Furthermore, a linkage hole is formed in the linkage body, a piston shaft of the driving cylinder penetrates into the linkage hole, the sealing plate is fixedly installed on the end face of the large end of the circular table section, and the dust-proof plate is fixedly installed on the end face, far away from the circular table section, of the cylindrical section.

The beneficial effects of the utility model are that, the linkage body produces the axial displacement back, and the control panel is oblique motion on the linkage body surface, and then constitutes adjustable diameter's supporting sleeve, and on this supporting sleeve was established to blank sleeve cover, when supporting sleeve expanded to closely laminating blank sleeve inner wall, meshing tooth on the core edge remained the engaged state throughout, realized constituteing the transition face between each core, prevented that the core from causing the crushing to the inner wall of the blank reel of silicon steel sheet, guaranteed the surface quality of silicon steel sheet promptly.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a perspective view of a silicon steel sheet feeder of the present invention;

fig. 2 is an exploded view of the silicon steel sheet feeder shown in fig. 1;

fig. 3 is a front sectional view of the silicon steel sheet feeder shown in fig. 1;

in the drawings

Feed spacer 200 tensioner 100 drive assembly 10

Linkage assembly 20 and moving assembly 30 drive cylinder 110

Seal plate 120 bearing 220 cooperating hole 211

Circular platform section 212 and cylindrical section 213 dust guard 230

Linkage groove 214 control panel 310 core plate 320

Inner control panel 311, center control panel 312 and outer control panel 313

Engaging teeth 321 hold grooves 322

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

As shown in fig. 1 to 3, the present invention provides a silicon steel sheet feeder, which comprises a feeding partition plate 200 and a tension device 100 rotatably installed on the feeding partition plate 200. The tensioning device 100 comprises a driving assembly 10 penetrating through the feeding partition 200, a linkage assembly 20 sleeved on the driving assembly 10, and a plurality of moving assemblies 30 slidably inserted on the linkage assembly 20.

The driving assembly 10 comprises a driving cylinder 110 arranged on one side of the feeding partition board 200 and a sealing board 120 fixedly connected to the piston shaft of the driving cylinder 110, the section size of the sealing board 120 is larger than that of the piston shaft of the driving cylinder 110, the cylinder body of the driving cylinder 110 is arranged outside the feeding partition board 200, the piston shaft of the driving cylinder 110 penetrates through the feeding partition board 200, and the sealing board 120 is fixedly connected to the end part, far away from the cylinder body, of the piston shaft.

The linkage assembly 20 comprises a linkage body 210 sleeved on the piston shaft of the driving cylinder 110 and a bearing 220 arranged in the linkage body 210, wherein the linkage body 210 is provided with a linkage hole 211, preferably, the linkage hole 211 is a countersunk hole, the countersunk portion of the linkage hole 211 is arranged at the end part, far away from the feeding partition plate 200, of the linkage body 210, the piston shaft of the driving cylinder 110 is arranged through the linkage hole 211, and the sealing plate 120 is arranged in the countersunk portion of the linkage hole 211. The linkage body 210 is composed of a circular truncated cone section 212 and a cylindrical section 213 which are integrally formed, the axial leads of the circular truncated cone section 212 and the cylindrical section 213 are collinear, a linkage hole 211 is formed in the axial positions of the circular truncated cone section 212 and the cylindrical section 213, the cylindrical section 211 penetrates through the feeding partition plate 200, a dust-proof plate 230 is fixedly installed on the end face, far away from the circular truncated cone section 212, of the cylindrical section 211, and the dust-proof plate 230 and the sealing plate 120 are respectively arranged at two ends of the linkage hole 211. The small end of the circular truncated cone section 212 is connected with the cylindrical section 213, the countersunk portion of the linkage hole 211 is arranged at the large end of the circular truncated cone section 212, the outer side wall of the circular truncated cone section 212 is provided with a plurality of linkage grooves 214 which are uniformly distributed, the linkage grooves 214 are uniformly distributed along the circumferential direction of the circular truncated cone section 212, the linkage grooves 214 are strip-shaped blind grooves with T-shaped sections, the groove length direction of the linkage grooves 214 is the same as the axial direction of the circular truncated cone section 212, the groove depth direction of the linkage grooves 214 is the same as the radial direction of the circular truncated cone section 212, the groove bottom of the linkage grooves 214 is in an inclined state, preferably, the inclination degree of the linkage grooves 214 is the same as the inclination degree of the surface of the circular truncated cone section 212, namely, the groove bottom.

