CN217626570U - Adjustable winding device for zinc strip - Google Patents

Abstract

The application relates to the technical field of winding devices, in particular to an adjustable winding device for a zinc strip. The winding device comprises a motor, a driving shaft and a pressing mechanism which is arranged on the driving shaft and is embedded into the zinc strip winding barrel, one end of the driving shaft is connected with the motor, the other end of the driving shaft is used for driving the zinc strip winding barrel to rotate, the pressing mechanism comprises more than one pressing sheet which is used for pressing against the inner wall of the zinc strip winding barrel, the pressing sheets are arranged along the circumferential direction of the zinc strip winding barrel and only slide along the radial direction, and a driving mechanism which is used for driving the pressing sheets to move is arranged on the driving shaft. The present application has the following effects: the driving mechanism drives the abutting sheet to slide radially to abut against the inner wall of the zinc strip winding barrel, the driving shaft is driven to rotate when the motor works, the rotating driving shaft drives the abutting mechanism which is connected to the driving shaft to rotate, and the abutting mechanism drives the zinc strip winding barrel to rotate when rotating, so that the discharging work of the zinc strip is realized.

Description

Adjustable winding device for zinc strip

Technical Field

The application relates to the technical field of winding devices, in particular to an adjustable winding device for a zinc strip.

Background

The zinc belt is a semi-finished product in the process of producing the zinc cylinder, a worker of a zinc cylinder production line performs processing steps such as melting, cooling and polishing on a zinc ingot to obtain the zinc belt, the zinc belt is wound to a winding device, the winding device feeds the zinc belt into a punching device of the next process, in the punching process, round-hole-shaped zinc particles can be separated from the punched zinc belt, the collecting device collects the separated zinc particles, and finally, after the zinc particles are polished, the zinc particles are punched again to obtain the zinc cylinder.

Referring to fig. 1, the winding device includes a motor 110, a driving shaft 120, a rotating disc 140 and a zinc strip winding barrel 101, one end of the driving shaft 120 is connected to the motor 110, the other end is fixedly connected to the rotating disc 140, more than one fixing block 102 extends circumferentially on the outer wall of one end of the zinc strip winding barrel 101, the fixing blocks 102 are fixed to one end face of the rotating disc 140 through bolts, and the zinc strip is wound and collected along the outer wall of the zinc strip winding barrel 101, when the motor 110 works, the motor 110 drives the driving shaft 120 to rotate to drive the rotating disc 140 to rotate, the zinc strip winding barrel 101 fixed to the rotating disc 140 also rotates along with the rotating disc, so that the zinc strip is discharged and is conveyed to the punching device.

Because should avoid having circumferential motion between zinc area coiling bucket and the drive shaft, the event has the requirement of firmness to the relation of connection of rolling disc and zinc area coiling bucket, need follow a plurality of bolts of zinc area coiling bucket outer wall circumference tightening, nevertheless screws up and have a plurality of bolts, leads to dismantling zinc area coiling bucket, and is comparatively troublesome.

SUMMERY OF THE UTILITY MODEL

In order to conveniently dismantle zinc strip winding bucket, the application provides an adjustable take-up device of zinc strip.

The application provides an adjustable take-up device in zinc area adopts following technical scheme: the utility model provides an adjustable take-up device in zinc strip, includes motor and drive shaft, drive shaft one end with the motor links to each other, and the other end is used for driving the zinc strip and coils the bucket and rotate, still includes and keeps away from with the drive shaft the rotating disc that motor one end is fixed to be connected with set up and be in just be used for imbedding the tight mechanism that supports in the zinc strip is coiled the bucket inner wall on the rotating disc, support tight mechanism and include more than one be used for supporting tightly in the zinc strip and coil the piece that supports of bucket inner wall, it is a plurality of support the piece and set up along rotating disc circumference, just support the piece and only slide along radial, be provided with on the rotating disc and be used for ordering about support the actuating mechanism of piece motion.

Through adopting above-mentioned technical scheme, actuating mechanism orders about to support tight piece and radially slide to supporting tightly in the inner wall of zinc strip coiling bucket, and when motor during operation, the drive shaft that links to each other with the motor begins to rotate, and the pivoted drive shaft drives and is used for connecting in the rotation of the tight mechanism of supporting of drive shaft, supports and drives the rotation of zinc strip coiling bucket when tight mechanism pivoted, realizes the blowing work of zinc strip.

