CN109848270A - The forming method and formation system of the aluminum-manganese alloy layer of integrated wall - Google Patents

Abstract

The invention belongs to integrated wall technical field more particularly to the forming methods and formation system of the aluminum-manganese alloy layer of integrated wall.The present invention passes through the step mode that preheats again after the edging mortice opening of aluflex two sides, guarantee the advantages of tongue-and-groove opens up validity and facilitates subsequent progress foaming operation, on the other hand, and the mode that mounting rack, mounting plate, electromagnet attract unit, roll drive unit and resistance adjustment unit is set on carriage, achieve the effect that idler wheel friction-driven structure effectively drives coiled material when molding.There is the present invention tongue-and-groove to open up, and formation system is effective, and friction-driven is structurally reasonable effectively, and friction drive flexible in size is adjustable, and regulative mode is simple and convenient, and can be adapted for the mortice opening resistance of varying strength, and the advantage that final molding effect is good.

Description

The forming method and formation system of the aluminum-manganese alloy layer of integrated wall

Technical field

The invention belongs to the forming method of integrated wall technical field more particularly to the aluminum-manganese alloy layer of integrated wall and at Type system.

Background technique

Integrated wall is for house ornamentation pollution and the drawbacks such as process is tedious, and solution party is fitted up in the integrated full room of proposition Case.Using layer based on alumal, lamination layer structure is added on it, and greatest feature is that three-dimensional sense is very strong, possesses concave-convex sense Surface, be wallpaper, the regeneration product of coating.On the other hand, in existing integrated wall technique aluminum-manganese alloy layer molding system System mainly includes that two sides open up tongue-and-groove and the operation of this two step of friction-driven, but friction-driven structure therein has pressure mostly Take turns the nonadjustable problem of pressure fixing, ultimately cause static friction driving force not enough, driving skid or stiction it is excessive, to aluminium Manganese alloy coiled material causes the harmful phenomenon of the coining of harmful appearance, therefore is badly in need of in the market a for alumal formable layer system The flexible adjustable friction-driven structure of the driving pressure of system.

Patent publication No. is CN108115813A, and publication date is that the Chinese invention patent of 2018.06.05 discloses a kind of A The production technology of grade fire prevention integrated wall decorative panel comprising the steps of: A, the corresponding gypsum of configuration and plant fiber are poured into and stirred The machine of mixing is stirred uniformly；B, it is squeezed into dimension board by shaper high temperature process, then is cooled down, then existed with sander The tow sides polishing dedusting of circuit board；C, machine leaching bubble technology is used above in circuit board and coats underwater paint, do water-proofing treatment； D, glue is carried out the offline overlay film of high temperature by machine thermosol technology；E, bayonet type fluting is done on the both sides of plate using groover.

But the production technology in the patent of invention has that integrated operation difficulty is big.

Patent announcement number is CN204914298U, and the day for announcing is that the Chinese utility model patent of 2015.12.30 discloses one Kind mill mixer roller driving device, it includes rack, blanket roller, rear roller is equipped in rack, it is characterized in that the blanket roller Driven by forerunner's hydrodynamic pressure motor or preceding driving motor by blanket roller speed reducer, it is described after roller by rear-guard hydrodynamic pressure motor or Driving motor is driven by rear roller speed reducer afterwards；The blanket roller speed reducer is mounted on the rack by support sliding equipment, Roller speed reducer is mounted on the rack by rear roller support after described.

But there are the single nonadjustable problems of friction-driven intensity for the roller drive device in the utility model patent.

Summary of the invention

The object of the present invention is to provide a kind of forming method of the aluminum-manganese alloy layer of integrated wall and formation systems, can lead to The step mode preheated again after the edging mortice opening of aluflex two sides is crossed, guarantees that tongue-and-groove opens up validity and facilitates subsequent sent out On the other hand the advantages of bubble operation, and is arranged mounting rack, mounting plate, electromagnet on carriage and attracts unit, roll drive list The mode of member and resistance adjustment unit, achievees the effect that idler wheel friction-driven structure effectively drives coiled material when molding.The present invention It is effective that formation system is opened up with tongue-and-groove, and friction-driven is structurally reasonable effectively, and friction drive flexible in size is adjustable, regulative mode It is simple and convenient, and can be adapted for the mortice opening resistance of varying strength, and the advantage that final molding effect is good.

