CN208629137U - Aluminium material surface polishing machine - Google Patents

Abstract

The utility model discloses aluminium material surface polishing machines, including the clamp system and polishing mechanism being fitted to each other, clamp system includes the clamp system up and down (4) for carrying out the left and right clamp system (3) of left and right clamping for treating rapidoprint and clamp up and down for treating rapidoprint, and polishing mechanism includes carrying out the polishing mechanism up and down (5) of polishing treatment up and down for treating rapidoprint and carrying out the left and right polishing mechanism (6) of left and right polishing treatment for treating rapidoprint；The prior art existing removing when handling aluminium material surface is solved to be not thorough so as to cause the shortcoming of Rolled Aluminum Material Surface Quality difference, cooperation carries out the mechanization polishing treatment of aluminium material surface using clamp system and polishing mechanism, achieve the purpose that thoroughly remove aluminium material surface burr and metallic particles, feature low with labor intensity, high-efficient.

Description

Aluminium material surface polishing machine

Technical field

The utility model relates to the fields such as process equipment, are aluminium material surface polishing machines specifically.

Background technique

The product that aluminium is manufactured by aluminium and other alloying elements.Usually first be processed into casting piece, forged article and foil, After plate, band, tube, rod section material etc., then it is made through processes such as clod wash, sawing, drilling, assembly, colourings.Main metal element is Aluminium is adding alloying elements, is improving the performance of aluminium.

It squeezing, especially cold extrusion, stock utilization is high, and materials microstructure and mechanical performance are improved, and it is easy to operate, Productivity is high, can make stock, deep hole, thin-walled, special-shaped section part, is important few without cutting technology.It squeezes main Forming for metal, it can also be used to the nonmetallic forming such as plastics, rubber, graphite and clay blank.

When extruding, blank generates three-dimensional compressive stress, even the lower blank of plasticity, can also be extruded.

Extruding is to apply external force to the metal stock being placed in container (extrusion cylinder), is allowed to flow out from specific die hole, A kind of plastic processing method of section configuration and size needed for obtaining is mainly used for stainless steel, nickel base superalloy and infusibility and closes The production of the bar, tubing and profile shapes of gold.

Hot extrusion is the extrusion forming technology used earliest in several extrusion process, it is under hot forging temperature by means of material Expect the good feature of plasticity, various extrusion moldings are carried out to metal.Currently, hot extrusion is mainly for the manufacture of common prismatic elongated Part, profile, tubing, bar and various machine parts etc..

It is good that hot extrusion can not only shape plasticity, the relatively low non ferrous metal and their alloy of intensity, low, medium carbon steel etc., But also it can be with the higher high-carbon of fabrication strength, high-alloy steel, such as structure special, stainless steel, high-speed tool steel and heat resisting steel Deng.It is squeezed since blank must be heated to hot forging temperature, is often accompanied by the heating defect such as more serious oxidation and decarburization, influences The dimensional accuracy and surface roughness of extrusion.Under normal circumstances, after machine parts is hot-pressed, then using machines such as cuttings Tool is processed to improve the dimensional accuracy and surface quality of part.

Hot extruding die is the mold for instigating red-hot metal to be directly squeezed into various profiles, profile shapes or tubing.

The operating condition of hot extruding die is quite harsh, bears compression stress and bending stress, and when demoulding is also subjected to certain Tensile stress.In addition also by the effect of impact load.Mold and red-hot metal time of contact are longer, make its heating temperature than hot forging Mo Genggao, when in particular for processing steel material and refractory metal, operating temperature is up to 600-800 DEG C, the mistake of hot extruding die Effect form is mainly die cavity excessively plastic deformation, cracking, heat fatigue and thermal wear.

In the prior art, aluminium in extrusion process, generates a large amount of burrs and metallic particles in aluminium material surface, seriously affects Aluminium finished surface quality, needs to handle aluminium material surface thus, in the prior art, usually relies on manually with rag formula hairbrush Remove aluminium material surface burr and metallic particles.The disadvantage is that: removing is not thorough, and influences Rolled Aluminum Material Surface Quality, large labor intensity, effect Rate is low.

Utility model content

The purpose of this utility model is that designing aluminium material surface polishing machine, solves the prior art and handled to aluminium material surface When existing removing be not thorough so as to cause the shortcoming of Rolled Aluminum Material Surface Quality difference, cooperation utilizes clamp system and polishing mechanism The mechanization polishing treatment for carrying out aluminium material surface, achievees the purpose that thoroughly remove aluminium material surface burr and metallic particles, has labor Fatigue resistance is low, high-efficient feature.

The utility model is achieved through the following technical solutions: aluminium material surface polishing machine, including the clamp system being fitted to each other And polishing mechanism, clamp system include carrying out the left and right clamp system of left and right clamping and for to be added for treating rapidoprint Work material carries out the clamp system up and down clamped up and down, and polishing mechanism includes carrying out polishing treatment up and down for treating rapidoprint Polishing mechanism up and down and the left and right polishing mechanism of left and right polishing treatment is carried out for treating rapidoprint.

As scheme is preferable to provide, left and right clamp system, up and down folder are set gradually along the machine direction of material to be processed Tight mechanism, upper and lower polishing mechanism and left and right polishing mechanism, but it is also not necessarily limited to this, various polishing mechanisms and clamping in polishing mechanism Any clamp system within the organization can any tandem combination settings.

It is further for the utility model is better achieved, especially use following setting structures: being additionally provided with for will be to The in-material seat that rapidoprint is sent into, in-material seat include two pan feeding roller brackets, are combined between two pan feeding roller brackets Pan feeding roll.

As scheme is preferable to provide, in-material seat is set in the pan feeding process section of polishing machine, when polishing mechanism setting is being pressed from both sides When tight mechanism leading portion, in-material seat, polishing mechanism and clamp system are sequentially arranged；When clamp system is in polishing mechanism leading portion, enter Material seat, clamp system and polishing mechanism are sequentially arranged；Preferred clamp system polishing mechanism leading portion, and it is further preferably Scheme is leading portion of the left and right clamp system in upper and lower clamp system.

In setting, there are two pan feeding roller brackets for in-material seat setting, and 1 pan feeding is set between two pan feeding roller brackets Roll, and preferred pan feeding roll uses rubber roller, pan feeding roll can be that support carries out rolling-operation with pan feeding roller bracket.