Preferably, actuating mechanism include circumference fixed and axial slide connect in the drive rack of rolling disc with connect in being used for of drive rack orders about the regulation pole that the drive rack slided, the drive rack is used for the embedding in zinc area coiling bucket, the drive rack with it links to each other through the bracing to support the piece, the bracing is provided with at least two, bracing one end with it rotates continuously to support the piece, the other end with the drive rack rotates continuously, and is a plurality of all be parallel to each other between the bracing

By adopting the technical scheme, an operator can drive the driving frame to axially slide by only operating the adjusting rod, and the abutting sheet only radially slides, so that when the driving frame axially slides, the inclined strut can rotate around a rotating point between the inclined strut and the driving frame, the inclined angle between the inclined strut and the driving frame can be changed, and the abutting sheet is driven to radially slide; at least two inclined struts are arranged, so that a parallelogram is formed among the inclined struts, the driving frame and the abutting sheets, and the structure is more stable.

Preferably, the rotating disc is provided with a sliding groove along the radial direction, the abutting pieces penetrate through the sliding groove and slide, the sliding groove and the abutting pieces are in one-to-one correspondence, and the abutting pieces slide along the length direction of the sliding groove.

Through adopting above-mentioned technical scheme, owing to support tight piece and be provided with more than one, so with support tight piece one-to-one and supply to support the groove of sliding that tight piece slided and also seted up more than one, the terminal surface area that the rolling disc supplied the slider to wear to establish is great, can set up a plurality of grooves of sliding, and every groove of sliding can not interfere each other, and the groove of sliding set up can play limiting displacement for the radial of slider slides.

Preferably, the abutting piece is fixedly sleeved with a first limiting block, the first limiting block is used for abutting against the end face, close to the zinc strip winding barrel end, of the rotating disc, and the abutting piece is used for penetrating through one end of the rotating disc and detachably connected with a second limiting block.

Through adopting above-mentioned technical scheme, first stopper and second stopper can avoid the possibility that the piece is axial motion to reach the purpose that the piece just radially slided of supporting.

Preferably, the rotating disc is fixedly provided with a limiting sleeve sleeved on the driving frame, the outer walls of the opposite sides of the driving frame radially extend to form sliding blocks, the sliding blocks extend towards the direction away from each other, a driving sliding groove for allowing one end of each sliding block to penetrate and slide is formed in the sleeve wall of the limiting sleeve along the axial direction, and a yielding hole for allowing the abutting piece to penetrate is formed in the side wall of the limiting sleeve.

Through adopting above-mentioned technical scheme, the stop collar is fixed to be set up in the rolling disc, and when the motor was out of work, operating personnel operated the regulation pole, and two are worn to establish in the drive spout and the slider that extends from the opposite side outer wall of carriage, can restrict the carriage and be the possibility of circumferential motion, still slide to the axial of carriage and play the guide effect.

Preferably, the axial thread of the adjusting rod penetrates through the driving frame, one end of the adjusting rod is axially fixed with the rotating disc and rotates in the circumferential direction, and the other end of the adjusting rod is exposed at one end of the driving frame, which is far away from the rotating disc.

Through adopting above-mentioned technical scheme, because adjust pole and rolling disc axial fixity, circumferential direction, so rotate the pole when operating personnel, can realize the axial of driving yoke and slide, the in-process that the driving yoke axial slided orders about to support the tight piece and do radial sliding.

Preferably, a baffle capable of being positioned and axially connected in a sliding manner is arranged on the limiting sleeve, one end of the baffle is connected with the outer wall of the driving frame in a sliding manner, and the baffle is used for abutting against the side face of the zinc belt.

By adopting the technical scheme, because the widths of the zinc strips in different processing batches are possibly different, the baffle is axially positioned, so that the zinc strips wound on the zinc strip winding barrel always keep the state that one side of the zinc strips props against the rotating disc and the other side of the zinc strips props against the baffle, and when the zinc strip winding barrel rotates, the zinc strips can better keep the state of being wound on the zinc strip winding barrel.

Preferably, the one end of baffle is extended there is the forked tail piece, the confession has been seted up along the axial on the outer wall of drive frame the forked tail piece is inserted and is established and the forked tail spacing groove that slides, the forked tail piece is close to the jack has been seted up along the length direction of baffle to the terminal surface of forked tail spacing groove end, the slip is connected with the stopper in the jack, the stopper pass through spacing spring coupling in the hole bottom of jack, more than one confession has been seted up along the axial to the tank bottom of forked tail spacing groove the spacing hole of stopper embedding.

