CN216729216U - Automatic feeding device for leveling machine - Google Patents

Abstract

The utility model relates to the technical field of leveling machines, in particular to an automatic feeding device for a leveling machine, which comprises a support frame, wherein the surface of the support frame is fixedly connected with a motor, two conveying assemblies and two stirring assemblies are arranged in the support frame, a square block is arranged in the support frame, two ends of the square block are fixedly connected with inclined blocks, two sides of the square block and the inner wall of the support frame form a working bin, the conveying assemblies and the stirring assemblies are respectively arranged in the working bin, and one side of the square block is provided with a working assembly; stir the subassembly through the setting, can stir the panel after its flattening under the effect of stirring the subassembly, need the operating personnel to encircle the device and get the mode of material and encircle the device blowing again for traditional device, reached and need not operating personnel to encircle the device and get the operation of material blowing to simplify operating personnel's operation flow, and then improved work efficiency.

Description

Automatic feeding device for leveling machine

Technical Field

The utility model relates to the technical field of leveling machines, in particular to an automatic feeding device for a leveling machine.

Background

A screed is a machine used to level the surface of an object. A leveler is generally used to level the surface of a metal plate, and the leveler extrudes a strip or a plate having a certain thickness through upper and lower rolls with respect to an uneven metal plate, thereby achieving a leveling effect. The sheet material is typically flattened by pressing with upper and lower rollers

The automatic feeding device for the flattening machine is characterized in that the flattening plate needs to be flattened for multiple times when an operator flattens the plate, the flattening effect is kept, the operator is required to perform repeated material taking and discharging operations around the flattening device in the operation process, the operation process is complex, and the work efficiency is delayed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that in the process of leveling for multiple times, operators need to take and discharge materials around the leveling device, the operation process is complex, and the work efficiency is delayed.

The automatic feeding device for the leveling machine comprises a support frame, wherein a motor is fixedly connected to the surface of the support frame, two conveying assemblies and two stirring assemblies are arranged inside the support frame, a square block is arranged inside the support frame, two ends of the square block are fixedly connected with inclined blocks, two sides of the square block and the inner wall of the support frame form a working bin, the conveying assemblies and the stirring assemblies are respectively arranged inside the working bin, a working assembly is arranged on one side of the square block, a lifting assembly is arranged on the other side of the square block, a first chain is arranged on the inner side of the working bin far away from the motor, and the working assembly and the lifting assembly are respectively arranged between the adjacent conveying assembly and the adjacent stirring assembly.

Preferably, stir the subassembly and include evenly distributed's the roller and the worm of dialling, dial the roller and all rotate with the worm and connect in one side of sloping block, the one end of dialling roller and worm all runs through sloping block and fixedly connected with and stir the gear, keeps away from the motor dial the roller with keep away from the motor the sprocket is stirred to the equal fixedly connected with of the other end of worm, the lower extreme meshing of worm is connected with the worm wheel, the worm wheel rotates and connects in the inner wall of working bin, one side fixedly connected with driving gear of worm wheel, the both sides of driving gear all mesh and are connected with driven gear, driven gear rotates and connects in the inner wall of working bin, driven gear's opposite side fixedly connected with fixed axle, the fixed surface of fixed axle connects evenly distributed's rubber driving lever.

Preferably, the other end of the worm close to the motor is fixedly connected with an output shaft of the motor, and the other side of the poking roller close to the lifting assembly is fixedly connected with a poking and lifting second chain wheel.

Preferably, the work assembly includes evenly distributed's working roll, the working roll rotates to be connected in one side of square, the one end of working roll runs through square and fixedly connected with work gear, upper end work gear and adjacent lower extreme the work gear meshing is connected, the lower extreme the other end fixedly connected with work sprocket of working roll.

Preferably, the conveying assembly comprises conveying rollers which are uniformly distributed, the conveying rollers are rotatably connected to the other side of the inclined block, the conveying rollers penetrate through the inclined block and are fixedly connected with conveying gears, and the conveying gears are meshed and connected with the adjacent shifting gears.