The present invention solve the above problems the technical solution adopted is that: the formation system of the aluminum-manganese alloy layer of integrated wall, according to Secondary includes the edging mortice opening to alumal coiled material, and preheats the two steps, and the edging mortice opening step passes through tenon Slot edging mill is completed, and the tongue-and-groove edging mill includes the idler wheel friction-driven structure on alumal coiled material upper surface, with And positioned at alumal coiled material two sides and the cam mortise slot structure of the idler wheel friction-driven structure rear end, institute are set Stating idler wheel friction-driven structure includes two mounting racks being arranged on carriage at two side positions, and both ends are socketed setting respectively and exist Mounting plate on the mounting rack, be arranged on the mounting rack and the mounting plate and by magnetic force attraction hoisting way with Attract unit in the electromagnet for adjusting the mounting plate height, is arranged on the mounting plate lower surface and is driven by static friction Mode is with the roll drive unit for improving power to the cam mortise slot structure, and is arranged in the roll drive list Attract unit magnetic means to be used to adjust the roll drive list in member and by adjusting resistance and then adjusting the electromagnet The resistance adjustment unit of member static friction driving force size on the alumal coiled material.

Further preferred technical solution is: the mounting rack includes frame body plate, and the peace on the frame body plate is arranged in Fill mouth, and the mounting post being vertically arranged on the installing port；The mounting plate includes plate body, and is arranged in the plate body Both ends and the mounting ring for being used to carry out socket installation in the mounting post；It includes being arranged described that the electromagnet, which attracts unit, The ring-type on the installing port inner top surface and with mounting post socket is arranged in permanent magnet ring on mounting ring annular upper surface Electromagnet, and the adjusting being arranged on the plate body upper surface and for providing direct current to two cyclic annular electromagnet are used Battery, described adjust are connected with battery, two cyclic annular electromagnet and resistance adjustment unit, are socketed and set in the mounting post There is the buffer spring for jacking up the mounting ring upwards.

Further preferred technical solution is: the roll drive unit includes being arranged on the plate body lower surface U-shaped mounting rack, socket are arranged on the middle beam of the U-shaped mounting rack and are used to carry out on the alumal coiled material quiet The pinch roller of friction-driven is arranged on the side connecting column of the U-shaped mounting rack and for rotating the deceleration for driving the pinch roller Motor, and be arranged on the side connecting column and for the driving battery to decelerating motor offer direct current.

Further preferred technical solution is: the roll drive unit further includes being arranged in the pinch roller lateral location Two connection gears at place, and be arranged in the U-shaped mounting rack different from be arranged the decelerating motor side and with the company Connect the fixation gear of gear engagement.

Further preferred technical solution is: the resistance adjustment unit includes being arranged in be equipped with the decelerating motor Installation crossbeam on the side connecting column, socket are arranged on the installation crossbeam and by adjusting the deceleration with fever Range range mode is arranged with the thermistor for adjusting electric current and magnetic field size on the cyclic annular electromagnet described between motor It installs on crossbeam and by both elastic force jack-up and magnetic repellences size regulative mode to be used to control the thermistor and institute The position-regulation portion of distance between decelerating motor is stated, and is arranged on the side connecting column and leads to driving battery Cross the slide rheostat that conducting wire connects and is used to adjust the size of current of electric magnetisation in the position-regulation portion.

Further preferred technical solution is: the installation crossbeam and side bonds are arranged on the side connecting column The decelerating motor it is long axial parallel, the thermistor bonding setting is electric close to decelerations in the position-regulation portion On the lower surface of machine.