Further is that the utility model is better achieved, and especially uses following setting structures: the left and right clamp system Roll, optical axis guide rod and screw pair are clamped including linear bearing, support base, Mobile base, left and right, left and right clamps roll setting and moving On dynamic seat, optical axis guide rod is through being arranged on linear bearing and matching with support base, and screw pair is through setting on Mobile base And matched with support base, support seat supports cooperate Mobile base.

The optical axis guide rod is provided with two, and screw pair is arranged between two optical axis guide rods；Preferred left and right clamps Roll uses rubber roller.

As the scheme that is preferable to provide, left and right clamp system is provided with optical axis guide rod, screw pair and sets up separately in optical axis guide rod With two sets of binding clasps at screw pair both ends, binding clasp includes linear bearing, Mobile base, left and right clamping roll and support base, is moved Dynamic cover for seat is located at screw pair end, and linear bearing is set in the end of optical axis guide rod, and left and right clamps roll and is arranged on Mobile base, Support base is set in the end of screw pair and optical axis guide rod, and the radial direction that left and right clamps roll is vertically to optical axis guide rod and screw rod Secondary radial direction is horizontal direction；The further preferred plan of establishment is that optical axis guide rod is provided with two and splits the two of screw pair Side.

Further is that the utility model is better achieved, and especially uses following setting structures: the clamp system up and down Including on two clamping roller bracket A, two clamping optical axis guide rods, two clamping roller bracket B, oscilaltion mechanism and two Lower clamping roll, about one clamping roll is arranged between two clamping roller bracket A, and two clamping optical axis guide rods are distinguished vertical It is arranged on two clamping roller bracket A, about another clamping roll is being risen up and down by two clamping roller bracket B settings On descending mechanism and it is located above clamping roller bracket A；The oscilaltion mechanism is set on two clamping optical axis guide rods and energy Enough rolls of clamping up and down clamped on optical axis guide rod above drive at two move up and down.

It is preferable to provide scheme are as follows: there are two clamping roller bracket A, about two clampings to roll for upper and lower clamp system setting Roller, it is preferred to use rubber roller is provided with about one clamping between two clamping roller bracket A and rolls as roll is clamped up and down Roller is being vertically provided with a clamping optical axis guide rod respectively on two clamping roller bracket A, is clamping the upper of roller bracket A About another clamping roll of side's setting, and about another clamping roll passes through two clamping roller bracket B and oscilaltion Mechanism is connected, and oscilaltion mechanism is set on two clamping optical axis guide rods and is able to drive and clamps roller bracket B matching The roll of clamping up and down closed moves up and down on clamping optical axis guide rod.

Further is that the utility model is better achieved, and especially uses following setting structures: the oscilaltion mechanism Including roll lifter plate, two clamping linear bearings, supporting plate A, screw flange connector, elevating screw pair, the roll liter Drop plate is set in by clamping linear bearing to be clamped on optical axis guide rod and is connected with roller bracket B is clamped, and described supporting plate A It above roll lifter plate and is set on clamping optical axis guide rod, elevating screw pair is cooperated by screw flange connector in roll On lifter plate.

It is preferable to provide scheme are as follows: oscilaltion mechanism includes the roll lifter plate being connected with clamping roller bracket B, is rolled Roller lifter plate is set on two clamping optical axis guide rods by two clamping linear bearings, is also set up above roll lifter plate There is a supporting plate A, and supporting plate A is set on two clamping optical axis guide rods, and is preferably fixed on and clamps optical axis guide rod Upper end；(activity or fixed setting) screw flange connector is provided on roll lifter plate, on screw flange connector Be provided with elevating screw pair, elevating screw is secondary vertically pass through supporting plate A(it is preferred centered on).

Further is that the utility model is better achieved, and especially uses following setting structures: the polishing mechanism up and down It is provided with secondary polishing optical axis guide rod, polishing elevating screw and mutually matched upper polishers structure and lower polishing mechanism, in the throwing Three blocks of plates are arranged on light optical axis guide rod, polishing elevating screw pair, upper polishers structure and lower polishing mechanism are separately positioned on two Between block plate and cooperation is on polishing optical axis guide rod and polishing elevating screw pair, is also combined with throwing in the lower polishing mechanism Light elevating screw secondary A.

As the scheme that is preferable to provide, upper and lower polishing mechanism is provided with upper polishers structure, lower polishing mechanism and for the two Cooperate the polishing optical axis guide rod and polishing elevating screw pair of operation, upper polishers structure and lower polishing mechanism are all set in polishing optical axis On guide rod and polishing elevating screw pair, and three blocks of plates, three blocks of plates are arranged in polishing optical axis guide rod, polishing elevating screw pair Preferably wherein two boards part is arranged in polishing optical axis guide rod, polishes two ends of elevating screw pair and rise for the setting position of part To the effect of fixed position of reordering, last block plate, which is arranged between upper polishers structure and lower polishing mechanism, also plays fixed reorder The effect of position, and polishing elevating screw secondary A is also combined in lower polishing mechanism, and polish the both ends difference of elevating screw secondary A In fixation and the plate being located between the plate of lower part and upper polishers structure and lower polishing mechanism.

It is further for the utility model is better achieved, especially use following setting structures: the upper polishers structure and It is all provided with buff spindle, polishing bearing housing, oscilaltion plate, polishing motor and polishing linear bearing in lower polishing mechanism, throws Light linear bearing is set on polishing optical axis guide rod, polishes bearing housing and polishing motor is all arranged on oscilaltion plate, on On polishing linear bearing, buff spindle is set on polishing bearing housing for lower lifter plate connection cooperation, in polishing optical axis guide rod The buff spindle of the buff spindle and lower polishing mechanism of the upward upper polishers structure of axis is oppositely arranged；Three blocks of plates include being set in It polishes optical axis guide rod and polishes middle plate, upper plate and the lower plate in elevating screw pair, upper polishers structure is set between middle plate and upper plate, Lower polishing mechanism is set between middle plate and lower plate, and the polishing elevating screw secondary A cooperation is between middle plate and lower plate.

