CN203917468U - Cold rolling copper strips batches pusher side push plate device - Google Patents

Abstract

The utility model discloses a kind of cold rolling copper strips and batch pusher side push plate device, relate to cold rolling copper strips coiling machine field, comprise thruster grillage body, guide post, hydraulic cylinder and reel, described thruster grillage body is provided with pneumatic operated valve, described pneumatic operated valve comprises the valve pocket being fixed on described thruster grillage body, is positioned at the spool and the control panel that is fixed on described spool front end of described valve pocket; Between the chamber wall of described control panel and described valve pocket, be also provided with resiliency supported portion; Described thruster grillage body is provided with at least two guide parts, and described at least two guide parts distribute along the cylindrical of described reel, and described guide part is provided with guide plate, and described guide plate drives moving radially along described reel by double-acting cylinder.The utility model adopts pneumatic principle, drives cylinder piston rod stretch mode to realize the lifting action of guide plate by pneumatic operated valve, has eliminated potential safety hazard.

Description

Cold rolling copper strips batches pusher side push plate device

Technical field

The utility model relates to cold rolling copper strips coiling machine field, relates in particular to a kind of thruster panel assembly of cold rolling copper strips coiling machine.

Background technology

Cold rolling copper strips production line, after copper strips rolling completes, unload the finished product roll coil of strip after rolling in the position of entrance (or outlet) coiling machine.Coiling machine thruster panel assembly is to unload volume work for coordinating coil stripping car to complete.

Tradition is batched pusher side push pedal schematic diagram as Figure 1-Figure 5.Whole thruster panel assembly is arranged on and batches reductor top, is made up of parts such as guide post (11 ＇) cylinder pressure (12 '), thruster grillage bodies (10 ').Guide post (11 ') and hydraulic cylinder (12 ') are arranged on box body of speed reducer top.Thruster grillage body (10 ') is Welding Structure, is suspended on the front end of two guide posts (11 '), and can under the driving of hydraulic cylinder (12 '), move along spool axis direction.Be provided with two groups of guide plates (7 ') in the front bottom of thruster grillage body (10 '), guide plate (7 ') both sides portion adopts the design of " U " shape groove, be arranged on thruster grillage body (10 '), lead by spring catch (9 '), between guide plate (7 ') and thruster grillage body (10 '), be also provided with spring (8 '), when work, guide plate (7 ') is pressed against to reel outer surface, coordinates coil stripping car to complete and unload volume.It is upper that guide wheel (4 ＇) is fixed on thruster grillage body (10 ') by bearing (1 ＇), and guide wheel (4 ＇) is fixedly connected with bearing (1 ＇) with packing ring (3 ＇) by bolt (2 ＇); Jackscrew (5 ') is fixed on guide plate (7 ') by locking nut (6 '), in the time that thruster panel assembly transfers wait state to by duty, hydraulic cylinder (12 ') is by thruster grillage body (10 ') pull-out rolling line, because jackscrew (5 ') head is the conical surface, after clashing into guide wheel (4 '), can drive upwards lifting of guide plate (7 '), guide plate (7 ') and mandrel surface are departed from.Owing to can producing greater impact between guide wheel in knockout process (4 ') and jackscrew (5 '), easily cause guide wheel (4 ') and jackscrew (5 ') to damage base or distortion, make guide plate (7 ') cisco unity malfunction, accident rate is higher, has a strong impact on production.

The guide plate (7 ') that the cold rolling copper strip roll of tradition is got in pusher side push pedal adopts inclined-plane guiding to lift the mode of falling, in use guide plate (7 ') is easily impacted to damage or be out of shape and cannot completes lifting action, guide plate (7 ') can not be pressed against mandrel surface unloading in licking journey, promoting the innermost layer roll coil of strip unloads together with roll coil of strip entirety, or after unloading volume there is the phenomenons such as dislocation in roll coil of strip core, the stability that has affected guide plate (7 ') lifting work, has reduced its use and has prolonged life.