Preferably, the other end of the conveying roller far away from the motor is fixedly connected with a conveying chain wheel, and the other end of the conveying roller close to the lifting assembly is fixedly connected with a conveying backflow chain wheel.

Preferably, the lifting subassembly includes evenly distributed's lifting roller, the lifting roller rotates to be connected in the opposite side of square, the other end fixedly connected with lifting sprocket of lifting roller, the surface transmission of lifting sprocket is connected with the second chain, the internal surface of second chain is connected with the surface of carrying backward flow sprocket respectively and stirs the surface meshing of lifting second sprocket.

The utility model has the beneficial effects that: stir the subassembly through the setting, can stir the panel after its flattening under the effect of stirring the subassembly, need the operating personnel to encircle the device and get the mode of material and encircle the device blowing again for traditional device, reached and need not operating personnel to encircle the device and get the operation of material blowing to simplify operating personnel's operation flow, and then improved work efficiency.

Drawings

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

FIG. 2 is a schematic view of the conveyor roller and conveyor sprocket assembly of the present invention;

FIG. 3 is a schematic view of the connection between the driving gear and the driven gear according to the present invention;

FIG. 4 is a schematic view of the connection between the toggle gear and the conveying gear according to the present invention;

FIG. 5 is a schematic view of the connection of the work rolls and the work gears of the present invention;

FIG. 6 is a schematic view of the connection between the block and the swash block according to the present invention;

FIG. 7 is a schematic view of the connection of the lift sprocket to the second chain in accordance with the present invention.

In the figure: 1. a motor; 2. a support frame; 201. a square block; 202. a sloping block; 203. a working bin; 204. a first chain; 3. a delivery assembly; 301. a conveying roller; 302. a conveying sprocket; 303. a conveying gear; 304. a conveying return sprocket; 4. a working assembly; 401. a work roll; 402. a working gear; 403. a working sprocket; 5. the component is stirred; 501. a poke roller; 502. poking the chain wheel; 503. a worm; 504. shifting a gear; 505. a worm gear; 506. a driving gear; 507. a driven gear; 508. a fixed shaft; 509. a rubber deflector rod; 510. the second chain wheel is lifted by poking; 6. a lifting assembly; 601. lifting the roller; 602. lifting the chain wheel; 603. and a second chain.

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.

In the specific implementation: as shown in fig. 1-7, an automatic feeding device for a leveling machine comprises a support frame 2, a motor 1 is fixedly connected to the surface of the support frame 2, two conveying assemblies 3 and two stirring assemblies 5 are arranged inside the support frame 2, a block 201 is arranged inside the support frame 2, two ends of the block 201 are fixedly connected with inclined blocks 202, two sides of the block 201 and the inner wall of the support frame 2 form a working bin 203, the conveying assemblies 3 and the stirring assemblies 5 are respectively arranged inside the working bin 203, one side of the block 201 is provided with a working assembly 4, the other side of the block 201 is provided with a lifting assembly 6, the inner side of the working bin 203 far away from the motor 1 is provided with a first chain 204, the working assembly 4 and the lifting assembly 6 are respectively arranged between the adjacent conveying assembly 3 and the adjacent stirring assembly 5, one side of the support frame 2 is provided with a discharging hole, an operator can place a plate needing to be leveled on the conveying assembly 3 through the discharging hole to operate, the damage caused by the winding of a machine when the operator discharges the plate can be prevented, the plate is conveyed into the working assembly 4 by the conveying assembly 3 to be leveled, the plate needing to be leveled can be corrected, after the plate is corrected for one time, the plate is conveyed to the poking assembly 5 to poke the corrected plate to another conveying assembly 3 in another working bin 203, the first chain 204 can drive the transmission assembly on the inner side of the working bin 203 on one side, the working assembly 4 and the poking assembly 5 to synchronously operate, the plate is conveyed to the lifting assembly 6 by the other conveying assembly 3, the plate which is corrected is conveyed to the poking assembly 5 close to the motor 1 by the lifting assembly 6, the plate which is corrected is poked to the conveying assembly 3 close to the discharging hole to continuously perform leveling correction by the poking assembly 5 close to the motor 1, until the standard of use is met,

