CN212792462U - Novel horizontal slitter edge machine - Google Patents
Novel horizontal slitter edge machine Download PDFInfo
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- CN212792462U CN212792462U CN202021122583.2U CN202021122583U CN212792462U CN 212792462 U CN212792462 U CN 212792462U CN 202021122583 U CN202021122583 U CN 202021122583U CN 212792462 U CN212792462 U CN 212792462U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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Abstract
The utility model discloses a novel horizontal slitter edge machine, which comprises a fixed frame mounting base and a movable frame mounting base, wherein the upper end part of the fixed frame mounting base is screwed with a fixed mounting frame which is provided with a rear-end main shaft, and the front end part of the rear-end main shaft is fastened and sleeved with a rear-end material receiving frame; the movable mounting frame driven by a movable frame driving mechanism is arranged on the upper end side of the movable frame mounting base and is provided with a front end main shaft driven by a variable frequency speed reducing motor, and the rear end part of the front end main shaft is tightly sleeved with a front end material receiving frame; the material pressing mounting frame at the upper end part of the fixed mounting frame is provided with a lifting material pressing assembly, and the lifting material pressing assembly comprises a lifting movable frame, a lifting driving mechanism and a material pressing roller; the auxiliary support frame of the movable mounting frame is provided with an auxiliary guide assembly, and the auxiliary guide assembly comprises a speed reducer, a driving wheel, an auxiliary supporting seat, a movable swing arm, a waste edge guide head and an intermediate connecting rod. The utility model discloses can realize aluminum plate slitter edge rolling operation automatically high-efficiently, structural design is novel, degree of automation is high.
Description
Technical Field
The utility model relates to a sheet metal cuts production line technical field, especially relates to a novel horizontal slitter edge machine.
Background
In the prior art, a metal plate is generally subjected to shearing processing through a metal plate shearing production line; when the metal plate is sheared by using the metal plate shearing production line, the edges of the left end and the right end of the metal plate can generate waste edges (scraps), and the waste edges are continuously produced along with the continuous shearing of the metal plate.
It should be noted that, in the prior art, the slitter edge of the metal plate is generally wound by a corresponding slitter edge machine, and the slitter edge winding operation and the metal plate shearing action are performed synchronously, that is, the slitter edge winding operation is performed while shearing. However, for the aluminum plate slitter edge generated by aluminum plate shearing, the manner of rolling the aluminum plate slitter edge while shearing easily causes the continuous aluminum plate slitter edge to break, and the slitter edge rolling operation is unstable.
In view of the above situation, it is necessary to design a slitter for rolling aluminum plate slitter edges for an aluminum plate shearing production line.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a novel horizontal slitter edge machine to prior art's is not enough, this novel horizontal slitter edge machine structural design is novel, degree of automation is high, and can realize aluminum plate slitter edge rolling operation automatically high-efficiently.
In order to achieve the above purpose, the present invention is achieved by the following technical solutions.
A novel horizontal slitter edge machine comprises a fixed frame mounting base, a movable frame mounting base located on the front end side of the fixed frame mounting base, a fixed mounting frame is screwed on the upper end portion of the fixed frame mounting base, a rear end spindle horizontally extending along the front-back direction is mounted on the fixed mounting frame, the rear end portion of the rear end spindle is mounted on the fixed mounting frame through a bearing seat, the front end portion of the rear end spindle extends to the front end side of the fixed mounting frame, a rear end material collecting frame is tightly and fixedly sleeved on the front end side of the fixed mounting frame on the front end side of the rear end spindle, the rear end material collecting frame comprises a rear end winding portion in a conical shape, the outline outer diameter value of the rear end winding portion is gradually reduced from back to front, and the rear end edge portion of the rear end winding portion is provided with a rear end material blocking portion which;
the upper end side of the movable frame mounting base is provided with a movable mounting frame which can horizontally move back and forth relatively, the movable mounting frame is provided with a movable frame driving mechanism, and the movable frame driving mechanism is in driving connection with the movable mounting frame; the movable mounting frame is provided with a front end main shaft which is axially aligned with the rear end main shaft, the front end part of the front end main shaft is arranged on the movable mounting frame through a bearing seat, and the rear end part of the front end main shaft extends to the rear end side of the movable mounting frame; a variable-frequency speed reducing motor is screwed on the side of the front-end main shaft of the movable mounting frame, and a power output shaft of the variable-frequency speed reducing motor is connected with the front end part of the front-end main shaft through a coupler; the rear end part of the front end main shaft is fixedly sleeved with a front end material collecting frame on the rear end side of the movable mounting frame, the front end material collecting frame comprises a conical front end winding part, the outline outer diameter value of the front end winding part is gradually reduced from front to back, and the edge part of the front end winding part is provided with a front end material blocking part which protrudes and extends outwards in the radial direction; when the movable mounting frame moves backwards to a proper position and the front end material receiving frame is aligned with the rear end material receiving frame and closed, the front end winding part and the rear end winding part are in rotation stopping connection through the rotation stopping key;