Utility model content

Poor stability during according to the traditional thruster panel assembly work of above-mentioned proposition, guide plate uses that to prolong life short, unloads to lick in journey, to be prone to the technical problem such as jam or the dislocation of volume core, and provides a kind of cold rolling copper strips to batch pusher side push plate device.The technological means that the utility model adopts is as follows:

A kind of cold rolling copper strips batches pusher side push plate device, comprise thruster grillage body, guide post, hydraulic cylinder and reel, it is characterized in that: described thruster grillage body is provided with pneumatic operated valve, described pneumatic operated valve comprises the valve pocket being fixed on described thruster grillage body, is positioned at the spool and the control panel that is fixed on described spool front end of described valve pocket;

Described valve pocket is provided with pore I and pore II, and described spool is provided with air intake duct and exhaust duct;

Between the chamber wall of described control panel and described valve pocket, be also provided with resiliency supported portion;

Described thruster grillage body is provided with at least two guide parts, and described at least two guide parts distribute along the cylindrical of described reel, and described guide part is provided with guide plate, and described guide plate drives moving radially along described reel by double-acting cylinder;

When coiling machine lateral thruster is during in off working state, described air intake duct is communicated with described pore I, described exhaust duct is communicated with described pore II, gas enters described double-acting cylinder by described air intake duct and described pore I, drives the piston rod of described double-acting cylinder to promote described guide plate to be lifted away from the surface of described reel; In described double-acting cylinder, original gas enters into described exhaust duct and discharges from described pore II;

In the time that coiling machine lateral thruster is in running order, described in described Driven by Hydraulic Cylinder, thruster grillage body moves to rolling centerline direction along the center line of described reel, after described control panel contacts with the end of the roll coil of strip, described resiliency supported portion is compressed, and described spool is moved after described valve pocket, described air intake duct is communicated with described pore II, described exhaust duct is communicated with described pore I, gas enters described double-acting cylinder by described air intake duct and described pore II, drive described piston rod to promote described guide plate to be pressed against the surface of the described roll coil of strip, coil stripping car rises holds the roll coil of strip, described in described Driven by Hydraulic Cylinder, thruster grillage body continues to move to rolling centerline direction along the center line of described reel, coil stripping car also moves to rolling centerline direction simultaneously, jointly the roll coil of strip is unloaded from described reel, complete and unload scrolling work, in described double-acting cylinder, original gas enters into described exhaust duct and discharges from described pore I,

After unloading and having rolled up, described in described Driven by Hydraulic Cylinder, thruster grillage body moves to holding fix, when after control panel and the disengaging of described reel end, described resiliency supported portion is released, band movable valve plug turns back to off working state again, and described air intake duct is communicated with described pore I, and described exhaust duct is communicated with described pore II, gas enters described double-acting cylinder by described air intake duct and described pore I, drives described piston rod to promote described guide plate to be lifted away from the surface of described reel; In described double-acting cylinder, original gas enters into described exhaust duct and discharges from described pore II.

Further, described valve pocket is cylindrical, and be vertically fixed on the rear end of described thruster grillage body, described thruster grillage body is provided with the through hole passing through for described spool, under off working state, stretch out from described through hole under the effect of described resiliency supported portion one end that is provided with described control panel of described spool.

Further, described spool is cylindrical, between described spool and described valve pocket, is provided with sealing ring group.

Further, described resiliency supported portion comprises the spring on the outer wall that is socketed in described spool, wear ring I and wear ring II, the front end of described spring is fixedly connected with described control panel by described wear ring I, and the rear end of described spring is fixedly connected with the chamber wall of described valve pocket by described wear ring II.

Further, described guide part comprises two parallel guide rails, and described guide plate is provided with the groove coordinating with described guide rail.

Further, the cylinder barrel of described double-acting cylinder and described thruster grillage body are hinged, and the piston rod of described double-acting cylinder and described guide plate are hinged, hingedly can ensure cylinder and bearing pin automatic vertical, ensure the output of cylinder force, avoid being fixedly connected with required installation adjustment.

The utility model adopts spool following pneumatic valve to drive the flexible mode of double-acting air cylinder piston bar to realize the lifting action of guide plate, lifts the working method of falling to replace traditional guide plate inclined-plane to lead.Compared with prior art, the utlity model has following advantage:

1, eliminated traditional curling pusher side push plate device unload lick journey in because guide wheel (4 ') and jackscrew (5 ') damage base or distortion, make jam or roll coil of strip core that guide plate (7 ') cisco unity malfunction produces occur the phenomenon misplacing, reduced production safety hidden danger.