as shown in fig. 2, 3 and 7, the toggle assembly 5 includes a toggle roller 501 and a worm 503 which are uniformly distributed, the toggle roller 501 and the worm 503 are both rotatably connected to one side of the swash block 202, one end of the toggle roller 501 and one end of the worm 503 both penetrate through the swash block 202 and are fixedly connected with a toggle gear 504, the other end of the toggle roller 501 far away from the motor 1 and the other end of the worm 503 far away from the motor 1 are both fixedly connected with a toggle sprocket 502, the lower end of the worm 503 is engaged with a worm gear 505, the worm gear 505 is rotatably connected to the inner wall of the working chamber 203, one side of the worm gear 505 is fixedly connected with a driving gear 506, both sides of the driving gear 506 are engaged with driven gears 507, the driven gears 507 are rotatably connected to the inner wall of the working chamber 203, the other side of the driven gears 507 are fixedly connected with a fixed shaft 508, the surface of the fixed shaft 508 is fixedly connected with uniformly distributed rubber rods 509, when the toggle roller 501 far away from the motor 1 conveys a plate, the poking roller 501 and the worm 503 are driven by the first chain 204 to rotate, meanwhile, the worm 503 drives the worm wheel 505 to rotate, the driving gear 506 drives the driven gear 507 to rotate synchronously under the drive of the worm wheel, the driven gear 507 drives the fixed shaft 508 to rotate synchronously when rotating, the rubber poking rod 509 can rotate along with the fixed shaft 508, the highest position of the rubber poking rod 509 is higher than the upper end of the poking roller 501, and a plate can move towards the working bin 203 on the other side under the poking of the rubber poking rod 509 when moving to the upper end of the poking roller 501, the highest position of the inclined block 202 is lower than the upper end of the poking roller 501, the inclined surface of the inclined block 202 is opposite to the poking assembly 5, so that the poked plate can slide to the inside of another working bin 203 along with the inclined surface, the other end of the worm 503 close to the motor 1 is fixedly connected with the output shaft of the motor 1, the other side of the poking roller 501 close to the lifting assembly 6 is fixedly connected with a poking lifting second chain wheel 510, the toggle assembly 5 close to the motor 1 can drive the worm 503 to rotate under the driving of the motor 1, and further the worm 503 can drive the worm wheel 505 to rotate under the driving of the motor 1,