the upper end part of the fixed mounting frame is provided with a material pressing mounting frame in a threaded manner, the front end part of the material pressing mounting frame is provided with a lifting material pressing assembly positioned above the rear material receiving frame, the lifting material pressing assembly comprises a lifting movable frame, the front end part of the material pressing mounting frame is provided with a lifting driving mechanism corresponding to the lifting movable frame, and the lifting driving mechanism is in driving connection with the lifting movable frame; a material pressing roller with a mandrel axis horizontally extending along the front-rear direction is arranged on the lower end side of the lifting movable frame, and the mandrel of the material pressing roller is arranged on the lifting movable frame through a bearing seat;
the movable mounting frame is also provided with an auxiliary support frame by a screw at the side of the front end main shaft, the auxiliary support frame is provided with an auxiliary guide assembly, the auxiliary guide assembly comprises a speed reducer which is arranged on the auxiliary support frame by a screw, a power input shaft of the speed reducer and the front end main shaft synchronously rotate, and a power output shaft of the speed reducer is tightly sleeved with a driving wheel; the auxiliary support frame is provided with an auxiliary support seat in a threaded manner at the side of the speed reducer, the auxiliary support seat is hinged with a movable swing arm through a pivot, a slitter edge guide head for a slitter edge to pass through is arranged at the free end of the movable swing arm, an intermediate connecting rod is arranged between the driving wheel and the movable swing arm, one end of the intermediate connecting rod is hinged with the driving wheel through the pivot, the hinged position of the intermediate connecting rod and the driving wheel deviates from the rotation center of the driving wheel, and the other end of the intermediate connecting rod is hinged with the middle part of.
The movable frame driving mechanism comprises a fixed oil cylinder seat, a movable frame driving oil cylinder is arranged between the fixed oil cylinder seat and the movable mounting frame, the rear end part of a cylinder body of the movable frame driving oil cylinder is hinged to the fixed oil cylinder seat through a pivot, a movable frame hinge seat is mounted on the movable mounting frame in a threaded mode, and the movable frame hinge seat is hinged to the extending end part of a piston rod of the movable frame driving oil cylinder through the pivot.
The movable frame mounting base comprises a left mounting base and a right mounting base, the left mounting base is positioned on the left end side of the right mounting base, the left mounting base and the right mounting base are right opposite to each other and are arranged at intervals, and the movable frame driving oil cylinder is positioned between the left mounting base and the right mounting base;
the left mounting base is provided with a left guide groove which extends linearly along the front-back direction, and the right mounting base is provided with a right guide groove which extends linearly along the front-back direction; the movable mounting bracket spiral shell is equipped with left side guide piece, right side guide piece, and left side guide piece inlays and inserts in the left side guiding groove, and right side guide piece inlays and inserts in the right side guiding groove.
When the movable mounting frame moves backwards to a proper position and the front end material receiving frame and the rear end material receiving frame are aligned and closed, the rotation stopping key is inserted in the rotation stopping groove;
or, the front end part of the rear end winding part is provided with a rotation stopping key, the rear end part of the front end winding part is provided with a rotation stopping groove, and when the movable mounting frame moves backwards in place and the front end material receiving frame is aligned with the rear end material receiving frame and closed, the rotation stopping key is inserted into the rotation stopping groove.
The lifting driving mechanism comprises a lifting driving oil cylinder which is screwed at the front end part of the material pressing mounting frame and moves up and down, and the extending end part of a piston rod of the lifting driving oil cylinder penetrates through the material pressing mounting frame and extends to the lower end side of the material pressing mounting frame;
an oil cylinder joint is screwed at the upper end part of the lifting movable frame and is connected with the extending end part of a piston rod of the lifting driving oil cylinder.
The lifting movable frame is provided with a lifting guide pillar which is vertically arranged in a threaded manner, the material pressing mounting frame is provided with a lifting guide sleeve in a threaded manner corresponding to the lifting guide pillar, and the lifting guide pillar is embedded in a central hole of the lifting guide sleeve.
The front end spindle or the coupling sleeve is provided with a driving chain wheel, a power input shaft of the speed reducer is sleeved with a driven chain wheel, and a transmission chain is wound between the driving chain wheel and the driven chain wheel.
The waste edge guide head comprises an upper side plate, a lower side plate, a front side plate and a rear side plate, wherein the upper side plate is positioned on the upper end side of the lower side plate, the upper side plate and the lower side plate are arranged at intervals up and down;
two transverse guide rollers which are vertically arranged and spaced front and back are arranged between the upper side plate and the lower side plate respectively, the upper end part of a mandrel of each transverse guide roller is connected with the upper side plate respectively, and the lower end part of the mandrel of each transverse guide roller is connected with the lower side plate respectively;
two longitudinal guide rollers which are transversely arranged and vertically spaced are arranged between the front side plate and the rear side plate respectively, the front end part of a mandrel of each longitudinal guide roller is connected with the front side plate respectively, and the rear end part of the mandrel of each longitudinal guide roller is connected with the rear side plate respectively.