By adopting the technical scheme, the dovetail block is embedded in the dovetail limiting groove, and when the baffle rotates along with the limiting sleeve, the dovetail limiting groove can limit the falling tendency of the baffle; when the dovetail block slides along dovetail limiting groove axial direction, the spring is in the state of compressed, and the stopper slides to the jack in, when stopper and spacing pore pair, the elasticity of spring makes the stopper imbed to spacing downthehole, when adjusting the baffle position, only needs stir the baffle, can make the stopper follow spacing downthehole roll-off, realizes the regulation of baffle.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the driving mechanism drives the abutting sheets to slide to abut against the inner wall of the zinc strip winding barrel in the radial direction, when the motor works, the driving shaft connected with the motor starts to rotate, the rotating driving shaft drives the abutting mechanism connected with the driving shaft to rotate, and the abutting mechanism drives the zinc strip winding barrel to rotate while rotating, so that the discharging work of the zinc strip is realized;

2. because adjust pole and rolling disc axial fixity, circumferential direction, and two sliders that extend on the driving rack outer wall are in same horizontal position, and the slider embedding to the drive spout in, circumferential direction is to the restriction driving rack, so when operating personnel rotate the regulation pole, can realize the axial of driving rack and slide, the in-process that the driving rack axial slided, because the setting in the spacing hole of first stopper and second, the axial motion of piece is supported in the restriction, so can order about to support the piece and be radial sliding.

Drawings

Fig. 1 is a schematic structural view of the related art;

FIG. 2 is a schematic diagram of the overall structure of the present application;

FIG. 3 is a schematic view of the connection relationship between the driving rack, the adjusting lever and the rotating disc after the sliding block is hidden;

FIG. 4 is a schematic view showing the connection between the holding-down piece, the mounting block and the diagonal brace;

FIG. 5 is a schematic view of the connection among the abutting sheet, the first position-limiting hole and the second position-limiting hole;

FIG. 6 is a front view of the connection of the drive rack and the slide block;

FIG. 7 is a schematic view of the overall structure of the present application for illustrating the abdicating hole;

FIG. 8 is a schematic view of the connection between the retainer and the dovetail retaining groove;

fig. 9 is a schematic view of the structure of the baffle.

Description of the reference numerals: 101. a zinc strip winding barrel; 102. a fixed block; 110. a motor; 120. a drive shaft; 131. a propping sheet; 132. a first stopper; 133. a second limiting block; 140. rotating the disc; 141. a sliding groove; 151. a driving frame; 152. adjusting a rod; 153. mounting blocks; 154. bracing; 155. a slider; 156. a dovetail limit groove; 157. a limiting hole; 158. a bearing; 160. a limiting sleeve; 161. a drive chute; 162. a hole for abdication; 170. a baffle plate; 171. a dovetail block; 172. a limiting block; 173. a jack; 174. a spring.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The application discloses adjustable take-up device in zinc area for conveniently dismantle zinc area and coil the bucket.

Referring to fig. 2, the winding device includes a motor 110, a driving shaft 120 and a tightening mechanism disposed on the driving shaft 120, the motor 110 is fixedly mounted on the frame nearby, the tightening mechanism is used for being embedded in the zinc strip winding barrel 101, one end of the driving shaft 120 is connected to the motor 110, the other end of the driving shaft 120 is fixedly connected to a rotating disc 140, the driving shaft 120 is vertically connected to a central position of the rotating disc 140, the motor 110 rotates the driving shaft 120 to drive the rotating disc 140 to rotate, a driving mechanism is disposed on the rotating disc 140, the driving mechanism drives the tightening mechanism to move to a state of being tightened to an inner wall of the zinc strip winding barrel 101, when the driving mechanism rotates, the zinc strip winding barrel 101 is driven to rotate together, the tightening mechanism includes more than one tightening piece 131 for being tightened to the inner wall of the zinc strip winding barrel 101, the tightening piece 131 only slides in a radial direction, the driving mechanism is connected to the tightening piece 131 and drives the tightening piece 131 to slide in a radial direction.

When the driving mechanism drives the abutting pieces 131 to slide radially to abut against the inner wall of the zinc strip winding barrel 101, the motor 110 works to drive the rotating disc 140 to rotate, the driving mechanism connected with the rotating disc 140 rotates synchronously, and the abutting pieces 131 connected with the driving mechanism abut against the inner wall of the zinc strip winding barrel 101 to drive the zinc strip winding barrel 101 to rotate, so that the zinc strip is discharged.