Further preferred technical solution is: the position-regulation portion includes that socket is arranged on the installation crossbeam simultaneously For the slip ring of the thermistor to be arranged, the limit plate at the installation crossbeam tip position is set, and socket setting exists Jack-up spring on the installation crossbeam and for jacking up the slip ring on the limit plate, socket are arranged in the installation On crossbeam and it is bonded the second electromagnet being arranged on the side connecting column, and bonding is arranged in the slip ring close to institute It states in the annular side of the second electromagnet and for forming the second permanent magnet ring for repelling magnetic field between second electromagnet.

Further preferred technical solution is: the thermistor is posive temperature coefficient thermistor.

Further preferred technical solution is: driving battery and the slide rheostat, with the decelerating motor It is separately positioned on two sides of the side connecting column.

A kind of forming method of the formation system of the aluminum-manganese alloy layer of integrated wall, successively the following steps are included:

S1, alumal coiled material two sides are squeezed into the wheel mortise slot structure, and are pulled to the roll drive list manually First lower section；

S2, it is powered and opens the idler wheel friction-driven structure, and according to the size of resistance at the wheel mortise slot structure, adjust quiet The size of friction drive guarantees stabilized driving and smaller to the coining of the alumal coiled material；

S3, it opens up the alloy rolled material after tongue-and-groove and is heated by infrared heating device, complete forming operation.

The present invention guarantees that tongue-and-groove opens up validity by the step mode preheated again after the edging mortice opening of aluflex two sides On the other hand the advantages of with subsequent progress foaming operation is facilitated, and is arranged mounting rack, mounting plate, electromagnet on carriage and inhales The mode for drawing unit, roll drive unit and resistance adjustment unit, idler wheel friction-driven structure effectively drives when reaching molding The effect of coiled material.There is the present invention tongue-and-groove to open up, and formation system is effective, and friction-driven is structurally reasonable effectively, friction drive size Flexibly adjustable, regulative mode is simple and convenient, and can be adapted for the mortice opening resistance of varying strength, and final molding effect is good The advantages of.

Detailed description of the invention

Fig. 1 is the step schematic diagram of formation system in the present invention.

Fig. 2 is the position view of idler wheel friction-driven structure and cam mortise slot structure in the present invention.

Fig. 3 is the position view of roll drive unit in the present invention.

Fig. 4 is the position assumption diagram that electromagnet attracts unit in the present invention.

Fig. 5 is the positional structure schematic diagram of roll drive unit in the present invention.

Fig. 6 is the positional structure schematic diagram of resistance adjustment unit in the present invention.

Specific embodiment

As described below is only presently preferred embodiments of the present invention, is not intended to limit the scope of the present invention.

Embodiment: as shown in attached drawing 1,2,3,4,5 and attached drawing 6, the formation system of the aluminum-manganese alloy layer of integrated wall, according to Secondary includes the edging mortice opening a to alumal coiled material, and preheating the two steps of b, the edging mortice opening a step pass through Tongue-and-groove edging mill is completed, and the tongue-and-groove edging mill includes the idler wheel friction-driven structure on alumal coiled material upper surface, And positioned at alumal coiled material two sides and the cam mortise slot structure of the idler wheel friction-driven structure rear end is set, It is characterized by: the idler wheel friction-driven structure includes two mounting racks 1 being arranged on carriage 11 at two side positions, two End is socketed the mounting plate 2 being arranged on the mounting rack 1 respectively, is arranged on the mounting rack 1 and the mounting plate 2 and passes through Magnetic force attracts hoisting way to attract unit 3 with the electromagnet for adjusting 2 height of mounting plate, is arranged in the mounting plate 2 With the roll drive unit for improving power to the cam mortise slot structure on lower surface and by static friction driving method 4, and be arranged on the roll drive unit 4 and adjust electromagnet attraction 3 magnetic force of unit by adjusting resistance Mode is with the resistance adjustment for adjusting the roll drive unit 4 static friction driving force size on the alumal coiled material Unit 5.