The utility model has the advantages that: the utility model discloses a novel horizontal slitter edge machine, it includes mount installation base, be located mount installation base front end side's adjustable shelf installation base, the upper end spiral shell of mount installation base is equipped with fixed mounting bracket, fixed mounting bracket is installed the rear end main shaft that extends along fore-and-aft direction level, the rear end of rear end main shaft passes through the bearing frame and installs in fixed mounting bracket, the front end of rear end main shaft extends to the front end side of fixed mounting bracket, the front end of rear end main shaft is fastened the cover in the front end side of fixed mounting bracket and is equipped with rear end receipts work or material rest, rear end receipts work or material rest is including the rear end coiling portion that is the toper shape, the profile external diameter value of rear end coiling portion diminishes from back to front gradually, the rear end edge of rear end coiling portion is provided with the rear end fender material portion that the radial outside protrusion extends; the upper end side of the movable frame mounting base is provided with a movable mounting frame which can horizontally move back and forth relatively, the movable mounting frame is provided with a movable frame driving mechanism, and the movable frame driving mechanism is in driving connection with the movable mounting frame; the movable mounting frame is provided with a front end main shaft which is axially aligned with the rear end main shaft, the front end part of the front end main shaft is arranged on the movable mounting frame through a bearing seat, and the rear end part of the front end main shaft extends to the rear end side of the movable mounting frame; a variable-frequency speed reducing motor is screwed on the side of the front-end main shaft of the movable mounting frame, and a power output shaft of the variable-frequency speed reducing motor is connected with the front end part of the front-end main shaft through a coupler; the rear end part of the front end main shaft is fixedly sleeved with a front end material collecting frame on the rear end side of the movable mounting frame, the front end material collecting frame comprises a conical front end winding part, the outline outer diameter value of the front end winding part is gradually reduced from front to back, and the edge part of the front end winding part is provided with a front end material blocking part which protrudes and extends outwards in the radial direction; when the movable mounting frame moves backwards to a proper position and the front end material receiving frame is aligned with the rear end material receiving frame and closed, the front end winding part and the rear end winding part are in rotation stopping connection through the rotation stopping key; the upper end part of the fixed mounting frame is provided with a material pressing mounting frame in a threaded manner, the front end part of the material pressing mounting frame is provided with a lifting material pressing assembly positioned above the rear material receiving frame, the lifting material pressing assembly comprises a lifting movable frame, the front end part of the material pressing mounting frame is provided with a lifting driving mechanism corresponding to the lifting movable frame, and the lifting driving mechanism is in driving connection with the lifting movable frame; a material pressing roller with a mandrel axis horizontally extending along the front-rear direction is arranged on the lower end side of the lifting movable frame, and the mandrel of the material pressing roller is arranged on the lifting movable frame through a bearing seat; the movable mounting frame is also provided with an auxiliary support frame by a screw at the side of the front end main shaft, the auxiliary support frame is provided with an auxiliary guide assembly, the auxiliary guide assembly comprises a speed reducer which is arranged on the auxiliary support frame by a screw, a power input shaft of the speed reducer and the front end main shaft synchronously rotate, and a power output shaft of the speed reducer is tightly sleeved with a driving wheel; the auxiliary support frame is provided with an auxiliary support seat in a threaded manner at the side of the speed reducer, the auxiliary support seat is hinged with a movable swing arm through a pivot, a slitter edge guide head for a slitter edge to pass through is arranged at the free end of the movable swing arm, an intermediate connecting rod is arranged between the driving wheel and the movable swing arm, one end of the intermediate connecting rod is hinged with the driving wheel through the pivot, the hinged position of the intermediate connecting rod and the driving wheel deviates from the rotation center of the driving wheel, and the other end of the intermediate connecting rod is hinged with the middle part of. Through the structure design, the utility model discloses can realize aluminum plate slitter edge rolling operation automatically and high-efficiently, just the utility model has the advantages of structural design is novel, degree of automation is high.
Drawings
The invention will be further described with reference to the drawings, but the embodiments in the drawings do not constitute any limitation of the invention.
Fig. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural view of another view angle of the present invention.
Fig. 3 is a schematic structural diagram of another view angle of the present invention.
Fig. 4 is a schematic structural diagram of the auxiliary guide assembly of the present invention.
Fig. 5 is a schematic structural view of the slitter edge guide head of the present invention.