2, compared with the lifting action that pneumatic operated valve drives the flexible mode of cylinder piston rod to realize guide plate is lifted the mode of falling with guide plate employing inclined-plane guiding, eliminate because guide wheel (4 ') and jackscrew (5 ') damage owing to mutually clashing into the equipment fault that base or distortion produce in the course of the work, the stability of increase equipment, the production efficiency of raising coiling machine.

3, avoided employing guide wheel (4 ') and jackscrew (5 ') mutually to clash into the rear upwards working method of lifting of guide plate (7 ') that drives, avoid unnecessary impact, the service life of extension device, the maintenance time of shortening equipment.

The utility model can extensively be promoted in fields such as cold rolling copper strips coiling machines for the foregoing reasons.

Brief description of the drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

Fig. 1 is that tradition is batched pusher side push plate device schematic diagram.

Fig. 2 is that the A of Fig. 1 is to schematic diagram.

Fig. 3 is the B portion enlarged drawing of Fig. 2.

Fig. 4 is that the C-C of Fig. 3 is to cutaway view.

Fig. 5 is that the D of Fig. 3 is to schematic diagram.

Fig. 6 is that the cold rolling copper strips of the utility model batches pusher side push plate device schematic diagram.

Fig. 7 is that the E of Fig. 6 is to schematic diagram.

Fig. 8 is that the F-F of Fig. 7 is to cutaway view.

Fig. 9 is that the G-G of Fig. 7 is to cutaway view.

Figure 10 is that the H-H of Fig. 7 is to cutaway view.

Figure 11 is the I portion enlarged drawing of Fig. 8.

Figure 12 is the J portion enlarged drawing of Fig. 9.

Wherein, 1 ', bearing 2 ', bolt 3 ', packing ring 4 ', guide wheel 5 ', jackscrew 6 ', locking nut 7 ', guide plate 8 ', spring 9 ', spring catch 10 ', thruster grillage body 11 ', guide post 12 ', hydraulic cylinder,

1, thruster grillage body 2, guide post 3, hydraulic cylinder 4, reel 5, pneumatic operated valve 6, guide part 7, guide plate 8, double-acting cylinder 9, spring catch 501, valve pocket 502, spool 503, control panel 504, pore I 505, pore II 506, air intake duct 507, exhaust duct 508, sealing ring group 509, spring 510, wear ring I 511, wear ring II 512, through hole 801, pore III 802, pore IV 803, cylinder barrel 804, piston rod 805, piston 806, air cavity I 807, air cavity II.

Detailed description of the invention

As shown in Fig. 6-Figure 12, a kind of cold rolling copper strips batches pusher side push plate device, comprise thruster grillage body 1, guide post 2, hydraulic cylinder 3 and reel 4, described thruster grillage body 1 is provided with pneumatic operated valve 5, described pneumatic operated valve 5 comprises the columnar valve pocket 501 on the rear end that is vertically fixed on described thruster grillage body 1, is positioned at the columniform spool 502 and the control panel 503 that is fixed on described spool 502 front ends of described valve pocket 501, between described spool 502 and described valve pocket 501, be provided with sealing ring group 508, described sealing ring group is made up of six sealing rings, also can suitably add as the case may be the group number of sealing ring, described thruster grillage body 1 is provided with the through hole 512 passing through for described spool 502, between described control panel 503 and the chamber wall of described valve pocket 501, be also provided with resiliency supported portion, described resiliency supported portion comprises the spring 509 on the outer wall that is socketed in described spool 502, wear ring I 510 and wear ring II 511, the front end of described spring 509 is fixedly connected with described control panel 503 by described wear ring I 510, the rear end of described spring 509 is fixedly connected with the chamber wall of described valve pocket 501 by described wear ring II 511, described spool 502 stretches out from described through hole 512 under the effect of described spring 509,