In the present embodiment, after the alumal coiled material is bent upwards in two sides and opens up connection tongue-and-groove, followed by Warm-up operation, then add foamed material i.e. cover film, as integrated wall plate, wherein the cam mortise slot structure be tongue-and-groove at The physical impact structure of type, the idler wheel friction-driven structure are used to move the aluminium manganese in cam mortise slot structure pull-up and close Golden coiled material, the coiled material of pull-out have opened up tongue-and-groove, need manually to be inserted into and forget about it when certain coiled material just starts molding At the idler wheel friction-driven structure.

Wherein the roll drive unit 4 is static friction driving force application part, and the electromagnet attracts unit 3 for adjusting The height of the mounting plate 2, i.e., the height of the described roll drive unit 4, such as at the cam mortise slot structure resistance compared with When big, the electromagnet attracts unit 3 to reduce by 4 height of roll drive unit, and the roll drive unit 4 is larger with one Pressure be pressed on the alumal coiled material, stiction is larger at this time, driving effectively, certain coining can be generated certainly, This is the partial sacrifice that friction-driven is made, and when resistance is smaller at the cam mortise slot structure, the roll drive list Member 4 is partially raised, and static friction driving force is opposite to be reduced, at this time the alumal coiled material also can normal friction driving, and Imprint smaller, structure needed for above-mentioned two situations depend on integrated wall two sides connection tongue-and-groove, if structure is only single Groove tenon, then resistance naturally just it is small.

On the other hand, the electromagnet attracts unit 3 to attract the power for lifting the roll drive unit 4 raw by electricity upwards Magnetic effect generates, and is that electric current is smaller, magnetic force is smaller, therefore the resistance adjustment unit 5 can be with by resistance adjustment mode Effectively final feedback arrives the height adjustment effect of the roll drive unit 4.

The mounting rack 1 includes frame body plate 101, the installing port 102 on the frame body plate 101 is arranged in, and set vertically Set the mounting post 103 on the installing port 102；The mounting plate 2 includes plate body 201, and is arranged at 201 liang of the plate body Hold and be used to carry out in the mounting post 103 mounting ring 202 of socket installation；It includes setting that the electromagnet, which attracts unit 3, Permanent magnet ring 301 on 202 annular upper surface of mounting ring, be arranged on 102 inner top surface of installing port and with it is described The cyclic annular electromagnet 302 that mounting post 103 is socketed, and be arranged on 201 upper surface of plate body and be used for two rings Shape electromagnet 302 provides the adjusting battery 303 of direct current, described to adjust with 303, two, the battery cyclic annular electromagnet 302 And resistance adjustment unit 5 is connected, set is equipped with the buffering for jacking up the mounting ring 202 upwards in the mounting post 103 Spring 6.

In the present embodiment, the resilient support height of the buffer spring 6 is adjusted, so that the ring-type electromagnet 302 when not attracting the permanent magnet ring 301, when the plate body 201 is located at lowest part, the roll drive unit 4 with one most Big stiction carries out friction-driven, and the resistance at the cam mortise slot structure reduces, and does not need so big friction When power, the ring-type electromagnet 302 is powered magnetisation again, promotes the roll drive unit 4.

Wherein adjusting battery 303 is used to power to the cyclic annular electromagnet 302 of structure in the prior art, passes through Electric magnetisation mode attracts the permanent magnet ring 301 upwards, finally lifts the roll drive unit 4, to reduce static friction driving Power has both driving enough and reduces two aspects imprinted, wherein the ring-type electromagnet 302 has size of current and attraction magnetic The directly proportional feature of field size.

The roll drive unit 4 includes the U-shaped mounting rack 401 being arranged on 201 lower surface of plate body, socket setting Pinch roller on the middle beam of the U-shaped mounting rack 401 and for carrying out static friction driving on the alumal coiled material 402, it is arranged on the side connecting column of the U-shaped mounting rack 401 and for rotating the decelerating motor for driving the pinch roller 402 403, and be arranged on the side connecting column and for the driving battery to the decelerating motor 403 offer direct current 404.The roll drive unit 4 further includes two connection gears 405 being arranged at 402 lateral location of pinch roller, and Be arranged in the U-shaped mounting rack 401 different from 403 side of decelerating motor is arranged and engages with the connection gear 405 Fixed gear 406.