Fig. 1 to 5 include:
11-fixed frame mounting base 12-movable frame mounting base
121-left side mounting base 1211-left side guide groove
122-right side mounting base 1221-right side guide groove
13-fixed mounting rack 14-swage mounting rack
21-rear end main shaft 22-rear end material collecting frame
221-rear end winding part 222-rear end stopping part
31-flexible mounting rack 311-auxiliary support rack
312 left guide block 313 right guide block
32-movable frame driving mechanism 321-fixed oil cylinder seat
322-movable frame driving oil cylinder 323-movable frame hinge seat
41-front end main shaft 42-variable frequency speed reducing motor
43-coupler 44-front end material collecting frame
441-front end winding portion 442-front end stop portion
5-lifting material pressing component 51-lifting movable frame
52-lifting driving mechanism 521-lifting driving oil cylinder
522-oil cylinder joint 523-lifting guide post
524 lifting guide sleeve 53 and nip roll
6-auxiliary guide assembly 61-speed reducer
62-driving wheel 63-auxiliary supporting seat
64-movable swing arm 65-slitter edge guide head
651-Upper side panel 652-lower side panel
653-front side plate 654-rear side plate
655-transverse guide roller 656-longitudinal guide roller
66-intermediate connecting rod 71-driving chain wheel
72-driven sprocket.
Detailed Description
The present invention will be described with reference to specific embodiments.
As shown in fig. 1 to 4, a novel horizontal slitter edge machine comprises a fixing frame mounting base 11, be located the adjustable shelf mount base 12 of mount base 11 front end side, fixed mounting frame 13 is equipped with to the upper end spiral shell of mount base 11, fixed mounting frame 13 has installed the rear end main shaft 21 along the horizontal extension of fore-and-aft direction, the rear end of rear end main shaft 21 passes through the bearing frame and installs in fixed mounting frame 13, the front end of rear end main shaft 21 extends to the front end side of fixed mounting frame 13, the front end of rear end main shaft 21 is equipped with rear end material receiving frame 22 in the front end side fastening cover of fixed mounting frame 13, rear end material receiving frame 22 is including the rear end portion 221 of rolling up that is the toper shape, the profile external diameter value of rear end portion 221 of rolling up diminishes from back to preceding gradually, the rear end edge portion of rear end portion 221 of rolling up is provided with radial outside protrusion extension's rear end fender material portion.
Wherein, the upper end side of the movable frame mounting base 12 is provided with a movable mounting frame 31 which can horizontally move back and forth relatively, the movable mounting frame 31 is provided with a movable frame driving mechanism 32, and the movable frame driving mechanism 32 is in driving connection with the movable mounting frame 31; the movable mounting frame 31 is provided with a front end spindle 41 arranged in axial alignment with the rear end spindle 21, the front end part of the front end spindle 41 is mounted on the movable mounting frame 31 through a bearing seat, and the rear end part of the front end spindle 41 extends to the rear end side of the movable mounting frame 31; the movable mounting frame 31 is provided with a variable-frequency speed reducing motor 42 in a threaded manner at the side of the front-end main shaft 41, and a power output shaft of the variable-frequency speed reducing motor 42 is connected with the front end part of the front-end main shaft 41 through a coupler 43; a front end material collecting frame 44 is tightly sleeved at the rear end part of the movable mounting frame 31 at the rear end part of the front end main shaft 41, the front end material collecting frame 44 comprises a conical front end winding part 441, the outline outer diameter value of the front end winding part 441 is gradually reduced from the front to the rear, and a front end material blocking part 442 which protrudes and extends outwards in the radial direction is arranged at the front end edge part of the front end winding part 441; when the movable mounting frame 31 is moved backward into position and the front end winding part 44 is aligned with the rear end winding part 22 and closed, the front end winding part 441 and the rear end winding part 221 are in rotation stop connection by the rotation stop key. It should be explained that the rear end portion of the front end winding portion 441 is provided with a rotation stop key, the front end portion of the rear end winding portion 221 is provided with a rotation stop groove, and when the movable mounting frame 31 moves backwards to a proper position and the front end material receiving frame 44 is aligned with the rear end material receiving frame 22 and closed, the rotation stop key is inserted into the rotation stop groove; alternatively, the front end of the rear winding part 221 is provided with a rotation stop key, the rear end of the front winding part 441 is provided with a rotation stop groove, and the rotation stop key is inserted into the rotation stop groove when the movable mounting frame 31 moves backward to a proper position and the front material receiving frame 44 is aligned with the rear material receiving frame 22 and closed.