as shown in fig. 4, 5 and 6, the working assembly 4 includes working rollers 401 uniformly distributed, the working rollers 401 are rotatably connected to one side of the block 201, one end of each working roller 401 penetrates through the block 201 and is fixedly connected with a working gear 402, the upper working gear 402 is meshed with the adjacent lower working gear 402, the other end of each lower working roller 401 is fixedly connected with a working sprocket 403, the plate conveyed by the conveying assembly 3 is leveled in the working assembly 4, the lower working roller 401 is driven by the first chain 204 to be leveled when the lower working roller 401 is driven to operate, the plate is leveled between the upper working roller 401 and the lower working roller 401, the lower working roller 401 is driven to rotate synchronously when the lower working roller 401 is rotated, and the plate can be leveled when the upper working roller 401 and the lower working roller 401 are matched, the conveying assembly 3 includes conveying rollers 301 uniformly distributed, the conveying roller 301 is rotatably connected to the other side of the inclined block 202, the conveying roller 301 penetrates through the inclined block 202 and is fixedly connected with a conveying gear 303, the conveying gear 303 is meshed with an adjacent toggle gear 504, when the motor 1 drives the toggle gear 504 to rotate through the worm 503, and further the toggle gear 504 drives the conveying gear 303 to synchronously rotate, the conveying gear 303 drives the conveying roller 301 to rotate when rotating, and can convey a plate simultaneously, the other end of the conveying roller 301 far away from the motor 1 is fixedly connected with a conveying chain wheel 302, the other end of the conveying roller 301 close to the lifting assembly 6 is fixedly connected with a conveying return chain wheel 304, and when rotating along with the conveying roller 301, the conveying chain wheel 302 can drive the first chain 204 to operate, so as to drive the working assembly 4 and the toggle assembly 5 to rotate, the lifting assembly 6 comprises lifting rollers 601 which are uniformly distributed, and the lifting rollers 601 are rotatably connected to the other side of the square 201, the other end of the lifting roller 601 is fixedly connected with a lifting chain wheel 602, the surface of the lifting chain wheel 602 is connected with a second chain 603 in a transmission manner, the inner surface of the second chain 603 is respectively meshed and connected with the surface of the conveying backflow chain wheel 304 and the surface of the stirring lifting second chain wheel 510, the stirring lifting second chain wheel 510 and the conveying backflow chain wheel 304 can drive the second chain 603 to rotate, the lifting chain wheel 602 can synchronously rotate through the transmission of the second chain 603, the lifting roller 601 is driven to rotate when the lifting chain wheel 602 rotates, the lifting roller 601 can convey plates which are transported near the upper end of the transmission assembly of the motor 1 to the surface of the lifting roller 601, the surface of the lifting roller 601 is made of rubber, the friction force between the lifting roller 601 and the plates can be increased, and the plates can be prevented from sliding off on the surface of the lifting roller 601.

When the leveling and correcting device is used, when an operator needs to correct a leveling and correcting plate, the plate can be placed at the upper end of the conveying assembly 3 through the discharge hole, the motor 1 can drive the worm 503 close to the motor 1 to rotate when rotating, the worm 503 can synchronously drive the stirring gear 504 to rotate when rotating, the stirring gear 504 and the conveying gear 303 are meshed and connected, the conveying roller 301 can be driven to rotate through the conveying gear 303, the conveying roller 301 can drive the conveying chain wheel 302 to rotate when rotating, the conveying chain wheel 302 is meshed and connected with the first chain 204, further, the conveying roller 301, the lower end working roller 401 and the stirring roller 501 can synchronously rotate through the first chain 204, the plate needing to be corrected can be conveyed to the surface of the working roller 401 through the conveying roller 301 in the conveying assembly 3, and further, under the action of the working roller 401, the upper end working roller 401 and the lower end working roller 401 are meshed and connected under the action of the working gear 402, further, the plate can be leveled between the upper working roll 401 and the lower working roll 401, when the plate continues to rotate, the plate can be transmitted to the upper end of the toggle roll 501 from the surface of the working roll 401, the toggle roll 501 is driven by the first chain 204 to enable the toggle roll 501 and the worm 503 to synchronously rotate, further, the worm wheel meshed and connected with the lower end of the worm rod drives the driving gear 506 to rotate, the driving gear 506 drives the driven gears 507 at two sides to rotate when rotating, the driven gears 507 drive the uniformly distributed rubber deflector rods 509 to synchronously rotate through the fixed shaft 508, the rubber deflector rods 509 can drive the plate to be pushed up and poked through the gap between the adjacent toggle rolls 501 through the rubber deflector rods 509 when rotating, the plate is slid into another working bin 203 through the inclined surface of the inclined block 202, and the plate is slid to the upper end of the conveying component 3 through the inclined surface of the inclined block 202, the upper end of another conveying component 3, the conveying component 3 can move the plate to the lifting component 6 under the action of the transmission gear 303, the lifting second chain wheel 510 is meshed with the second chain 603, the second chain 603 is meshed with the lifting chain wheel 602, the second chain 603 is meshed with the transmission return chain wheel 304, the lifting roller 601 can be synchronously driven to rotate by the second chain 603 when the lifting roller 501 and the transmission roller 301 rotate, the lifting roller 601 is meshed with the second chain 603 by the lifting chain wheel 602 and can synchronously rotate, the plate to be corrected can be lifted to the upper end of the lifting component 5 close to the motor 1 by the lifting roller 601, and then the required plate can be shifted to the upper end of the output component close to the discharge hole by shifting the rubber shift rod 509 when the shifting component 5 operates, and an operator can directly take the plate, if the correction needs to be continued, the correction can be continued on the delivery assembly 3 of the discharge hole.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an automatic feeding for flush trimmer, includes support frame (2), its characterized in that: the surperficial fixedly connected with motor (1) of support frame (2), the inside of support frame (2) is provided with conveying component (3) that quantity is two and quantity is two stir subassembly (5), the inside of support frame (2) is provided with square (201), the equal fixedly connected with sloping block (202) in both ends of square (201), the both sides of square (201) and the inner wall of support frame (2) form working bin (203), conveying component (3) with stir subassembly (5) and set up respectively in the inside of working bin (203), one side of square (201) is provided with working component (4), the opposite side of square (201) is provided with lifting subassembly (6), keeps away from motor (1) the inboard of working bin (203) is provided with first chain (204), working component (4) and lifting subassembly (6) set up respectively in adjacent conveying component (3) with adjacent stir between the subassembly (5) .