In the present embodiment, the pinch roller 402 is the biggish rubber wheel of coefficient of friction, and the decelerating motor 403 passes through institute Stating connection gear 405 drives the pinch roller 402 to rotate, and the fixed gear 406 is used to guarantee the pinch roller 402 in the other side Validity is rotated, avoids the pinch roller 402 that subtle centrifugal rotation occurs.

The resistance adjustment unit 5 includes the peace being arranged on the side connecting column equipped with the decelerating motor 403 Crossbeam 501 is filled, socket is arranged on the installation crossbeam 501 and by adjusting the spacing with the decelerating motor 403 of fever From mode to be arranged in the installation for adjusting electric current and the thermistor of magnetic field size 502 on the cyclic annular electromagnet 302 Jacked up on crossbeam 501 and by elastic force and both magnetic repellences size regulative mode be used to control the thermistor 502 and The position-regulation portion 503 of distance between the decelerating motor 403, and be arranged on the side connecting column and with the driving Connect and be used to adjust the sliding variable resistance of the size of current of electric magnetisation in the position-regulation portion 503 by conducting wire with battery 404 Device 504.The long axis of the decelerating motor 403 on the side connecting column is arranged in the installation crossbeam 501 and side bonds To parallel, the position-regulation portion 503 is arranged in close to the lower surface of the decelerating motor 403 in the bonding of thermistor 502 On.The thermistor 502 is posive temperature coefficient thermistor.Driving battery 404 and the slide rheostat 504, with The decelerating motor 403 is separately positioned on two sides of the side connecting column.

In the present embodiment, when the pinch roller 402 needs large driving force, 201 height of plate body needs partial down-regulation, institute It states cyclic annular electromagnet 302 attraction of the permanent magnet ring 301 is needed to reduce, the electric current on the ring-type electromagnet 302 needs Reduce, the mode that 5 resistance of resistance adjustment unit may finally be taken to increase, otherwise is exactly that resistance reduces.

And the thermistor 502 of ptc characteristics, when close to pyrotoxin, the i.e. decelerating motor 403, ring Border temperature increases, resistance value increases, and finally realizes the purpose that the 402 static friction driving force of pinch roller increases, therefore the position tune Section portion 503 is adjusted to the thermistor 502 close to the decelerating motor 403, it is on the contrary then far from the decelerating motor 403 ?.

The position-regulation portion 503 includes that socket is arranged on the installation crossbeam 501 and for the temperature-sensitive electricity to be arranged The slip ring 503a of resistance 502, is arranged in the limit plate 503b at installation 501 tip position of crossbeam, and socket is arranged described On installation crossbeam 501 and the jack-up spring 503c for jacking up the slip ring 503a on the limit plate 503b, socket are set The second electromagnet 503d that on the installation crossbeam 501 and bonding is arranged on the side connecting column is set, and bonding is set It sets in the slip ring 503a in the annular side of the second electromagnet 503d and is used for and second electromagnet The the second permanent magnet ring 503e for repelling magnetic field is formed between 503d.

In the present embodiment, the jack-up spring 503c gives mono- promotion elastic force of the slip ring 503a always, and described Second electromagnet 503d passes through the slide rheostat 504 and driving battery 404 and the second permanent magnet ring 503e shape At magnetic force is repelled, mono- promotion repulsive force of the slip ring 503a is equally given, the size trial of strength between two kinds of power, is the sliding The key that the position ring 503a is adjusted finally makes the heat transfer distances spirit between the thermistor 502 and the decelerating motor 403 Work is adjustable, guarantees that the attraction magnetic force flexible in size on the cyclic annular electromagnet 302 is adjustable, for example, the slide rheostat After 504 reduce the resistance value for accessing circuit, the electric current on the second electromagnet 503d increases, repels magnetic force increase, the top It plays spring 503c to be further compressed, the related thermistor 502 of slip ring 503a subtracts far from the described of operation fever Speed motor 403, environment temperature locating for the thermistor 502 reduce, and resistance reduces, the electric current of the ring-type electromagnet 302 Increase, magnetic force is attracted to increase, the plate body 201 is moving upward partial distance, the pressure and stiction of the pinch roller 402 Reduce, be suitable for the lesser situation of resistance at the cam mortise slot structure, and works as tenon at the cam mortise slot structure When slot structure is complicated, resistance is larger, by a series of conversions, the resistance of the slide rheostat 504 is increased.