It should be explained that the movable frame driving mechanism 32 includes a fixed cylinder seat 321, a movable frame driving cylinder 322 is installed between the fixed cylinder seat 321 and the movable mounting frame 31, a rear end portion of the movable frame driving cylinder 322 is hinged to the fixed cylinder seat 321 through a pivot, a movable frame hinge seat 323 is screwed to the movable mounting frame 31, and the movable frame hinge seat 323 is hinged to an extending end portion of a piston rod of the movable frame driving cylinder 322 through a pivot. For guaranteeing the steady and reliable front and back horizontal migration of movable mounting bracket 31, the utility model discloses a following structural design, it is concrete: the movable frame mounting base 12 comprises a left mounting base 121 and a right mounting base 122, the left mounting base 121 is positioned at the left end side of the right mounting base 122, the left mounting base 121 and the right mounting base 122 are right opposite and arranged at intervals, and the movable frame driving oil cylinder 322 is positioned between the left mounting base 121 and the right mounting base 122; the left mounting base 121 is provided with a left guide groove 1211 extending linearly in the front-rear direction, and the right mounting base 122 is provided with a right guide groove 1221 extending linearly in the front-rear direction; the movable mount 31 is screwed with a left guide block 312 and a right guide block 313, the left guide block 312 is inserted into the left guide groove 1211, and the right guide block 313 is inserted into the right guide groove 1221.
Further, a material pressing mounting frame 14 is screwed on the upper end portion of the fixed mounting frame 13, a lifting material pressing assembly 5 located above the rear material receiving frame 22 is mounted on the front end portion of the material pressing mounting frame 14, the lifting material pressing assembly 5 comprises a lifting movable frame 51, a lifting driving mechanism 52 is mounted on the front end portion of the material pressing mounting frame 14 corresponding to the lifting movable frame 51, and the lifting driving mechanism 52 is in driving connection with the lifting movable frame 51; a nip roll 53 having a mandrel axis extending horizontally in the front-rear direction is installed on the lower end side of the movable elevation frame 51, and the mandrel of the nip roll 53 is attached to the movable elevation frame 51 through a bearing block. The lifting driving mechanism 52 comprises a lifting driving oil cylinder 521 which is screwed at the front end part of the swaging installation frame 14 and moves up and down, and the extending end part of a piston rod of the lifting driving oil cylinder 521 passes through the swaging installation frame 14 and extends to the lower end side of the swaging installation frame 14; the upper end of the lifting movable frame 51 is screwed with a cylinder joint 522, and the cylinder joint 522 is connected with the extending end of the piston rod of the lifting driving cylinder 521. For guaranteeing that lift adjustable shelf 51 reciprocates steadily reliably, the utility model discloses a following guide structure design, it is specific: the lifting movable frame 51 is screwed with a lifting guide pillar 523 which is vertically arranged, the swaging installation frame 14 is screwed with a lifting guide sleeve 524 corresponding to the lifting guide pillar 523, and the lifting guide pillar 523 is embedded in a central hole of the lifting guide sleeve 524.
Furthermore, an auxiliary support frame 311 is further screwed on the side of the front end main shaft 41 of the movable mounting frame 31, an auxiliary guide assembly 6 is arranged on the auxiliary support frame 311, the auxiliary guide assembly 6 comprises a speed reducer 61 screwed on the auxiliary support frame 311, a power input shaft of the speed reducer 61 and the front end main shaft 41 synchronously rotate, and a power output shaft of the speed reducer 61 is tightly sleeved with a driving wheel 62; an auxiliary supporting seat 63 is screwed on the side of the auxiliary supporting frame 311 on the speed reducer 61, a movable swing arm 64 is hinged on the auxiliary supporting seat 63 through a pivot, a slitter edge guide head 65 for a slitter edge to pass through is arranged at the free end of the movable swing arm 64, an intermediate connecting rod 66 is arranged between the driving wheel 62 and the movable swing arm 64, one end of the intermediate connecting rod 66 is hinged with the driving wheel 62 through a pivot, the hinged position of the intermediate connecting rod 66 and the driving wheel 62 deviates from the rotation center of the driving wheel 62, and the other end of the intermediate connecting rod 66 is hinged with the middle part of the movable swing arm. For guaranteeing the power input shaft and the front end main shaft 41 synchronous rotation of speed reducer 61, the utility model discloses a following structural design, it is concrete: the front end main shaft 41 or the coupling 43 is sleeved with a driving sprocket 71, the power input shaft of the speed reducer 61 is sleeved with a driven sprocket 72, and a transmission chain is wound between the driving sprocket 71 and the driven sprocket 72.
As a preferred embodiment, the waste edge guide head 65 of the present invention may adopt the following structural design: the waste edge guide head 65 comprises an upper side plate 651, a lower side plate 652, a front side plate 653 and a rear side plate 654, wherein the upper side plate 651 is positioned on the upper end side of the lower side plate 652, the upper side plate 651 and the lower side plate 652 are arranged at intervals up and down, the front side plate 653 is positioned on the front end side of the rear side plate 654, the front side plate 653 and the rear side plate 654 are arranged at intervals up and down, and the lower side plate 652 is screwed and fastened on the free end part of the movable swing arm 64; two transverse guide rollers 655 which are vertically arranged and spaced front and back are respectively arranged between the upper side plate 651 and the lower side plate 652, the upper end part of a mandrel of each transverse guide roller 655 is respectively connected with the upper side plate 651, and the lower end part of the mandrel of each transverse guide roller 655 is respectively connected with the lower side plate 652; two longitudinal guide rollers 656 which are respectively transversely arranged and vertically spaced are arranged between the front side plate 653 and the rear side plate 654, the front end of the mandrel of each longitudinal guide roller 656 is respectively connected with the front side plate 653, and the rear end of the mandrel of each longitudinal guide roller 656 is respectively connected with the rear side plate 654.
