阅读说明：本技术 一种花纹铝镁合金板的压印机及其压印方法 (Embossing machine and embossing method for aluminum-magnesium alloy plate with patterns ) 是由 程红 焦兰 卞金欢 夏必胜 严凯 王耀宇 汤瑞 于 2021-10-22 设计创作，主要内容包括：本发明涉及压印设备技术领域,具体为一种花纹铝镁合金板的压印机及其压印方法,包括压印机构,压印机构包括上压印辊和下压印辊,上压印辊和下压印辊的外侧面均设置有压印组件,压印组件包括正向压印模和反向压印模,正向压印模与所述反向压印模相对应,传送机构用于对铝镁合金板进行运输,集料机构用于对铝镁金属板进行收集。本发明区别与传统的花纹压印方式,可依次将铝镁合金通过传送机构送至上压印辊和下压印辊的中间,在上压印辊和下压印辊相对转动的过程中,正向压印模和反向压印模可以连续对铝镁合金进行挤压,大大提升加工的效率,同时可以保证花纹的连续性。(The invention relates to the technical field of embossing equipment, in particular to an embossing machine for a pattern aluminum magnesium alloy plate and an embossing method of the embossing machine. The aluminum magnesium alloy embossing device is different from the traditional pattern embossing mode, aluminum magnesium alloy can be sequentially conveyed to the middle of the upper embossing roller and the lower embossing roller through the conveying mechanism, and the forward embossing die and the reverse embossing die can continuously extrude the aluminum magnesium alloy in the relative rotating process of the upper embossing roller and the lower embossing roller, so that the processing efficiency is greatly improved, and the continuity of patterns can be ensured.)

1. A coining mill of flower line almag board which characterized in that includes:

the stamping mechanism (1), the stamping mechanism (1) includes embossing roll (101) and lower embossing roll (102), the one end of going up embossing roll (101) is connected with second driven tooth (5), the one end of lower embossing roll (102) is connected with first driven tooth (502), second driven tooth (5) with first driven tooth (502) meshing connection, just first driven tooth (502) are used for rotating second driven tooth (5), one side of stamping mechanism (1) is provided with drive gear (11), drive gear (11) with driven tooth installation axle (501) meshing connection, drive gear (11) are used for rotating first driven tooth (502), the lateral surface of going up embossing roll (101) and lower embossing roll (102) all is fixed and is provided with impression subassembly (6), impression subassembly (6) include forward embossing die (601) and reverse embossing die (602), the forward stamping die (601) is fixedly arranged on the outer side surface of the upper stamping roller (101), the reverse stamping die (602) is fixedly arranged on the outer side surface of the lower stamping roller (102), and the forward stamping die (601) corresponds to the reverse stamping die (602);

the conveying mechanism (2) is used for conveying the aluminum magnesium alloy plate, a plurality of conveying rollers (12) are arranged on the conveying mechanism (2), and the plurality of conveying rollers (12) are rotatably arranged on the conveying mechanism (2); and

aggregate mechanism (4), aggregate mechanism (4) are used for collecting the aluminium magnesium metal sheet, the inside slip of aggregate mechanism (4) is provided with push mechanism (7), push mechanism (7) are including push plate (701) and buffer board (702), the fixed rubber bump (703) that is provided with in upper end of buffer board (702), rubber bump (703) outstanding with the lateral surface of buffer board (702).

2. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: one end of the driving gear (11) is connected with an electric motor, the driving gear (11) is used for rotating the first driven tooth (502), and the second driven tooth and the first driven tooth (502) rotate relatively;

one end of the conveying roller (12) is connected with a conveying belt pulley (13), the conveying belt pulley (13) is close to one end of the imprinting mechanism (1) is connected with the driving gear (11) in a rotating mode through a belt.

3. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: a feeding mechanism (3) is arranged at one end, far away from the stamping mechanism (1), of the conveying mechanism (2), the feeding mechanism (3) comprises a feeding bottom plate (301) and a feeding inclined plate (302), and the angle range of the feeding bottom plate (301) and the feeding inclined plate (302) is 90-100 degrees;

the feeding bottom plate (301) is fixedly connected with the feeding inclined plate (302) in a welding mode, a lifting roller (14) is rotatably arranged in the feeding bottom plate (301), the lifting roller (14) is rotatably connected with the conveying roller (12) through a belt, and the lifting roller (14) is not contacted with the upper side face of the feeding bottom plate (301);

the feeding bottom plate is characterized in that a rubber slope (15) is fixedly arranged on the upper side face of the feeding bottom plate (301), and the upper side face of the rubber slope (15) and the horizontal included angle range are 10 degrees to 20 degrees.

4. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: the upper stamping roller (101) and the lower stamping roller (102) are respectively provided with a cross mounting groove (103), one end of each of the second driven gear (5) and the driven gear mounting shaft (501) is connected with a driven gear mounting shaft (501), and the driven gear mounting shafts (501) are clamped and connected with the cross mounting grooves (103);

the stamping die is characterized in that a plurality of stamping die mounting holes (603) which are centrosymmetric are formed in the two sides of the stamping assembly (6), stamping die bolts (604) are arranged in the stamping die mounting holes (603), and the stamping die bolts (604) penetrate through the stamping die mounting holes (603) and are fixedly connected with the stamping assembly (6).

5. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: one side surface, close to the driving gear (11), of the pushing mechanism (7) is provided with symmetrically distributed connecting rod connectors (704), and the connecting rod connectors (704) are rotatably connected with pushing connecting rods (10);

a pushing connecting rod rotating shaft (503) is fixedly arranged on one side, away from the central shaft, of the first driven tooth (502), and one end, away from the pushing plate (701), of the pushing connecting rod (10) is rotatably connected with the pushing connecting rod rotating shaft (503);

the inner side surface of the pushing mechanism (7) is provided with a plurality of uniformly distributed rubber bosses (16).

6. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: the pushing mechanism (7) is internally and fixedly provided with a buffer spring (8), one end of the buffer spring (8) is fixedly connected with the pushing plate (701), and the other end of the buffer spring (8) is fixedly connected with the buffer plate (702).

7. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: an ash cleaning plate (9) is arranged between the conveying roller (12) and the imprinting mechanism (1), a plurality of ash cleaning holes (901) which are uniformly distributed are formed in the ash cleaning plate (9), and the bottoms of the ash cleaning holes (901) are connected with an air pump (17) through air guide pipes (902).

8. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: the automatic stamping machine is characterized in that an ash removal assembly (18) is fixedly arranged between the conveying rollers (12), a brush (19) is fixedly arranged on the ash removal assembly (18), and the brush (19) is used for cleaning the aluminum-magnesium alloy stamping machine.

9. A stamping press for a patterned aluminum magnesium alloy plate according to claim 1, wherein: impression mechanism (1) transport mechanism (2) feeding mechanism (3) and mechanism (4) of gathering materials all set up the inside of device casing (20), the upper end salient of device casing (20) is in the side of going up of transport mechanism (2), the fixed guide block (21) that is provided with on device casing (20), guide block (21) are used for rectifying the transportation of almag.

10. The embossing method of the embossing machine for the pattern aluminum magnesium alloy plate is characterized by comprising the following steps of: the method comprises the following steps:

the method comprises the following steps: firstly, preventing a pretreated aluminum magnesium alloy plate from being arranged on a rubber slope (15) in a feeding mechanism (3), and then sequentially placing the aluminum magnesium alloy plate on a conveying mechanism (2) according to the height of the aluminum magnesium alloy plate;

step two: the aluminum magnesium alloy is lifted up through a rubber slope (15) on the conveying mechanism (2), the aluminum magnesium alloy is further conveyed through a conveying roller (12), and the surface of the aluminum magnesium alloy is cleaned while conveying;

step three: the aluminum magnesium alloy enters between an upper stamping roller (101) and a lower stamping roller (102) and then is stamped through a forward stamping die (601) and a reverse stamping die (602);

step four: after the stamping is finished, the aluminum magnesium alloy slides into the collecting mechanism (4) and is pushed to one side of the collecting mechanism (4) under the action of the pushing mechanism (7), and after the stamping is finished, the aluminum magnesium alloy is taken out.