2. The automatic feeding device for a leveler of claim 1, wherein: stir subassembly (5) and include evenly distributed dial roller (501) and worm (503), dial roller (501) and worm (503) and all rotate and connect in one side of sloping block (202), dial roller (501) and one end of worm (503) and all run through sloping block (202) and fixedly connected with toggle gear (504), keep away from motor (1) dial roller (501) and keep away from motor (1) the equal fixedly connected with of the other end of worm (503) stir sprocket (502), the lower extreme meshing of worm (503) is connected with worm wheel (505), worm wheel (505) rotates and connects in the inner wall of working bin (203), one side fixedly connected with driving gear (506) of worm wheel (505), the both sides of driving gear (506) all mesh and are connected with driven gear (507), driven gear (507) rotates and connects in the inner wall of working bin (203), the other side of the driven gear (507) is fixedly connected with a fixed shaft (508), and the surface of the fixed shaft (508) is fixedly connected with uniformly distributed rubber deflector rods (509).

3. The autoloading device for a screed according to claim 2, wherein: the other end of the worm (503) close to the motor (1) is fixedly connected with an output shaft of the motor (1), and the other side of the poking roller (501) close to the lifting assembly (6) is fixedly connected with a poking and lifting second chain wheel (510).

4. The autoloading device of claim 1, further comprising: work subassembly (4) are including evenly distributed's work roll (401), work roll (401) are rotated and are connected in one side of square (201), square (201) and fixedly connected with work gear (402) are run through to the one end of work roll (401), upper end work gear (402) and adjacent lower extreme work gear (402) meshing is connected, the lower extreme the other end fixedly connected with work sprocket (403) of work roll (401).

5. The autoloading device of claim 1, further comprising: conveying subassembly (3) are including evenly distributed's conveying roller (301), conveying roller (301) rotate to be connected in the opposite side of sloping block (202), conveying roller (301) run through sloping block (202) and fixedly connected with carries gear (303), carry gear (303) and adjacent toggle gear (504) meshing connection.

6. The autoloading device of claim 5, further comprising: the other end of the conveying roller (301) far away from the motor (1) is fixedly connected with a conveying chain wheel (302), and the other end of the conveying roller (301) close to the lifting assembly (6) is fixedly connected with a conveying return chain wheel (304).

7. The autoloading device of claim 1, further comprising: lifting subassembly (6) are including evenly distributed's lifting roller (601), lifting roller (601) rotate to be connected in the opposite side of square (201), the other end fixedly connected with lifting sprocket (602) of lifting roller (601), the surperficial transmission of lifting sprocket (602) is connected with second chain (603), the internal surface of second chain (603) is connected with the surface of carrying backward flow sprocket (304) and the surface meshing of stirring lifting second sprocket (510) respectively.

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