It should be further noted that the fixed frame mounting base 11, the movable frame mounting base 12 and the fixed cylinder base 321 of the present invention may be mounted on a base together, or may be mounted on the ground respectively.
The following describes the present invention in detail with reference to specific working processes, specifically:
a. the continuous waste edges generated when the aluminum plate coil stock is continuously sheared through the metal plate shearing production line fall into and are temporarily stored in the pit;
b. the movable frame driving oil cylinder 322 acts and the movable frame driving oil cylinder 322 pushes the movable mounting frame 31 backwards, and the movable mounting frame 31 drives the front end spindle 41, the variable frequency speed reducing motor 42 and the front end material receiving frame 44 to move backwards; after the movable mounting frame 31 is moved backwards to the right position, the front end material receiving frame 44 is aligned with the rear end material receiving frame 22 and closed, and the front end winding part 441 is in rotation stopping connection with the rear end winding part 221 through a rotation stopping key;
c. one end part of the aluminum plate slitter edge in the pit passes through the slitter edge guide head 65, and the one end part of the aluminum plate slitter edge specifically passes through a gap between two transverse guide rollers 655 and a gap between two longitudinal guide rollers 656, and then the end part of the aluminum plate slitter edge passing through the slitter edge guide head 65 is drawn and wound on the front end winding part 441 or the rear end winding part 221;
d. the lifting driving oil cylinder 521 acts and drives the lifting movable frame 51 to move downwards, the downwards moving lifting movable frame 51 drives the material pressing roller 53 to synchronously move downwards, and the material pressing roller 53 which moves downwards to the position is positioned above the front end winding part 441 and the rear end winding part 221;
e. starting the variable-frequency speed reducing motor 42, wherein the variable-frequency speed reducing motor 42 drives the front-end spindle 41 and the front-end material collecting frame 44 to rotate through the coupler 43, and because the front-end winding part 441 of the front-end material collecting frame 44 is in rotation stopping connection with the rear-end winding part 221 of the rear-end material collecting frame 22, the rear-end spindle 22 and the rear-end spindle 21 synchronously rotate along with the front-end spindle 41 and the front-end material collecting frame 44 at the moment, a winding structure consisting of the front-end material collecting frame 44 and the rear-end material collecting frame 22 rotates and winds up the waste edges of the continuous aluminum plates; in the process, the front end spindle 41 or the coupling 43 drives the speed reducer 61 to act through a chain transmission mechanism, a power output shaft of the speed reducer 61 drives the transmission wheel 62 to rotate, the rotating transmission wheel 62 drives the movable swing arm 64 to swing back and forth in a reciprocating manner through the middle connecting rod 66, the movable swing arm 64 swinging back and forth in a reciprocating manner drives the scrap edge guide head 65 to swing back and forth in a reciprocating manner, and the scrap edge guide head 65 swinging back and forth in a reciprocating manner drives the aluminum plate scrap plate to move back and forth, so that the continuous aluminum plate scrap edge is wound on the winding structure in a layered; in the passing layer in which the scrap edge guide head 65 pulls the scrap edge of the aluminum plate to move back and forth, the scrap edge of the aluminum plate is in rolling contact with the longitudinal guide roller 656 and the transverse guide roller 655, and the longitudinal guide roller 656 and the transverse guide roller 655 can prevent the scrap edge of the aluminum plate which is continuously conveyed from being in contact with the side plate of the scrap edge guide head 65, so that the scrap edge guide head 65 is prevented from being rapidly worn; in addition, in the process, the pressure roller is in rolling contact with the aluminum plate slitter edge, and the pressure roller 53 can press the aluminum plate slitter edge downwards, so that the aluminum plate slitter edge is prevented from jumping during winding, and the aluminum plate slitter edge is prevented from jumping violently to cause fracture.
f. After the aluminum plate slitter edge is completely rolled, the variable-frequency speed reducing motor 42 stops operating, the lifting driving oil cylinder 521 operates and drives the lifting movable frame 51 to move upwards and reset, the movable frame driving oil cylinder 322 operates and pulls the movable mounting frame 31, the front end spindle 41 and the front end material receiving frame 44 to move forwards, in the process, the front end material receiving frame 44 is separated from the rear end material receiving frame 22, and the aluminum plate slitter edge rolled into a bundle shape slides down from the front end winding part 441 and the rear end winding part 221 and falls down due to the self gravity of the aluminum plate slitter edge rolled into the bundle shape because the front end winding part 441 and the rear end winding part 221 are respectively in a conical shape.