In the present embodiment, the static friction driving force of the pinch roller 402 adjusts purpose, is finally by a sliding The slidable adjustment resistance mode of rheostat 504 avoids simple high degree of mechanical regulative mode in reality come what is realized, guarantees institute The static friction driving force for stating pinch roller 402 has the effective and simple and convenient advantage of flexible adjustment, avoid directly moving adjust it is heavier The pinch roller 402.

A kind of forming method of the formation system of the aluminum-manganese alloy layer of integrated wall, successively the following steps are included:

S1, alumal coiled material two sides are squeezed into the wheel mortise slot structure, and are pulled to the roll drive list manually 4 lower section of member；

S2, it is powered and opens the idler wheel friction-driven structure, and according to the size of resistance at the wheel mortise slot structure, adjust quiet The size of friction drive guarantees stabilized driving and smaller to the coining of the alumal coiled material；

S3, it opens up the alloy rolled material after tongue-and-groove and is heated by infrared heating device, complete forming operation.

In the present embodiment, the alumal coiled material is initially inserted into the cam mortise slot structure, then is pulled to institute 4 lower section of roll drive unit is stated, is then compressed by the pinch roller 402 to friction-driven, finally opens the pinch roller 402, carried out Automatic two sides open up the operation of tongue-and-groove in winding drawing process, guarantee the validity of formation system.

On the other hand, it when the heating operation is used to guarantee the addition of subsequent foamed material, is not susceptible to foaming and is not thorough The problem of, the purpose of heating is that suitable temperature environment is provided to foaming operation.

Embodiments of the present invention are explained in detail above in conjunction with attached drawing, but the present invention is not limited to above-mentioned embodiment party Formula within the scope of knowledge possessed by those of ordinary skill in the art can also be before not departing from present inventive concept It puts and makes various modifications.These be all without creative modification, as long as in scope of the presently claimed invention all by To the protection of Patent Law.

Claims (10)

1. the formation system of the aluminum-manganese alloy layer of integrated wall successively includes the edging mortice opening (a) to alumal coiled material, with And preheating (b) the two steps, edging mortice opening (a) step are completed by tongue-and-groove edging mill, the tongue-and-groove edging mill packet The idler wheel friction-driven structure being located on alumal coiled material upper surface is included, and positioned at alumal coiled material two sides and is set Set the cam mortise slot structure in the idler wheel friction-driven structure rear end, it is characterised in that: the idler wheel friction-driven structure Including two mounting racks (1) on carriage (11) at two side positions are arranged, both ends are socketed respectively to be arranged in the mounting rack (1) mounting plate (2) on, be arranged on the mounting rack (1) and the mounting plate (2) and by magnetic force attraction hoisting way with Electromagnet for adjusting the mounting plate (2) height attracts unit (3), is arranged on the mounting plate (2) lower surface and leads to Static friction driving method is crossed with the roll drive unit (4) for improving power to the cam mortise slot structure, and setting On the roll drive unit (4) and by adjust resistance adjust electromagnet attraction unit (3) magnetic means with For adjusting the resistance adjustment unit of roll drive unit (4) static friction driving force size on the alumal coiled material (5).

2. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 1, it is characterised in that: the mounting rack It (1) include frame body plate (101), the installing port (102) being arranged on the frame body plate (101), and it is vertically arranged in the peace Fill the mounting post (103) on mouth (102)；The mounting plate (2) includes plate body (201), and is arranged in the plate body (201) two Hold and be used to carry out on the mounting post (103) mounting ring (202) of socket installation；The electromagnet attracts unit (3) packet Include the permanent magnet ring (301) being arranged on the mounting ring (202) annular upper surface, setting top in the installing port (102) Cyclic annular electromagnet (302) on face and with the mounting post (103) socket, and be arranged on the plate body (201) upper surface And the adjusting for providing direct current to two cyclic annular electromagnet (302), with battery (303), battery is used in the adjusting (303), two cyclic annular electromagnet (302) and resistance adjustment unit (5) are connected, and are socketed and are set on the mounting post (103) There is the buffer spring (6) for jacking up the mounting ring (202) upwards.

3. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 2, it is characterised in that: the rolling is driven Moving cell (4) includes the U-shaped mounting rack (401) being arranged on the plate body (201) lower surface, and socket is arranged in the U-shaped peace Shelve the pinch roller (402) on the middle beam of (401) and for carrying out static friction driving on the alumal coiled material, setting On the side connecting column of the U-shaped mounting rack (401) and for rotating the decelerating motor (403) for driving the pinch roller (402), And it is arranged on the side connecting column and is used to provide the driving battery of direct current to the decelerating motor (403) (404).

4. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 3, it is characterised in that: the rolling is driven Moving cell (4) further includes two connection gears (405) being arranged at the pinch roller (402) lateral location, and is arranged in institute State U-shaped mounting rack (401) different from decelerating motor (403) side is arranged and consolidates with what the connection gear (405) engaged Fixed gear (406).

5. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 3, it is characterised in that: the resistance tune Saving unit (5) includes installation crossbeam (501) of the setting on the side connecting column for being equipped with the decelerating motor (403), set Connect setting it is described installation crossbeam (501) on and by adjust with generate heat the decelerating motor (403) between range range mode with For adjusting the thermistor (502) of electric current and magnetic field size on the cyclic annular electromagnet (302), it is arranged in the installation crossbeam (501) jacked up on and by elastic force and both magnetic repellences size regulative mode be used to control the thermistor (502) and The position-regulation portion (503) of distance between the decelerating motor (403), and be arranged on the side connecting column and with it is described Driving is connected by conducting wire with battery (404) and is used to adjust the size of current of electric magnetisation in the position-regulation portion (503) Slide rheostat (504).

6. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 5, it is characterised in that: the installation is horizontal Long axial parallel, the heat of the decelerating motor (403) on the side connecting column is arranged in side bonds for beam (501) Quick resistance (502) bonding setting is on the lower surface of the position-regulation portion (503) close the decelerating motor (403).

7. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 5, it is characterised in that: the position tune Section portion (503) includes socket setting on installation crossbeam (501) and the slip ring for the thermistor (502) to be arranged (503a), is arranged the limit plate (503b) at described installation crossbeam (501) tip position, and socket is arranged in the installation crossbeam (501) the jack-up spring (503c) on and for jacking up the slip ring (503a) on the limit plate (503b), socket is set The second electromagnet (503d) that on installation crossbeam (501) and bonding is arranged on the side connecting column is set, and viscous Connect setting the slip ring (503a) close to second electromagnet (503d) annular side on and be used for and described second The second permanent magnet ring (503e) for repelling magnetic field is formed between electromagnet (503d).

8. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 5, it is characterised in that: the temperature-sensitive electricity Hindering (502) is posive temperature coefficient thermistor.

9. the formation system of the aluminum-manganese alloy layer of integrated wall according to claim 5, it is characterised in that: the driving is used Battery (404) and slide rheostat (504), the two of the side connecting column are separately positioned on the decelerating motor (403) On a side.

10. a kind of forming method of the formation system of the aluminum-manganese alloy layer of integrated wall as described in claim 1, feature exist In successively the following steps are included:

S1, alumal coiled material two sides are squeezed into the wheel mortise slot structure, and are pulled to the roll drive list manually Below first (4)；

S2, it is powered and opens the idler wheel friction-driven structure, and according to the size of resistance at the wheel mortise slot structure, adjust quiet The size of friction drive guarantees stabilized driving and smaller to the coining of the alumal coiled material；

S3, it opens up the alloy rolled material after tongue-and-groove and is heated by infrared heating device, complete forming operation.