As the scheme that is preferable to provide, upper polishers structure and lower polishing mechanism be all provided with buff spindle, polishing bearing housing, Oscilaltion plate, polishing motor and polishing linear bearing, buff spindle are existed by polishing bearing housing (preferably using two) setting On oscilaltion plate, polishing motor is also arranged on oscilaltion plate, and polishing linear bearing is fixed or movable to be connected to liter up and down (preferred polishing linear bearing and buff spindle are arranged backwards on oscilaltion plate) drops on plate, and polishing linear bearing is set in throwing On light optical axis guide rod, and in the buff spindle of the buff spindle of the upward upper polishers structure of axis of polishing optical axis guide rod and lower polishing mechanism It is oppositely arranged；Wherein, three blocks of plates include be set in polishing optical axis guide rod and polish elevating screw pair on middle plate, upper plate and under Plate, upper plate are set in polishing optical axis guide rod and polish the top of elevating screw pair and play fixed and positioning action；Middle sleeve-board is set On polishing optical axis guide rod and polishing elevating screw pair between upper polishers structure and lower polishing mechanism；Lower plate is set in polishing light Spindle guide bar and polishing elevating screw pair bottom end and play fix and positioning action, polishing is equipped between middle plate and lower plate Elevating screw secondary A；Preferred polishing optical axis guide rod is arranged 2 and splits in the two sides of polishing elevating screw pair, polishing lifting silk Bar secondary A setting is between any one polishing optical axis guide rod and polishing elevating screw pair；When setting, preferred upper polishers structure and Polishing motor in lower polishing mechanism is placed in ipsilateral.

Further is that the utility model is better achieved, and especially uses following setting structures: the left and right polishing mechanism It is inside provided with mechanism supports plate and polishes optical axis guide rod with the fixed left and right of mechanism supports plate positioning and polish mobile screw pair, Mutually matched left polishing mechanism and right polishing mechanism are provided on left and right polishing optical axis guide rod and the mobile screw pair of polishing.

As the scheme that is preferable to provide, left and right polishing mechanism includes mechanism supports plate, left and right polishing optical axis guide rod, polishing shifting Dynamic screw pair, polishing mechanism and right polishing mechanism, left and right polishing optical axis guide rod and the mobile screw pair of polishing are set in polishing mechanism With right polishing mechanism and by left and right polishing optical axis guide rod, polish the mobile screw pair both ends support plate that sets up an organization and positioned With the left polishing mechanism of fixation and right polishing mechanism left and right polishing optical axis guide rod, polish mobile screw pair cooperation operation carry out it is to be added The left and right polishing treatment of work material.

It is further for the utility model is better achieved, especially use following setting structures: the left polishing mechanism and Right polishing mechanism all includes being set in left and right to polish the left and right polishing linear bearing on optical axis guide rod and be attached to left and right polishing directly What spool was held moves horizontally plate, and left and right polishing motor is provided on moving horizontally plate, is additionally provided on moving horizontally plate Polishing bearing housing in left and right is provided with left and right buff spindle in left and right polishing bearing housing, left on the working face of polishing machine Right buff spindle is vertically provided between left polishing mechanism and right polishing mechanism.

As the scheme that is preferable to provide, left polishing mechanism and right polishing mechanism are both provided with left and right polishing motor, horizontal shifting Movable plate, left and right polishing linear bearing, left and right polishing bearing housing and left and right buff spindle, left and right polishing motor and left and right polishing straight line Bearing is all arranged on moving horizontally plate, and preferably left and right polishing motor and left and right polishing linear bearing are split and moved in level The two sides of movable plate, left and right polishing linear bearing are set on left and right polishing optical axis guide rod, and the left and right of preferred left polishing mechanism is thrown The left and right polishing linear bearing setting of the closely right polishing mechanism of light linear bearing；Further preferred technical solution is left and right polishing optical axis Guide rod totally 4, left polishing mechanism and right polishing mechanism are each provided with two, and throw in left polishing mechanism and right polishing mechanism The mobile screw pair of light is arranged between two or so polishing optical axis guide rods；The left and right buff spindle is through setting in left and right buff spindle On bearing block, left and right polishing bearing housing is arranged on moving horizontally plate, and preferred left and right polishing bearing housing totally 4, and The moving horizontally of left polishing mechanism and right polishing mechanism is respectively set a set of by two or so polishing bearing housings and one on plate The mechanism that left and right buff spindle is constituted, and preferably the mechanism that left and right polishing bearing housing and left and right buff spindle are constituted is arranged Left polishing mechanism left and right polishing optical axis guide rod, polish mobile screw pair and right polishing mechanism left and right polishing optical axis guide rod, It polishes between mobile screw pair.

Further is that the utility model is better achieved, and especially uses following setting structures: the left and right clamp system 5 groups are provided with, upper and lower clamp system is provided with 4 groups.

As the scheme that is preferable to provide, left and right clamp system is arranged 5 groups, and upper and lower clamp system is arranged 4 groups, in entire aluminium In surface polishing machine, when setting, one is preferable to provide scheme are as follows: according to the pan feeding direction of material to be processed, first set mechanism It is in-material seat, second set of mechanism is left and right clamp system, and third set mechanism is that clamp system, the 4th set of mechanism are left and right folders up and down Tight mechanism, the 5th set of mechanism are that clamp system, the 6th set of mechanism are that polishing mechanism, the 7th set of mechanism are to clamp up and down up and down up and down Mechanism, the 8th set of mechanism are left and right clamp systems, and the 9th set of mechanism is left and right polishing mechanism, and the tenth set of mechanism is left and right clamping machine Structure, the tenth a set of mechanism are upper and lower clamp systems, and the 12nd set of mechanism is left and right clamp system.

Further is that the utility model is better achieved, and especially uses following setting structures: further including setting for positioning Set the framework platform of clamp system and polishing mechanism, preferably setting when one framework platform is set, on framework platform by Pan feeding direction setting in-material seat, clamp system and the polishing mechanism of rapidoprint.

Especially, it should be noted that such as " connect " in the technical scheme, involved by mechanical structure " fixation ", The terms such as " setting ", " flexible connection " " activity setting " are all the technological means of conventional arrangement in machinery field, as long as can The purpose of reaching fixed or connection or activity setting can use, thus do not do in the text specific restriction (such as with nut, Screw rod cooperation or is fixedly connected carry out activity, with bolt activity or is fixedly connected, is arranged).

The utility model compared with prior art, have the following advantages that and the utility model has the advantages that

(1) the utility model solution prior art existing removing when handling aluminium material surface is not thorough so as to cause aluminium The shortcoming of material surface quality difference, cooperation are carried out at the mechanization polishing of aluminium material surface using clamp system and polishing mechanism Reason, achievees the purpose that thoroughly remove aluminium material surface burr and metallic particles, with low, the high-efficient feature of labor intensity.

(2) use of the utility model is enabled to by aluminium material surface polishing machine brush, is smeared (by using different throwings Halo is realized), thoroughly remove aluminium material surface burr and metallic particles.