Described thruster grillage body 1 is provided with two guide parts 6, and described two guide parts 6 distribute along the cylindrical of described reel 4, and described guide part 6 is provided with guide plate 7, and described guide plate 7 drives moving radially along described reel 4 by double-acting cylinder 8; Described guide part 6 comprises two parallel guide rails, described guide plate 7 is provided with the U-lag matching with described guide rail, between described guide rail and described U-lag, connect by spring catch 9, described spring catch 9 is fixedly connected with described guide rail and runs through described guide rail, the top and bottom of described spring catch 9 are slidably connected with the cell wall of described U-lag respectively, and the cell wall of described U-lag is provided with the gathering sill of the top and bottom that hold described spring catch 9;

Described double-acting cylinder 8 comprises the cylinder barrel 803 being flexibly connected with described thruster grillage body 1 and the piston rod 804 being flexibly connected with described guide plate 7, described cylinder barrel 803 is hinged with described thruster grillage body 1, described piston rod 804 is hinged with described guide plate 7, the other end of described piston rod 804 is fixedly connected with piston 805, described cylinder barrel 803 is divided into air cavity I 806 and air cavity II 807 by described piston, described cylinder 8 is provided with the pore III 801 being communicated with described air cavity I 806 and the pore IV 802 being communicated with described air cavity II 807, described pore III 801 is also communicated with described pore I 504 by tracheae I, described pore IV 802 is also communicated with described pore II 505 by tracheae II,

Described valve pocket 501 is provided with pore I 504 and pore II 505, and described spool 502 is provided with air intake duct 506 and exhaust duct 507;

When coiling machine lateral thruster is during in off working state, described air intake duct 506 is communicated with described pore I 504, described exhaust duct 507 is communicated with described pore II 505, gas enters in described air cavity I 806 through described air intake duct 506, described pore I 504 and described pore III 801, and drive described piston rod 804 to shrink, thereby described guide plate 7 is lifted away to the surface of described reel 4; Gas in described air cavity II 807 enters into described exhaust duct 507 and discharges through described pore IV 802 and described pore II 505;

In the time that coiling machine lateral thruster is in running order, described hydraulic cylinder 3 driving side push pedal support body 1 center lines along described reel 4 move to rolling centerline direction, after described control panel 503 contacts with the end of the roll coil of strip, described resiliency supported portion is compressed, and described spool 502 is moved after described valve pocket 501, described air intake duct 506 is communicated with described pore II 505, described exhaust duct 507 is communicated with described pore I 504, gas is through described air intake duct 506, described pore II 505 and pore IV 802 enter in described air cavity II 807, and drive described piston rod 804 to stretch out, thereby described guide plate 7 is pressed against to the surface of the described roll coil of strip, coil stripping car rises holds the roll coil of strip, described hydraulic cylinder 3 drives described thruster grillage body 1 to continue to move to rolling centerline direction along the center line of described reel 4, coil stripping car also moves to rolling centerline direction simultaneously, jointly the roll coil of strip is unloaded from described reel 4, complete and unload scrolling work, gas in described air cavity I 806 enters into described exhaust duct 507 and discharges through described pore III 801 and described pore I 504,

After unloading and having rolled up, described hydraulic cylinder 3 drives described thruster grillage body 1 to move to holding fix, after control panel 503 and described reel end depart from, described resiliency supported portion is released, band movable valve plug 502 turns back to off working state again, described air intake duct 506 is communicated with described pore I 504, described exhaust duct 507 is communicated with described pore II 505, gas is through described air intake duct 506, described pore I 504 and described pore III 801 enter in described air cavity I 806, and drive described piston rod 804 to shrink, thereby described guide plate 7 is lifted away to the surface of described reel 4, gas in described air cavity II 807 enters into described exhaust duct 506 and discharges through described pore IV 802 and described pore II 505.

The above; it is only preferably detailed description of the invention of the utility model; but protection domain of the present utility model is not limited to this; any be familiar with those skilled in the art the utility model disclose technical scope in; be equal to replacement or changed according to the technical solution of the utility model and utility model design thereof, within all should being encompassed in protection domain of the present utility model.