The bearings 220 are two in total, and preferably, the bearings 220 are deep groove ball bearings. The inner ring of the bearing 220 is fixedly sleeved on the piston shaft of the driving cylinder 110, and the outer ring of the bearing 220 is fixedly installed on the hole wall of the linkage hole 211. The bearing 220 is respectively arranged at two end orifices of the linkage hole 211, the sealing plate 120 and the dust guard 230 are both fixedly arranged on an inner ring of the bearing 220, the sealing plate 120 and the dust guard 230 are both covered with rolling bodies of the bearing 220, and an outer ring of the bearing 220 can rotate relative to the sealing plate 120 and the dust guard 230.

The moving assembly 30 includes a control plate 310 slidably inserted into the linkage groove 214 and a plurality of core plates 320 inserted on the control plate 310.

The control panel 310 is composed of an inner control panel 311, a center control panel 312, and an outer control panel 313, which are integrally formed. The inner control plate 311 is a fan-shaped plate matched with the linkage groove 214, the inner control plate 311 is inserted in the linkage groove 214, the lower surface of the inner control plate 311 is arranged to be attached to the bottom of the linkage groove 214, the central control plate 312 is fixedly connected to the upper surface of the inner control plate 311, the central control plate 312 penetrates through the linkage groove 214 and then extends to the upper portion of the linkage body 210, the central control plate 312 is a sheet plate arranged along the radial direction of the circular truncated cone section 212, and the upper surface of the central control plate 312 is parallel to the axial direction of the circular truncated cone section 212. The outer control plate 313 is fixedly attached to the upper surface of the center control plate 312, and the outer control plate 313 is a sector-shaped curved plate parallel to the circumferential surface of the cylindrical section 213.

The core plate 320 is a sector curved plate which is abutted to the feeding clapboard 200, the core plates 320 can form a sleeve after being mutually spliced outside the linkage body 210, the edge of the core plate 320 is provided with meshing teeth 321, when the core plates 320 are mutually spliced, the adjacent meshing teeth 321 can be always kept meshed, the core plate 320 and the cylinder body of the driving cylinder 110 are respectively arranged at two sides of the feeding clapboard 200, the inner side surface of the core plate 320 is provided with an abutting groove 322 corresponding to the linkage groove 214, the cross section shape of the abutting groove 322 is the same as that of the linkage groove 214, and the outer control plate 313 can be relatively inserted in the abutting groove 322 in a sliding way.

The silicon steel sheet feeder is used by sleeving a rolled silicon steel sheet blank on a core plate 320, starting a driving cylinder 110, extending and retracting a piston shaft of the driving cylinder 110 in a linkage hole 211, driving a linkage body 210 to move in a feeding partition plate 200 through a sealing plate 120 and a dust-proof plate 230, moving the linkage body 210 in a moving process of penetrating the feeding partition plate 200, moving a control plate 310 relative to a linkage groove 214, moving the control plate 310 obliquely along the bottom of the linkage groove 214, and moving the core plate 320 in a direction away from the linkage body 210 until the roll of the silicon steel sheet blank is tightly supported and fixed when the control plate 310 moves in the linkage groove 214, and then unfolding the roll on the core plate 320 to convey the silicon steel sheet blank to a shearing machine.