Referring to fig. 3, the driving mechanism includes a driving frame 151 circumferentially fixed and axially slidably connected to the rotating disc 140, and an adjusting rod 152 connected to the driving frame 151 and used for driving the driving frame 151 to slide, in this embodiment, the driving frame 151 is a cylindrical structure, the driving frame 151 and the rotating disc 140 are coaxially disposed, the adjusting rod 152 is disposed through the driving frame 151 along an axial thread, a position where the adjusting rod 152 is disposed through is a central axis position of the driving frame 151, one end of the adjusting rod 152 is disposed through a central position of the rotating disc 140 through a bearing 158, and the other end is exposed at one end of the driving frame 151 away from the rotating disc 140.

Referring to fig. 4, in this embodiment, the driving frame 151 is fixedly connected with the mounting block 153, the mounting block 153 is radially disposed on an outer wall of the driving frame 151, the mounting block 153 corresponds to the tightening pieces 131 one to one, the inclined struts 154 are connected between the mounting block 153 and the tightening pieces 131, every two inclined struts 154 form a group, two inclined struts 154 of each group are respectively disposed at two sides of the mounting block 153, and two ends of each inclined strut 154 are rotatably connected with the mounting block 153 and the tightening pieces 131 respectively.

Referring to fig. 4 and 5, sliding grooves 141 for the abutting pieces 131 to penetrate and slide are radially formed in the rotating disc 140, in this embodiment, four abutting pieces 131 are provided, four abutting pieces 131 are uniformly distributed along the circumferential direction of the driving frame 151, the sliding grooves 141 are in one-to-one correspondence with the abutting pieces 131, four sliding grooves are also provided, a first limiting block 132 is fixedly sleeved at one end of each abutting piece 131 close to the rotating disc 140, when the abutting pieces 131 penetrate through the sliding grooves 141, the end face of each first limiting block 132 close to the rotating disc 140 abuts against the rotating disc 140, the end portion of each abutting piece 131 penetrating through the end of the rotating disc 140 is detachably connected with a second limiting block 133, the end portion of each abutting piece 131 penetrating through the sliding groove 141 is exposed, the second limiting block 133 is fixed to the end portion of each abutting piece 131 through a bolt connection, the end face of each second limiting block 133 close to the rotating disc 140 abuts against the rotating disc 140, the rotating disc 140 abuts against two opposite side end faces by the first limiting blocks 132 and the second limiting blocks 133, the first limiting blocks 132 and the second limiting blocks 133 limit the axial movement of the abutting pieces 131, and the rotating disc 140 to facilitate disassembly.

Referring to fig. 2 and 6, a limiting sleeve 160 is fixedly connected to an end surface of the rotating disc 140, which is away from the end of the driving shaft 120, the driving frame 151 is sleeved with the limiting sleeve 160, two sliding blocks 155 radially extend from an outer wall of the driving frame 151, the two sliding blocks 155 are located on the same horizontal line and are away from each other and extend, a driving sliding groove 161 (not shown in the figure) for inserting and sliding one end of each sliding block 155 is axially formed in the limiting sleeve 160, and the two sliding blocks 155 are inserted into the driving sliding groove 161 to limit the driving frame 151 to rotate circumferentially.

Referring to fig. 7, since the abutting sheet 131 is to abut against the inner wall of the zinc strip winding barrel 101, the limiting sleeve 160 is provided with an abdicating hole 162 for the abutting sheet 131 to pass through.

Referring to fig. 8 and 9, in the rotation process of the zinc strip winding barrel 101, there is a phenomenon that the zinc strip deviates from the zinc strip winding barrel 101 to wind, in order to improve the phenomenon, a baffle 170 used for abutting against the side surface of the zinc strip is provided on the position limiting sleeve 160, a dovetail block 171 extends from one end of the baffle 170, a dovetail limiting groove 156 for the dovetail block 171 to slide and penetrate is axially provided on the outer wall of the position limiting sleeve 160, a limiting block 172 is provided on an end surface of one end of the dovetail block 171 inserted into the dovetail limiting groove 156, in this embodiment, an end portion of the limiting block 172 is hemispherical, a plug hole 173 for the limiting block 172 to slide is provided on an end surface of one end of the baffle 170 inserted into the dovetail limiting groove 156, the limiting block 172 is connected to a bottom of the plug hole 173 through a spring 174, more than one limiting block 172 is provided on a bottom of the dovetail groove 156 for the limiting hole 157 to be inserted into, when zinc strips with different widths are processed, the axial position of the baffle 170 needs to be adjusted, and the baffle 170 is always in a state of abutting against the side surface of the zinc strip.