Technical Field

The invention relates to a stamping machine and a stamping method thereof, in particular to a stamping machine of a pattern aluminum magnesium alloy plate and a stamping method thereof, and belongs to the technical field of stamping equipment.

Background

The aluminum-magnesium alloy plate with the patterns is a modern high-cost material, has various types, and has wide application in furniture, and the aluminum plate with the patterns has wide application in furniture: refrigerators, air conditioners, compartments, platforms, packaging ducts, screen frames, various suspension beams, table legs, trim strips, handles, wire routing channels and covers, chair tubes, and the like.

Along with the iteration of constantly updating of material technology, the decorative pattern processing of almag board also presents the pluralism trend, different almag boards have different visual characteristic and machining performance, traditional impression mode, mostly all the plane is impressed, that is to say, utilize the pneumatic cylinder directly to carry out the impression to almag, if need carry out the impression to the decorative pattern that is not symmetrical, then can't obtain comparatively coherent almag board, consequently the decorative pattern dislocation can appear when splicing almag board, consequently the aesthetic measure can receive the influence greatly, often still need the manual work to carry frequently the raw materials when processing to almag board, waste a large amount of manpower and material resources, lead to the great reduction of efficiency of processing.

Therefore, there is a need for an improved embossing press for embossed al-mg alloy sheets to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a embossing machine for an embossed aluminum-magnesium alloy plate and an embossing method thereof, which are different from the traditional embossed pattern mode, can sequentially send aluminum-magnesium alloy to the middle of an upper embossing roller and a lower embossing roller through a conveying mechanism, and can continuously extrude the aluminum-magnesium alloy by a forward embossing die and a reverse embossing die in the relative rotation process of the upper embossing roller and the lower embossing roller, thereby greatly improving the processing efficiency and simultaneously ensuring the continuity of the embossed pattern.

In order to achieve the purpose, the invention adopts the main technical scheme that:

a embossing press for a patterned aluminum magnesium alloy plate, comprising:

the stamping mechanism comprises an upper stamping roller and a lower stamping roller, one end of the upper stamping roller is connected with a second driven tooth, one end of the lower stamping roller is connected with a first driven tooth, the second driven tooth is meshed with the first driven tooth, the first driven tooth is used for rotating a second driven tooth, one side of the stamping mechanism is provided with a driving gear, the driving gear is meshed with a driven tooth mounting shaft and is used for rotating the first driven tooth, stamping components are fixedly arranged on the outer side surfaces of the upper stamping roller and the lower stamping roller respectively, each stamping component comprises a forward stamping die and a reverse stamping die, the forward stamping die is fixedly arranged on the outer side surface of the upper stamping roller, the reverse stamping die is fixedly arranged on the outer side surface of the lower stamping roller, and the forward stamping die corresponds to the reverse stamping die;

according to the technical scheme, the embossing method is different from a traditional pattern embossing method, the traditional embossing method is mostly planar embossing, namely, the aluminum magnesium alloy is directly embossed by using a hydraulic cylinder, if asymmetric patterns are required to be embossed, a coherent aluminum magnesium alloy plate cannot be obtained, and therefore, the patterns can be dislocated when the aluminum magnesium alloy plate is spliced, so that the attractiveness is greatly influenced;

further, the upper embossing roller and the lower embossing roller are respectively provided with a cross mounting groove, one end of each of the second driven gear and the driven gear mounting shaft is connected with a driven gear mounting shaft, and the driven gear mounting shafts are connected with the cross mounting grooves in a clamping manner;

a plurality of stamping die mounting holes which are centrosymmetric are formed in the two sides of the stamping assembly, stamping die bolts are arranged in the stamping die mounting holes and penetrate through the stamping die mounting holes and are fixedly connected with the stamping assembly;

through the technical scheme, the upper embossing roller and the lower embossing roller can be detached, so that later maintenance is facilitated, and meanwhile, the forward embossing die and the reverse embossing die can be replaced by detaching the embossing die bolts on the embossing die mounting holes, so that various patterns can be embossed conveniently, and the flexibility and the use range of the device are improved;