Synthesize the above-mentioned circumstances and know, through above-mentioned structural design, the utility model discloses can realize aluminum plate slitter edge rolling operation automatically and high-efficiently, just the utility model has the advantages of structural design is novel, degree of automation is high.
The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.
Claims (8)
1. The utility model provides a novel horizontal slitter edge machine which characterized in that: comprises a fixed mount mounting base (11), the movable frame mounting base (12) is located on the front end side of the fixed frame mounting base (11), a fixed mounting frame (13) is screwed on the upper end portion of the fixed frame mounting base (11), a rear end spindle (21) horizontally extending in the front-rear direction is mounted on the fixed mounting frame (13) through a bearing seat, the front end portion of the rear end spindle (21) extends to the front end side of the fixed mounting frame (13), a rear end material receiving frame (22) is tightly sleeved on the front end side of the fixed mounting frame (13) at the front end portion of the rear end spindle (21), the rear end material receiving frame (22) comprises a conical rear end winding portion (221), the outline outer diameter value of the rear end winding portion (221) is gradually reduced from back to front, and a rear end material blocking portion (222) which radially extends in a protruding mode towards the outside is arranged at the edge portion of the rear end winding portion (221);
the upper end side of the movable frame mounting base (12) is provided with a movable mounting frame (31) which can horizontally move back and forth relatively, the movable mounting frame (31) is provided with a movable frame driving mechanism (32), and the movable frame driving mechanism (32) is in driving connection with the movable mounting frame (31); the movable mounting rack (31) is provided with a front end spindle (41) which is axially aligned with the rear end spindle (21), the front end part of the front end spindle (41) is mounted on the movable mounting rack (31) through a bearing seat, and the rear end part of the front end spindle (41) extends to the rear end side of the movable mounting rack (31); a variable-frequency speed reducing motor (42) is screwed on the side of the front-end main shaft (41) of the movable mounting frame (31), and a power output shaft of the variable-frequency speed reducing motor (42) is connected with the front end part of the front-end main shaft (41) through a coupling (43); the rear end part of the front end main shaft (41) is tightly sleeved with a front end material receiving frame (44) on the rear end side of the movable mounting frame (31), the front end material receiving frame (44) comprises a conical front end winding part (441), the outline outer diameter value of the front end winding part (441) is gradually reduced from front to back, and the edge part of the front end edge of the front end winding part (441) is provided with a front end material blocking part (442) which radially protrudes outwards and extends; when the movable mounting frame (31) moves backwards to a proper position and the front end material receiving frame (44) is aligned with the rear end material receiving frame (22) and closed, the front end winding part (441) is in rotation stopping connection with the rear end winding part (221) through a rotation stopping key;
the upper end part of the fixed mounting frame (13) is provided with a material pressing mounting frame (14) in a threaded manner, the front end part of the material pressing mounting frame (14) is provided with a lifting material pressing assembly (5) positioned above the rear material receiving frame (22), the lifting material pressing assembly (5) comprises a lifting movable frame (51), the front end part of the material pressing mounting frame (14) is provided with a lifting driving mechanism (52) corresponding to the lifting movable frame (51), and the lifting driving mechanism (52) is in driving connection with the lifting movable frame (51); a material pressing roller (53) with a mandrel axis horizontally extending along the front-back direction is arranged at the lower end side of the lifting movable frame (51), and the mandrel of the material pressing roller (53) is arranged on the lifting movable frame (51) through a bearing seat;
an auxiliary support frame (311) is further screwed on the side of the front end main shaft (41) of the movable mounting frame (31), an auxiliary guide assembly (6) is arranged on the auxiliary support frame (311), the auxiliary guide assembly (6) comprises a speed reducer (61) screwed on the auxiliary support frame (311), a power input shaft of the speed reducer (61) and the front end main shaft (41) synchronously rotate, and a power output shaft of the speed reducer (61) is tightly sleeved with a driving wheel (62); an auxiliary supporting seat (63) is arranged on the auxiliary supporting frame (311) at the side of the speed reducer (61) in a threaded mode, a movable swing arm (64) is hinged to the auxiliary supporting seat (63) through a pivot, a slitter edge guide head (65) for a slitter edge to penetrate through is arranged at the free end portion of the movable swing arm (64), an intermediate connecting rod (66) is arranged between the driving wheel (62) and the movable swing arm (64), one end portion of the intermediate connecting rod (66) is hinged to the driving wheel (62) through the pivot, the hinged position of the intermediate connecting rod (66) and the driving wheel (62) deviates from the rotation center of the driving wheel (62), and the other end portion of the intermediate connecting rod (66) is hinged to the middle.