Claims (6)

1. a cold rolling copper strips batches pusher side push plate device, comprise thruster grillage body (1), guide post (2), hydraulic cylinder (3) and reel (4), it is characterized in that: described thruster grillage body (1) is provided with pneumatic operated valve (5), described pneumatic operated valve (5) comprises the valve pocket (501) being fixed on described thruster grillage body (1), is positioned at the spool (502) of described valve pocket (501) and is fixed on the control panel (503) of described spool (502) front end;

Described valve pocket (501) is provided with pore I (504) and pore II (505), and described spool (502) is provided with air intake duct (506) and exhaust duct (507);

Between the chamber wall of described control panel (503) and described valve pocket (501), be also provided with resiliency supported portion;

Described thruster grillage body (1) is provided with at least two guide parts (6), described at least two guide parts (6) distribute along the cylindrical of described reel (4), described guide part (6) is provided with guide plate (7), and described guide plate (7) drives moving radially along described reel (4) by double-acting cylinder (8);

When coiling machine lateral thruster is during in off working state, described air intake duct (506) is communicated with described pore I (504), described exhaust duct (507) is communicated with described pore II (505), gas enters described double-acting cylinder (8) by described air intake duct (506) and described pore I (504), drives the piston rod (804) of described double-acting cylinder (8) to promote described guide plate (7) to be lifted away from the surface of described reel (4); In described double-acting cylinder (8), original gas enters into described exhaust duct (507) and discharges from described pore II (505);

In the time that coiling machine lateral thruster is in running order, described hydraulic cylinder (3) drives described thruster grillage body (1) to move to rolling centerline direction along the center line of described reel (4), after described control panel (503) contacts with the end of the roll coil of strip, described resiliency supported portion is compressed, and described spool (502) is moved after described valve pocket (501), described air intake duct (506) is communicated with described pore II (505), described exhaust duct (507) is communicated with described pore I (504), gas enters described double-acting cylinder (8) by described air intake duct (506) and described pore II (505), drive described piston rod (804) to promote described guide plate (7) to be pressed against the surface of the described roll coil of strip, coil stripping car rises holds the roll coil of strip, described hydraulic cylinder (3) drives described thruster grillage body (1) to continue to move to rolling centerline direction along the center line of described reel (4), coil stripping car also moves to rolling centerline direction simultaneously, jointly the roll coil of strip is unloaded from described reel (4), complete and unload scrolling work, in described double-acting cylinder (8), original gas enters into described exhaust duct (507) and discharges from described pore I (504),

After unloading and having rolled up, described hydraulic cylinder (3) drives described thruster grillage body (1) to move to holding fix, after control panel (503) and described reel end depart from, described resiliency supported portion is released, band movable valve plug (502) turns back to off working state again, described air intake duct (506) is communicated with described pore I (504), described exhaust duct (507) is communicated with described pore II (505), gas enters described double-acting cylinder (8) by described air intake duct (506) and described pore I (504), drive described piston rod (804) to promote described guide plate (7) to be lifted away from the surface of described reel (4), in described double-acting cylinder (8), original gas enters into described exhaust duct (507) and discharges from described pore II (505).

2. the cold rolling copper strips of one according to claim 1 batches pusher side push plate device, it is characterized in that: described valve pocket (501) is cylindrical, and being vertically fixed on the rear end of described thruster grillage body (1), described thruster grillage body (1) is provided with the through hole (512) passing through for described spool (502).

3. the cold rolling copper strips of one according to claim 2 batches pusher side push plate device, it is characterized in that: described spool (502) is cylindrical, between described spool (502) and described valve pocket (501), be provided with sealing ring group (508).

4. the cold rolling copper strips of one according to claim 1 batches pusher side push plate device, it is characterized in that: described resiliency supported portion comprises the spring (509) on the outer wall that is socketed in described spool (502), wear ring I (510) and wear ring II (511), the front end of described spring (509) is fixedly connected with described control panel (503) by described wear ring I (510), and the rear end of described spring (509) is fixedly connected with the chamber wall of described valve pocket (501) by described wear ring II (511).

5. the cold rolling copper strips of one according to claim 1 batches pusher side push plate device, it is characterized in that: described guide part (6) comprises two parallel guide rails, and described guide plate (7) is provided with the groove coordinating with described guide rail.

6. the cold rolling copper strips of one according to claim 1 batches pusher side push plate device, it is characterized in that: the cylinder barrel of described double-acting cylinder (8) and described thruster grillage body (1) are hinged, the piston rod of described double-acting cylinder (8) and described guide plate (7) are hinged.