(3) the utility model can thoroughly remove aluminium material surface burr and metallic particles, improve Rolled Aluminum Material Surface Quality, reduce Labor intensity improves working efficiency.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model.

Fig. 2 is in-material seat structural schematic diagram described in the utility model.

Fig. 3 is in-material seat explosive view described in the utility model.

Fig. 4 is clamp system structural schematic diagram in left and right described in the utility model.

Fig. 5 is clamp system explosive view in left and right described in the utility model.

Fig. 6 is clamp system structural schematic diagram up and down described in the utility model.

Fig. 7 is clamp system explosive view up and down described in the utility model.

Fig. 8 is polishing mechanism structural schematic diagram up and down described in the utility model.

Fig. 9 is polishing mechanism explosive view up and down described in the utility model.

Figure 10 is polishing mechanism structural schematic diagram in left and right described in the utility model.

Figure 11 is polishing mechanism explosive view in left and right described in the utility model.

Wherein, 1- framework platform, 2- in-material seat, 2.1- pan feeding roll, 2.2- pan feeding roller bracket A, 2.3- pan feeding roll Bracket B, 3- or so clamp system, 3.1- linear bearing, 3.2- support base, 3.3- Mobile base, 3.4- or so clamp roll, 3.5- Optical axis guide rod, 3.6- screw pair, 4- or more clamp system, 4.1- clamp roller bracket A, 4.2- and clamp optical axis guide rod, 4.3- folder Tight roller bracket B, 4.4- roll lifter plate, 4.5- clamp linear bearing, 4.6- supporting plate A, 4.7- screw flange connector, 4.8 elevating screws are secondary, 4.9- or more clamps roll, 5- or more polishing mechanism, 5.1- buff spindle, 5.2- polish bearing housing, 5.3- oscilaltion plate, 5.4- polishing motor, 5.5- polishing linear bearing, plate, 5.7- upper plate, 5.8- polishing optical axis are led in 5.6- Bar, 5.9- polishing elevating screw are secondary, 5.10- polishes elevating screw secondary A, 5.11- lower plate, 6- or so polishing mechanism, 6.1- or so Polishing motor, 6.2- move horizontally plate, 6.3- or so polishing linear bearing, 6.4- or so polishing bearing housing, 6.5- or so and throw Optical axis, 6.6- mechanism supports plate, 6.7- or so polish optical axis guide rod, 6.8- polishes mobile screw pair.

Specific embodiment

The utility model is described in further detail below with reference to embodiment, but the embodiments of the present invention is not It is limited to this.

It is practical below in conjunction with this to keep the purposes, technical schemes and advantages of the utility model embodiment clearer The technical solution in the utility model embodiment is clearly and completely described in attached drawing in novel embodiment, shows So, described embodiment is a part of embodiment of the utility model, rather than whole embodiments.It is practical based on this Embodiment in novel, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment is fallen within the protection scope of the utility model.Therefore, the implementation to the utility model provided in the accompanying drawings below The detailed description of mode is not intended to limit the range of claimed invention, but is merely representative of the utility model Selected embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not making creative labor Every other embodiment obtained under the premise of dynamic, fall within the protection scope of the utility model.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", The orientation or positional relationship of the instructions such as "outside", " clockwise ", " counterclockwise " is to be based on the orientation or positional relationship shown in the drawings, only It is the utility model and simplified description for ease of description, rather than the equipment of indication or suggestion meaning or element must have spy Fixed orientation is constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention, More than, unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；It can be Mechanical connection, is also possible to be electrically connected；It can be directly connected, two can also be can be indirectly connected through an intermediary The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in the present invention.

In the present invention unless specifically defined or limited otherwise, fisrt feature the "upper" of second feature or it "lower" may include that the first and second features directly contact, and also may include that the first and second features are not direct contacts but lead to Cross the other characterisation contact between them.Moreover, fisrt feature includes above the second feature " above ", " above " and " above " One feature is right above second feature and oblique upper, or is merely representative of first feature horizontal height higher than second feature.First is special Sign is directly below and diagonally below the second feature including fisrt feature under the second feature " below ", " below " and " below ", or only Indicate that first feature horizontal height is less than second feature.

Embodiment 1:

The utility model proposes aluminium material surface polishing machines, and it is existing clear when handling aluminium material surface to solve the prior art Except being not thorough so as to cause the shortcoming of Rolled Aluminum Material Surface Quality difference, cooperation carries out aluminium table using clamp system and polishing mechanism The mechanization polishing treatment in face achievees the purpose that thoroughly remove aluminium material surface burr and metallic particles have labor intensity low, effect The high feature of rate especially uses following setting structures: including the clamp system and polishing machine being fitted to each other as shown in Fig. 1 ~ Figure 11 Structure, clamp system include carrying out the left and right clamp system 3 of left and right clamping and for treating rapidoprint for treating rapidoprint Clamp system 4 up and down clamped up and down are carried out, polishing mechanism includes carrying out polishing treatment up and down for treating rapidoprint Lower polishing mechanism 5 and the left and right polishing mechanism 6 that left and right polishing treatment is carried out for treating rapidoprint.

As scheme is preferable to provide, left and right clamp system 3, up and down folder are set gradually along the machine direction of material to be processed Tight mechanism 4, upper and lower polishing mechanism 5 and left and right polishing mechanism 6, but be also not necessarily limited to this, the various polishing mechanisms in polishing mechanism and Any clamp system in clamp system can any tandem combination settings.

Embodiment 2:

The present embodiment is further to optimize on the basis of the above embodiments, further practical to be better achieved It is novel, as shown in Fig. 1 ~ 11, especially uses following setting structures: being additionally provided with the in-material seat 2 for material to be processed to be sent into, In-material seat 2 includes two pan feeding roller brackets, is combined with pan feeding roll 2.1 between two pan feeding roller brackets.

As scheme is preferable to provide, in-material seat 2 is set in the pan feeding process section of polishing machine, when polishing mechanism setting is being pressed from both sides When tight mechanism leading portion, in-material seat 2, polishing mechanism and clamp system are sequentially arranged；When clamp system is in polishing mechanism leading portion, enter Material seat 2, clamp system and polishing mechanism are sequentially arranged；Preferred clamp system polishing mechanism leading portion, and it is further excellent Selecting scheme is leading portion of the left and right clamp system 3 in upper and lower clamp system 4.