In the use process of above-mentioned silicon steel sheet feeder, utilize the linkage groove 214 tank bottom that is the tilt state for the in-process that control panel 310 removed in linkage groove 214 produces the slant propelling movement, this slant propelling movement effect is to core 320 on, make core 320 along the radial expansion of the sleeve that constitutes, core 320 is at the in-process of expansion, cause certain pressure to hold the effect to the reel inner wall, the area of contact increase between reel and the core 320 simultaneously, and then prop the reel tightly fixedly, the relative angle that the reel carried the silicon steel sheet to the cutting machine is fixed thereupon. In the process of expanding the core plate 320, the mutually meshed meshing teeth 321 are changed into a state away from meshing along with the expanding action of the core plate 320, and in the process of changing the meshing state of the meshing teeth 321, the meshing teeth 321 always block the gap between the core plates 320, so that the edge of the core plate 320 is prevented from pressing the surface of the silicon steel sheet in the winding drum.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims

1. The utility model provides a silicon steel sheet feeder which characterized in that: including feeding baffle and movable mounting be in overspeed device tensioner on the feeding baffle, overspeed device tensioner is including running through the linkage subassembly and the slidable of feeding baffle alternate a plurality of removal subassemblies on the linkage subassembly, the linkage subassembly is including running through the linkage body of feeding baffle, remove the subassembly including can the linkage body surface goes up the control panel that the slant promoted and can the cover of relative slip establish a plurality of cores on the control panel, the core supports and holds extremely on the feeding baffle, the core is in the outer concatenation of linkage is cover tube-shape, each all open on the adjacent edge of core meshing tooth, meshing tooth is in the in-process of core concatenation remains intermeshing's state throughout.

2. The silicon steel sheet feeder according to claim 1, wherein: the linkage body is composed of a circular table and a cylindrical section which are integrally formed, the axial leads of the circular table section and the cylindrical section are collinear, the cylindrical section is connected to the small end of the circular table section, and the cylindrical section can be slidably inserted into the feeding partition plate.

3. The silicon steel sheet feeder according to claim 2, wherein: the circular platform section is provided with a plurality of linkage grooves, and the control panel can be slidably inserted into the linkage grooves.

4. A silicon steel sheet feeder according to claim 3, characterized in that: the linkage groove is a strip-shaped blind groove, the groove length direction of the linkage groove is parallel to the axial direction of the circular table section, the groove depth direction of the linkage groove is parallel to the radial direction of the circular table section, and the groove bottom of the linkage groove is in an inclined state.

5. The silicon steel sheet feeder according to claim 4, wherein: the control panel comprises integrated into one piece's interior accuse board, well accuse board and outer accuse board, interior accuse board slidable alternates in the linkage groove, interior accuse board laminate in the tank bottom of linkage groove, outer accuse board slidable alternates on the internal surface of core, well accuse board is followed the radial setting of round platform section.

6. The silicon steel sheet feeder according to claim 5, wherein: the core plate is a fan-shaped bent plate, the inner side surface of the core plate is provided with a supporting groove, the cross section shape of the supporting groove is the same as that of the linkage groove, and the outer control plate can be inserted into the supporting groove in a sliding mode.

7. The silicon steel sheet feeder according to claim 2, wherein: the tensioning device further comprises a driving assembly, the driving assembly wraps a block driving cylinder, a piston rod of the driving cylinder penetrates into the linkage body, a dustproof plate and a sealing plate are fixedly mounted on the piston rod, and after the driving cylinder is started, the linkage body can move relative to the feeding partition plate under the clamping of the dustproof plate and the sealing plate.

8. The silicon steel sheet feeder according to claim 7, wherein: the cylinder body of the driving cylinder and the core plate are respectively arranged on two sides of the feeding partition plate.

9. The silicon steel sheet feeder according to claim 7, wherein: the linkage body is internally provided with a linkage hole, a piston shaft of the driving cylinder is inserted into the linkage hole, the sealing plate is fixedly arranged on the end surface of the large end of the circular table section, and the dust guard plate is fixedly arranged on the end surface of the cylindrical section far away from the circular table section.