The implementation principle of the adjustable winding device for the zinc strip in the embodiment of the application is as follows: limiting sleeve 160 is located with zinc area coiling bucket 101 cover to operating personnel, rotates regulation pole 152, orders about the driving rack 151 axial and slides, when driving rack 151 axial slides, supports tight piece 131 and does radial motion thereupon, supports tight piece 131 radial motion to supporting tightly in zinc area coiling bucket 101 inner wall, compare in a plurality of bolts with zinc area coiling bucket link firmly on rolling disc 140, this embodiment only needs to rotate regulation pole 152, can realize the loading and unloading of zinc area coiling bucket 101, and is more convenient.

The embodiments of the present invention are all preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An adjustable winding device for a zinc strip comprises a motor (110) and a driving shaft (120), wherein one end of the driving shaft (120) is connected with the motor (110), and the other end of the driving shaft is used for driving a zinc strip winding barrel (101) to rotate, and the adjustable winding device is characterized in that: the zinc strip winding device is characterized by further comprising a rotating disc (140) fixedly connected with one end, far away from the motor (110), of the driving shaft (120) and a pressing mechanism arranged on the rotating disc (140) and embedded in the zinc strip winding barrel (101), wherein the pressing mechanism comprises more than one pressing sheet (131) used for pressing against the inner wall of the zinc strip winding barrel (101), the pressing sheets (131) are arranged along the circumferential direction of the rotating disc (140), the pressing sheets (131) only slide along the radial direction, and a driving mechanism used for driving the pressing sheets (131) to move is arranged on the rotating disc (140).

2. An adjustable zinc strip coiler according to claim 1, characterized in that: actuating mechanism include that circumference is fixed and axial slip connect in actuating frame (151) of rolling disc (140) with connect in actuating frame (151) be used for driving about adjusting lever (152) that actuating frame (151) slided, actuating frame (151) are used for the embedding in zinc strip winding barrel (101), actuating frame (151) with it links to each other through bracing (154) to support tight piece (131), bracing (154) are provided with at least two, bracing (154) one end with it rotates to support tight piece (131) and links to each other, the other end with actuating frame (151) rotate and link to each other, and is a plurality of all be parallel to each other between bracing (154).

3. An adjustable zinc strip coiler according to claim 2, characterized in that: the rotating disc (140) is provided with a sliding groove (141) along the radial direction, the abutting sheets (131) penetrate through the sliding groove (141) and slide, the sliding groove (141) corresponds to the abutting sheets (131) one by one, and the abutting sheets (131) slide along the length direction of the sliding groove (141).

4. An adjustable zinc strip winding apparatus according to claim 3, wherein: the fixed cover has first stopper (132) on supporting tight piece (131), first stopper (132) be used for contradict in rolling disc (140) are close to the terminal surface of zinc strip coiling bucket (101) end, supporting tight piece (131) are used for passing the one end of rolling disc (140) can be dismantled and even have second stopper (133).

5. An adjustable zinc strip coiling apparatus as claimed in claim 4 in which: the fixed stop collar (160) that is provided with the cover and locates on rolling disc (140) driving frame (151), radially extend respectively on the opposite side outer wall of driving frame (151) and have slider (155), two slider (155) extend towards the direction of keeping away from each other, offer the confession along the axial on the mantle wall of stop collar (160) the drive spout (161) that just slided are passed to the one end of slider (155), offer the confession on the lateral wall of stop collar (160) the hole of stepping down (162) that pass of support tight piece (131).

6. An adjustable zinc strip coiling apparatus as claimed in claim 5, in which: the adjusting rod (152) axially penetrates through the driving frame (151) in a threaded manner, one end of the adjusting rod (152) is axially fixed with the rotating disc (140) and rotates in the circumferential direction, and the other end of the adjusting rod is exposed out of one end, far away from the rotating disc (140), of the driving frame (151).

7. An adjustable zinc strip coiling apparatus as claimed in claim 6 in which: the limiting sleeve (160) is provided with a baffle (170) which can be positioned and axially connected in a sliding manner, one end of the baffle (170) is connected with the outer wall of the driving frame (151) in a sliding manner, and the baffle (170) is used for abutting against the side face of the zinc strip.

8. An adjustable zinc strip coiling apparatus as claimed in claim 7 in which: the one end of baffle (170) extends there is forked tail piece (171), offer the confession along the axial on the outer wall of drive frame (151) forked tail piece (171) insert establish and dovetail spacing groove (156) that slide, dovetail piece (171) are close to jack (173) have been seted up along the length direction of baffle (170) to the terminal surface of dovetail spacing groove (156) end, jack (173) internal slipping is connected with stopper (172), stopper (172) connect through spacing spring (174) in the hole bottom of jack (173), more than one confession has been seted up along the axial to the tank bottom of dovetail spacing groove (156) stopper (172) embedded spacing hole (157).

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