In setting, there are two pan feeding roller bracket, (respectively pan feeding roller bracket A2.2 and pan feeding roll the setting of in-material seat 2 Roller support B2.3), 1 pan feeding roll 2.1 is set between two pan feeding roller brackets, and preferred pan feeding roll 2.1 uses glue Roller, pan feeding roll 2.1 can be that support carries out rolling-operation with pan feeding roller bracket, its promising offer is connected on pan feeding roll The equipment of power, material to be processed are delivered in clamp system and polishing mechanism under the action of power as on pan feeding roll.

Embodiment 3:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially use following setting structures: the left and right clamp system 3 includes linear bearing 3.1, branch Seat 3.2, Mobile base 3.3, left and right clamping roll 3.4, optical axis guide rod 3.5 and screw pair 3.6, left and right is supportted to clamp roll 3.4 and be arranged On Mobile base 3.3, optical axis guide rod 3.5 is matched through setting on linear bearing 3.1 and with support base 3.2, screw pair 3.6 Through being arranged on Mobile base 3.3 and matching with support base 3.2, the support of support base 3.2 cooperates Mobile base 3.3.

The optical axis guide rod 3.5 is provided with two, and screw pair 3.6 is arranged between two optical axis guide rods 3.5；Preferably Left and right clamps roll and uses rubber roller.

As the scheme that is preferable to provide, left and right clamp system is provided with optical axis guide rod 3.5, screw pair 3.6 and sets up separately in light Two sets of binding clasps at 3.6 both ends of spindle guide bar 3.5 and screw pair, binding clasp include linear bearing 3.1, Mobile base 3.3, left and right folder Tight roll 3.4 and support base 3.2, Mobile base 3.3 are set in 3.6 end of screw pair, and 3.1 are set in the end of optical axis guide rod 3.5, Left and right clamps the setting of roll 3.4 (positioned and be arranged with circlip using axis) on Mobile base 3.3, and support base 3.2 is set in screw pair 3.6 and optical axis guide rod 3.5 end, the radial direction that left and right clamps roll 3.4 is vertically to, optical axis guide rod 3.5 and screw pair 3.6 Radial is horizontal direction；The further preferred plan of establishment is that optical axis guide rod 3.5 is provided with two and splits the two of screw pair 3.6 Side.

As being preferable to provide scheme, when left and right clamp system is specifically arranged, in 5 sets or so clamp systems 3.6 end of screw pair bevel type gear is installed, and synchronizing shaft is installed on the horizontal plane perpendicular to screw pair, on the synchronizing shaft Bevel type gear is also installed, synchronizing shaft end connect by shaft coupling with decelerating motor (power source), when decelerating motor rotating forward with When reversion, two Mobile bases 3.3 in the clamp system of left and right on screw pair 3.6 are under the driving of feed screw nut by proximal and distal From to reach left and right clamping function, but in specific setting, this being also not limited to, as long as can reach screw pair 3.6 drives movement Seat 3.3, so that the plan of establishment for driving left and right to clamp the completion left and right pinching action of roll 3.4 all may be used.

Embodiment 4:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially uses following setting structures: the clamp system up and down includes two clamping roll branch Frame A4.1, two clamping optical axis guide rods, 4.2, two clamping roller bracket B4.3, oscilaltion mechanism and about two clampings are rolled About one clamping roll 4.9, two difference of clamping optical axis guide rods 4.2 are arranged between two clamping roller bracket A4.1 for roller 4.9 It is vertically provided on two clamping roller bracket A4.1, about another clamping roll 4.9 passes through two clamping roller brackets B4.3, which is arranged in oscilaltion mechanism and is located at, to be clamped above roller bracket A4.1；The oscilaltion mechanism is set in two It clamps on optical axis guide rod 4.2 and can be clamped at two and moved down on the roll of clamping up and down 4.9 above being driven on optical axis guide rod 4.2 It is dynamic.

It is preferable to provide scheme are as follows: there are two clamp roller bracket A4.1, about two clampings for upper and lower clamp system setting Roll 4.9, it is preferred to use rubber roller is provided with one between two clamping roller bracket A4.1 as roll 4.9 is clamped up and down Roll 4.9 is clamped up and down, is being vertically provided with a clamping optical axis guide rod 4.2 respectively on two clamping roller bracket A4.1, About another clamping roll 4.9 is set in the top for clamping roller bracket A4.1, and about another clamping roll 4.9 passes through Two clamping roller bracket B4.3 are connected with oscilaltion mechanism, and oscilaltion mechanism is set in two clamping optical axis guide rods On 4.2 and be able to drive with clamp the roll of clamping up and down 4.9 that matches of roller bracket B4.3 on clamping optical axis guide rod 4.2 on Lower movement.

Embodiment 5:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially use following setting structures: the oscilaltion mechanism include roll lifter plate 4.4, Two clamping linear bearings 4.5, supporting plate A4.6, screw flange connector 4.7, elevating screw pair 4.8, the roll lifter plate 4.4 are set on clamping optical axis guide rod 4.2 by clamping linear bearing 4.5 and are connected with roller bracket B4.3 is clamped, described Supporting plate A4.6, which is located at 4.4 top of roll lifter plate and is set in, to be clamped on optical axis guide rod 4.2, and elevating screw pair 4.8 passes through silk Bar flange connection 4.7 cooperates on roll lifter plate 4.4.

It is preferable to provide scheme are as follows: oscilaltion mechanism includes the roll lifter plate being connected with clamping roller bracket B4.3 4.4, roll lifter plate 4.4 is set on two clamping optical axis guide rods 4.2 by two clamping linear bearings 4.5, in roll liter The top of drop plate 4.4 is additionally provided with a supporting plate A4.6, and supporting plate A4.6 is set on two clamping optical axis guide rods 4.2, And preferably it is fixed on the upper end for clamping optical axis guide rod 4.2；(activity or fixed setting) is provided on roll lifter plate 4.4 Screw flange connector 4.7, is provided with elevating screw pair 4.8 on screw flange connector 4.7, and elevating screw pair 4.8 is vertical Across supporting plate A(it is preferred centered on) 4.6.

As being preferable to provide scheme, when upper and lower clamp system is specifically arranged, about 4 sets on clamp system Side is respectively equipped with screw lift (a part that elevating screw pair 4.8 is elevator), and the synchronous axis connection of 4 elevators Together, the elevator belts motor of end 1 can allow upper roll wheel to go up and down when electrical power rotates and reverse, and realize folder up and down Tight function, but in specific setting, it is also not limited to this, is driven in oscilaltion mechanism as long as elevating screw pair 4.8 can be reached Lower lifting, and be further driven to the plan of establishment that clamping roll 4.9 completes upper and lower pinching action up and down and all may be used.