2. The novel horizontal slitter edge machine according to claim 1, wherein: the adjustable shelf driving mechanism (32) comprises a fixed oil cylinder seat (321), the fixed oil cylinder seat (321) and the adjustable shelf driving oil cylinder (322) are installed between the movable mounting frames (31), the rear end parts of the cylinder bodies of the adjustable shelf driving oil cylinders (322) are hinged to the fixed oil cylinder seat (321) through pivots, the adjustable shelf hinged seat (323) is installed on each movable mounting frame (31) in a threaded mode, and the adjustable shelf hinged seat (323) is hinged to the extending end part of the piston rod of the adjustable shelf driving oil cylinder (322) through the pivots.
3. The novel horizontal slitter edge machine according to claim 2, wherein: the movable frame mounting base (12) comprises a left side mounting base (121) and a right side mounting base (122), the left side mounting base (121) is located on the left end side of the right side mounting base (122), the left side mounting base (121) and the right side mounting base (122) are right-left opposite and arranged at intervals, and the movable frame driving oil cylinder (322) is located between the left side mounting base (121) and the right side mounting base (122);
the left mounting base (121) is provided with a left guide groove (1211) which extends linearly along the front-back direction, and the right mounting base (122) is provided with a right guide groove (1221) which extends linearly along the front-back direction; the movable mounting frame (31) is provided with a left guide block (312) and a right guide block (313) in a threaded manner, the left guide block (312) is embedded in the left guide groove (1211), and the right guide block (313) is embedded in the right guide groove (1221).
4. The novel horizontal slitter edge machine according to claim 1, wherein: the rear end part of the front end winding part (441) is provided with a rotation stopping key, the front end part of the rear end winding part (221) is provided with a rotation stopping groove, and when the movable mounting frame (31) moves backwards to a proper position and the front end material receiving frame (44) is aligned with the rear end material receiving frame (22) and closed, the rotation stopping key is embedded in the rotation stopping groove;
or the front end part of the rear end winding part (221) is provided with a rotation stopping key, the rear end part of the front end winding part (441) is provided with a rotation stopping groove, and when the movable mounting frame (31) moves backwards in place and the front end material receiving frame (44) is aligned with the rear end material receiving frame (22) and closed, the rotation stopping key is inserted into the rotation stopping groove.
5. The novel horizontal slitter edge machine according to claim 1, wherein: the lifting driving mechanism (52) comprises a lifting driving oil cylinder (521) which is screwed at the front end part of the swaging installation frame (14) and moves up and down, and the extending end part of a piston rod of the lifting driving oil cylinder (521) penetrates through the swaging installation frame (14) and extends to the lower end side of the swaging installation frame (14);
an oil cylinder joint (522) is screwed at the upper end part of the lifting movable frame (51), and the oil cylinder joint (522) is connected with the extending end part of a piston rod of the lifting driving oil cylinder (521).
6. The novel horizontal slitter edge machine according to claim 5, wherein: the lifting movable frame (51) is provided with a lifting guide pillar (523) which is vertically arranged in a threaded manner, the swaging installation frame (14) is provided with a lifting guide sleeve (524) in a threaded manner corresponding to the lifting guide pillar (523), and the lifting guide pillar (523) is embedded in a central hole of the lifting guide sleeve (524).
7. The novel horizontal slitter edge machine according to claim 1, wherein: the front end main shaft (41) or the shaft coupling (43) is sleeved with a driving chain wheel (71), a power input shaft of the speed reducer (61) is sleeved with a driven chain wheel (72), and a transmission chain is wound between the driving chain wheel (71) and the driven chain wheel (72).
8. The novel horizontal slitter edge machine according to claim 1, wherein: the waste edge guide head (65) comprises an upper side plate (651), a lower side plate (652), a front side plate (653) and a rear side plate (654), wherein the upper side plate (651) is positioned at the upper end side of the lower side plate (652), the upper side plate (651) and the lower side plate (652) are arranged at intervals up and down, the front side plate (653) is positioned at the front end side of the rear side plate (654), the front side plate (653) and the rear side plate (654) are arranged at intervals up and down, and the lower side plate (652) is screwed and fastened at the free end part of the movable swing arm (64);
two transverse guide rollers (655) which are vertically arranged and spaced front and back are arranged between the upper side plate (651) and the lower side plate (652), the upper end part of a mandrel of each transverse guide roller (655) is connected with the upper side plate (651), and the lower end part of the mandrel of each transverse guide roller (655) is connected with the lower side plate (652);
two longitudinal guide rollers (656) which are respectively transversely arranged and vertically spaced are arranged between the front side plate (653) and the rear side plate (654), the front end of the mandrel of each longitudinal guide roller (656) is respectively connected with the front side plate (653), and the rear end of the mandrel of each longitudinal guide roller (656) is respectively connected with the rear side plate (654).
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111672929A (en) * | 2020-06-17 | 2020-09-18 | 东莞市金峥机械有限公司 | Novel horizontal slitter edge machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111672929A (en) * | 2020-06-17 | 2020-09-18 | 东莞市金峥机械有限公司 | Novel horizontal slitter edge machine |
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