Embodiment 6:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially uses following setting structures: the polishing mechanism up and down is provided with polishing optical axis guide rod 5.8, polishing elevating screw pair 5.9 and mutually matched upper polishers structure and lower polishing mechanism, in the polishing optical axis guide rod 5.8, it polishes in elevating screw pair 5.9 and is arranged with three blocks of plates, upper polishers structure and lower polishing mechanism are separately positioned on two boards Between part and cooperation is on polishing optical axis guide rod 5.8 and polishing elevating screw pair 5.9, is also combined in the lower polishing mechanism Polish elevating screw secondary A5.10.

As the scheme that is preferable to provide, upper and lower polishing mechanism is provided with upper polishers structure, lower polishing mechanism and for the two Cooperate the polishing optical axis guide rod 5.8 and polishing elevating screw pair 5.9 of operation, upper polishers structure and lower polishing mechanism are all set in throwing On light optical axis guide rod 5.8 and polishing elevating screw pair 5.9, and covered in polishing optical axis guide rod 5.8, polishing elevating screw pair 5.9 Equipped with three blocks of plates, preferably wherein the setting of two boards part rises in polishing optical axis guide rod 5.8, polishing for the setting position of three blocks of plates It drops two ends of screw pair 5.9 and plays the role of fixed position of reordering, the setting of last block plate is in upper polishers structure under Also play the role of fixed position of reordering between polishing mechanism, and be also combined with polishing elevating screw pair in lower polishing mechanism A5.10, and the both ends of polishing elevating screw secondary A5.10 are fixed respectively and are located in the plate of lower part and upper polishers structure and lower throwing On plate between ray machine structure.

Embodiment 7:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially uses following setting structures: being all arranged in the upper polishers structure and lower polishing mechanism There are buff spindle 5.1, polishing bearing housing 5.2, oscilaltion plate 5.3, polishing motor 5.4 and polishing linear bearing 5.5, polishing straight Spool holds 5.5 and is set on polishing optical axis guide rod 5.8, polishes bearing housing 5.2 and polishing motor 5.4 is all arranged in oscilaltion On plate 5.3, on polishing linear bearing 5.5, buff spindle 5.1 is set in polishing bearing housing for the connection of oscilaltion plate 5.3 cooperation On 5.2, in the buff spindle 5.1 of the upward upper polishers structure of axis of polishing optical axis guide rod 5.8 and the buff spindle 5.1 of lower polishing mechanism It is oppositely arranged；Three blocks of plates include be set in polishing optical axis guide rod 5.8 and polish elevating screw pair 5.9 on middle plate 5.6, Upper plate 5.7 and lower plate 5.11 are arranged upper polishers structure, set between middle plate 5.6 and lower plate 5.11 between middle plate 5.6 and upper plate 5.7 Lower polishing mechanism is set, the polishing elevating screw secondary A5.10 cooperation is between middle plate 5.6 and lower plate 5.11.

As the scheme that is preferable to provide, upper polishers structure and lower polishing mechanism are all provided with buff spindle 5.1, polishing axle bearing Seat 5.2, oscilaltion plate 5.3, polishing motor 5.4 and polishing linear bearing 5.5, buff spindle 5.1 are (excellent by polishing bearing housing Choosing uses two) on oscilaltion plate 5.3, polishing motor 5.4 is also arranged on oscilaltion plate 5.3 for 5.2 settings, and polishing is straight Spool holds 5.2 fixed or movable are connected on oscilaltion plate 5.3 and (preferably polishes linear bearing 5.2 and buff spindle 5.1 upper Backwards to setting on lower lifter plate 5.3), polishing linear bearing 5.2 is set on polishing optical axis guide rod 5.8, and is led in polishing optical axis The buff spindle 5.1 and the buff spindle 5.1 of lower polishing mechanism of the upward upper polishers structure of the axis of bar 5.8 are oppositely arranged；Wherein, three pieces Plate includes middle plate 5.6, upper plate 5.7 and the lower plate being set on polishing optical axis guide rod 5.8 and polishing elevating screw pair 5.9 5.11, upper plate 5.7, which is set in polishing optical axis guide rod 5.8 and polishes the top of elevating screw pair 5.9 and play fixed and positioning, to be made With；Middle plate 5.6 is set in polishing optical axis guide rod 5.8 and polishing elevating screw pair between upper polishers structure and lower polishing mechanism On 5.9；Lower plate 5.11 is set in polishing optical axis guide rod 5.8 and polishes the bottom end of elevating screw pair 5.9 and play fixed and positioning Effect is equipped with polishing elevating screw secondary A5.10 between middle plate 5.6 and lower plate 5.11；Preferred polishing optical axis guide rod 5.8 It is arranged 2 and splits in the two sides of polishing elevating screw pair 5.9, polishing elevating screw secondary A5.10 setting is polished at any one Between optical axis guide rod 5.8 and polishing elevating screw pair 5.9；Throwing when setting, in preferred upper polishers structure and lower polishing mechanism Photoelectricity machine 5.4 is placed in ipsilateral.

Embodiment 8:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially uses following setting structures: being provided with mechanism supports plate in the left and right polishing mechanism 6.6 and fixed left and right polishing optical axis guide rod 6.7 is positioned with mechanism supports plate 6.6 and polishes mobile screw pair 6.8, throw in left and right Mutually matched left polishing mechanism and right polishing mechanism are provided on light optical axis guide rod 6.7 and the mobile screw pair 6.8 of polishing.

As the scheme that is preferable to provide, left and right polishing mechanism include mechanism supports plate 6.6, left and right polishing optical axis guide rod 6.7, Mobile screw pair 6.8, polishing mechanism and right polishing mechanism are polished, left and right polishes optical axis guide rod 6.7 and polishes mobile screw pair 6.8 It is set in polishing mechanism and right polishing mechanism and by setting at left and right polishing optical axis guide rod 6.7, mobile 6.8 both ends of screw pair of polishing It sets mechanism supports plate and carries out positioning and fixed left polishing mechanism and right polishing mechanism in left and right polishing optical axis guide rod 6.7, polishing shifting The dynamic cooperation of screw pair 6.8 operation carries out the left and right polishing treatment of material to be processed.

Embodiment 9:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially use following setting structures: the left polishing mechanism and right polishing mechanism all include set The left and right being located on left and right polishing optical axis guide rod 6.7 polishes linear bearing 6.3 and is attached on left and right polishing linear bearing 6.3 Plate 6.2 is moved horizontally, left and right polishing motor 6.1 is provided on moving horizontally plate 6.2, is also set up on moving horizontally plate 6.2 There is left and right polishing bearing housing 6.4, left and right buff spindle 6.5 is provided in left and right polishing bearing housing 6.4, in the work of polishing machine Make left and right buff spindle 6.5 in plane to be vertically provided between left polishing mechanism and right polishing mechanism.

As the scheme that is preferable to provide, left polishing mechanism and right polishing mechanism are both provided with left and right polishing motor 6.1, level Movable plate 6.2, left and right polishing linear bearing 6.3, left and right polishing bearing housing 6.4 and left and right buff spindle 6.5, left and right polishing motor 6.1 are all arranged on moving horizontally plate 6.2 with left and right polishing linear bearing 6.3, and preferably by left and right polishing motor 6.1 and a left side Right polishing linear bearing 6.3 is split in the two sides for moving horizontally plate 6.2, and left and right polishing linear bearing 6.3 is set in left and right polishing On optical axis guide rod 6.7, the left and right polishing straight line of the nearly right polishing mechanism of left and right polishing linear bearing 6.3 of preferred left polishing mechanism Bearing 6.3 is arranged；Further preferred technical solution is left and right polishing optical axis guide rod 6.7 totally 4, left polishing mechanism and right polishing machine Structure is each provided with two, and polishes mobile screw pair 6.8 in left polishing mechanism and right polishing mechanism and be arranged at two or so It polishes between optical axis guide rod 6.7；The left and right buff spindle 6.5 polishes on bearing housing 6.4 through setting in left and right, left and right polishing Bearing housing 6.4 is arranged on moving horizontally plate 6.2, and preferred left and right polishing bearing housing 6.4 totally 4, and in left polishing machine The moving horizontally of structure and right polishing mechanism is respectively set a set of by two or so polishing bearing housings 6.4 and a left side on plate 6.2 The mechanism that right buff spindle 6.5 is constituted, and preferably constituted left and right polishing bearing housing 6.4 and left and right buff spindle 6.5 Mechanism is arranged in the left and right polishing optical axis guide rod 6.7 of left polishing mechanism, polishes the left and right of mobile screw pair 6.8 and right polishing mechanism It polishes optical axis guide rod 6.7, polish between mobile screw pair 6.8.

In the polishing process, the sectional dimension of the material polished as needed adjusts clamp system up and down and left and right The folding of clamp system can allow material to pass through；Four buff spindles are adjusted (to realize the buff spindle 5.1 polished up and down and realize The left and right buff spindle 6.5 of left and right polishing) upper and lower, left and right to suitable position, make polishing wheel (buff spindle 5.1 and left and right buff spindle 6.5) material four sides can be gently pressed, the material conveying mechanism and aluminium material surface polishing that then starting is matched with aluminium material surface polishing machine Machine makes material in the case where material conveys power by aluminium material surface polishing machine, and contacting material surface when polishing wheel rotates carries out it Polishing treatment.

Embodiment 10:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially use following setting structures: the left and right clamp system 3 is provided with 5 groups, clamps up and down Mechanism 4 is provided with 4 groups.

As the scheme that is preferable to provide, left and right clamp system 3 is arranged 5 groups, and upper and lower clamp system 4 is arranged 4 groups, in entire aluminium In material surface polishing machine, when setting, one is preferable to provide scheme are as follows: according to the pan feeding direction of material to be processed, first set machine Structure is in-material seat 2, and second set of mechanism is left and right clamp system 3, and third set mechanism is that clamp system 4, the 4th set of mechanism are up and down Left and right clamp system 3, the 5th set of mechanism are upper and lower clamp systems 4, and the 6th set of mechanism is upper and lower polishing mechanism 5, the 7th set of mechanism Clamp system 4 above and below being, the 8th set of mechanism is left and right clamp system 3, and the 9th set of mechanism is left and right polishing mechanism 6, the tenth set of machine Structure is left and right clamp system 3, and the tenth a set of mechanism is upper and lower clamp system 4, and the 12nd set of mechanism is left and right clamp system 3.

As the scheme that is preferable to provide, when in use, the bottom roller in upper and lower clamp system (clamps in roll 4.9 up and down Roll positioned at lower part) end can assemble sprocket wheel, connect by chain with decelerating motor (power source), when electrical power turn When dynamic, aluminium material surface polishing machine can be passed through with workpiece, but in specific setting, it is without being limited thereto, it is any as long as can be realized transmission Connection type all may be used.

As the scheme that is preferable to provide, motor and equipment in polishing mechanism (upper and lower polishing mechanism, left and right polishing mechanism) Connection: the power transmission between polishing motor 5.4 and buff spindle 5.1 passes through pulley drive；Left and right polishing motor 6.1 and left and right How power transmission between buff spindle 6.5 is specifically sequentially connected by pulley drive and is also not limited to this, as long as can reach Connection to transmission purpose can all be realized.

Embodiment 11:

The present embodiment is to advanced optimize based on any of the above embodiments, as shown in Fig. 1 ~ 11, is further The utility model is better achieved, especially uses following setting structures: further including for positioning setting clamp system and polishing machine The framework platform 1 of structure is preferably arranged a framework platform 1 in setting, the pan feeding side of material to be processed is pressed on framework platform 1 To setting in-material seat 2, clamp system and polishing mechanism.

When in use, in the polishing treatment process for treating rapidoprint are as follows:

1. adjusting clamp system 4, left and right clamping machine up and down according to the form and size in the section of material to be processed (workpiece) The opening degree of 5 mid-rubber roll of structure (clamping roll up and down, left and right clamps roll).

2. connecting the power of the power rubber roller (pan feeding roll) of workpiece conveying, it is allowed to rotate.

3. need the workpiece of polishing treatment to be sent into polishing machine from in-material seat 2, by the 1st set or so clamp system 3, then into Enter about the 1st set clamp system (drive) 4, workpiece continues to push ahead under the drive of power rubber roller, sequentially enters a 2nd set of left side Right clamp system 3, about the 2nd set clamp system (can drive or non-drive) 4, carry out subsequently into upper and lower polishing mechanism 5 After upper and lower surface polishing treatment, continue forward successively by about the 3rd set clamp system (can drive or non-drive) the 4, the 3rd Left and right clamp system 3 is covered, after carrying out left and right surface polishing treatment into left and right polishing mechanism 6, continues to be advanced past the 4th set or so Clamp system 3, about the 4th set 4, the 5th sets of clamp system (drive) or so clamp systems 3, finally leave polishing machine.

The above is only the preferred embodiment of the utility model, not does limit in any form to the utility model System, any simple modification made by the above technical examples according to the technical essence of the present invention, equivalent variations, each falls within Within the protection scope of the utility model.

Claims (10)

1. aluminium material surface polishing machine, it is characterised in that: including the clamp system and polishing mechanism being fitted to each other, clamp system includes The left and right clamp system (3) of left and right clamping is carried out and for treating rapidoprint progress or more clamping for treating rapidoprint Upper and lower clamp system (4), polishing mechanism include the polishing mechanism up and down (5) that polishing treatment up and down is carried out for treating rapidoprint With the left and right polishing mechanism (6) for carrying out left and right polishing treatment for treating rapidoprint.

2. aluminium material surface polishing machine according to claim 1, it is characterised in that: be additionally provided with for sending material to be processed The in-material seat (2) entered, in-material seat (2) include two pan feeding roller brackets, are combined with pan feeding between two pan feeding roller brackets Roll (2.1).

3. aluminium material surface polishing machine according to claim 1, it is characterised in that: the left and right clamp system (3) includes straight Spool holds (3.1), support base (3.2), Mobile base (3.3), left and right clamping roll (3.4), optical axis guide rod (3.5) and screw pair (3.6), left and right clamps roll (3.4) and is arranged on Mobile base (3.3), and optical axis guide rod (3.5) is through setting in linear bearing (3.1) it is matched on and with support base (3.2), screw pair (3.6) is through being arranged on Mobile base (3.3) and and support base (3.2) it matches, support base (3.2) support cooperation Mobile base (3.3).

4. aluminium material surface polishing machine according to claim 1, it is characterised in that: the clamp system up and down includes two folders Tight roller bracket A(4.1), two clamping optical axis guide rods (4.2), two clamping roller bracket B(4.3), oscilaltion mechanism and About two clamping rolls (4.9), two clamping roller bracket A(4.1) between be arranged about one clamping roll (4.9), two Root clamps optical axis guide rod (4.2) and is vertically provided at two clamping roller bracket A(4.1 respectively) on, about another clamping roll (4.9) pass through two clamping roller bracket B(4.3) be arranged in oscilaltion mechanism and be located at clamping roller bracket A(4.1) on Side；The oscilaltion mechanism is set on two clamping optical axis guide rods (4.2) and can be in two clamping optical axis guide rod (4.2) The roll of clamping up and down (4.9) above upper drive moves up and down.

5. aluminium material surface polishing machine according to claim 4, it is characterised in that: the oscilaltion mechanism includes roll liter Drop plate (4.4), two clamping linear bearings (4.5), supporting plate A(4.6), screw flange connector (4.7), elevating screw pair (4.8), the roll lifter plate (4.4) by clamp linear bearing (4.5) be set in clamp optical axis guide rod (4.2) on and with folder Tight roller bracket B(4.3) it is connected, the supporting plate A(4.6) it is located above roll lifter plate (4.4) and is set in clamping light On spindle guide bar (4.2), elevating screw pair (4.8) is cooperated on roll lifter plate (4.4) by screw flange connector (4.7).

6. aluminium material surface polishing machine according to claim 1, it is characterised in that: the polishing mechanism up and down is provided with polishing Optical axis guide rod (5.8), polishing elevating screw secondary (5.9) and mutually matched upper polishers structure and lower polishing mechanism, in the throwing Three blocks of plates, upper polishers structure and lower polishing mechanism point are arranged on light optical axis guide rod (5.8), polishing elevating screw secondary (5.9) Between two boards part and it She Zhi not cooperate in polishing optical axis guide rod (5.8) and polishing elevating screw secondary (5.9), under described Polishing elevating screw secondary A(5.10 is also combined in polishing mechanism).

7. aluminium material surface polishing machine according to claim 6, it is characterised in that: the upper polishers structure and lower polishing mechanism It is straight to be inside all provided with buff spindle (5.1), polishing bearing housing (5.2), oscilaltion plate (5.3), polishing motor (5.4) and polishing Spool is held (5.5), and polishing linear bearing (5.5) is set in polishing optical axis guide rod (5.8), is polished bearing housing (5.2) and is thrown Photoelectricity machine (5.4) is all arranged on oscilaltion plate (5.3), and oscilaltion plate (5.3) connection cooperation is in polishing linear bearing (5.5) on, buff spindle (5.1) is set in polishing bearing housing (5.2), on the axis of polishing optical axis guide rod (5.8) is upward The buff spindle (5.1) of polishing mechanism is oppositely arranged with the buff spindle (5.1) of lower polishing mechanism；Three blocks of plates include being set in It polishes optical axis guide rod (5.8) and polishes middle plate (5.6), upper plate (5.7) and the lower plate (5.11) on elevating screw secondary (5.9), in Upper polishers structure is set between plate (5.6) and upper plate (5.7), lower polishing mechanism is set between middle plate (5.6) and lower plate (5.11), The polishing elevating screw secondary A(5.10) cooperate between middle plate (5.6) and lower plate (5.11).

8. aluminium material surface polishing machine according to claim 1, it is characterised in that: setting is organic in the left and right polishing mechanism Structure support plate (6.6) and left and right polishing optical axis guide rod (6.7) and the polishing movement screw rod that fixation is positioned with mechanism supports plate (6.6) Secondary (6.8) are provided with mutually matched left polishing in left and right polishing optical axis guide rod (6.7) and polishing mobile screw pair (6.8) Mechanism and right polishing mechanism.

9. aluminium material surface polishing machine according to claim 8, it is characterised in that: the left polishing mechanism and right polishing mechanism It all include being set in left and right to polish left and right polishing linear bearing (6.3) on optical axis guide rod (6.7) and be attached to left and right polishing directly Spool holds and moves horizontally plate (6.2) on (6.3), and left and right polishing motor (6.1) are provided on moving horizontally plate (6.2), It moves horizontally and is additionally provided with left and right polishing bearing housing (6.4) on plate (6.2), the setting in left and right polishing bearing housing (6.4) There are left and right buff spindle (6.5), left and right buff spindle (6.5) is vertically provided at left polishing mechanism and the right side on the working face of polishing machine Between polishing mechanism.

10. aluminium material surface polishing machine according to claim 1, it is characterised in that: the left and right clamp system is provided with 5 Group, upper and lower clamp system are provided with 4 groups.