the conveying mechanism is used for conveying the aluminum magnesium alloy plate, a plurality of conveying rollers are arranged on the conveying mechanism, the conveying rollers are all rotatably arranged on the conveying mechanism, a lifting roller is rotatably arranged inside the feeding bottom plate and is rotatably connected with the conveying rollers through a belt, and the lifting roller is not contacted with the upper side face of the feeding bottom plate;

through the technical scheme, the aluminum magnesium alloy plate is prevented from being in different height states under the action of the rubber slope after being placed in the feeding mechanism, so that the aluminum magnesium alloy plate is convenient to incline and lay down, the use convenience is improved, the aluminum magnesium alloy plate is lifted upwards under the action of the lifting roller and is transported without being manually placed by workers, a large amount of manpower and material resources are saved, and the stamping efficiency is improved;

one end of the conveying mechanism, which is far away from the embossing mechanism, is provided with a feeding mechanism, the feeding mechanism comprises a feeding bottom plate and a feeding inclined plate, the angle range of the feeding bottom plate and the feeding inclined plate is 90-100 degrees, the feeding bottom plate and the feeding inclined plate are fixedly connected in a welding way,

the upper side surface of the feeding bottom plate is fixedly provided with the rubber slope, and the aluminum-magnesium alloy plate can be obliquely placed by the inclined feeding inclined plate and the rubber slope, wherein the included angle between the upper side surface of the rubber slope and the horizontal plane ranges from 10 degrees to 20 degrees, so that the aluminum-magnesium alloy plate is convenient to turn over, simple in structure and high in convenience;

the device comprises an aggregation mechanism, a pushing mechanism and a pushing mechanism, wherein the aggregation mechanism is used for collecting the aluminum-magnesium metal plate, the pushing mechanism is arranged inside the aggregation mechanism in a sliding mode and comprises a pushing plate and a buffer plate, a rubber lug is fixedly arranged at the upper end of the buffer plate and protrudes out of the outer side face of the buffer plate, and a plurality of uniformly distributed rubber bosses are arranged on the inner side face of the pushing mechanism;

a buffer spring is fixedly arranged in the pushing mechanism, one end of the buffer spring is fixedly connected with the pushing plate, and the other end of the buffer spring is fixedly connected with the buffer plate, so that a certain buffer effect is achieved, and the aluminum magnesium alloy plate is prevented from being damaged by extrusion;

through the technical scheme, after the aluminum magnesium alloy plate is stamped from the upper stamping roller and the lower stamping roller, the aluminum magnesium alloy plate slides into the collecting mechanism, and is pushed to one side of the collecting mechanism under the action of the pushing mechanism, and meanwhile, the rubber bumps on the buffer plate incline the aluminum magnesium alloy plate towards the same direction, so that the aluminum magnesium alloy plate is convenient to carry uniformly in the later period, and the use convenience is greatly improved;

one side surface of the pushing mechanism close to the driving gear is provided with symmetrically distributed connecting rod connectors, and the connecting rod connectors are rotatably connected with pushing connecting rods;

one side of the first driven tooth, which is far away from the central shaft, is fixedly provided with a pushing connecting rod rotating shaft, and one end of the pushing connecting rod, which is far away from the pushing plate, is rotatably connected with the pushing connecting rod rotating shaft;

one end of the driving gear is connected with a motor, the driving gear is used for rotating the first driven tooth, and the second driven tooth and the first driven tooth rotate relatively;

one end of the conveying roller is connected with a conveying belt pulley, and one end of the conveying belt pulley, which is close to the stamping mechanism, is rotationally connected with the driving gear through a belt;

through the technical scheme, the driving gear drives the first driven gear to rotate, the second driven gear rotates relative to the first driven gear to imprint the aluminum-magnesium alloy plate, meanwhile, the driving gear can also be rotatably connected with the conveying roller on the conveying mechanism through a belt, and the lifting roller in the feeding mechanism is also rotatably connected with the conveying roller through the belt;

meanwhile, the first driven teeth drive the pushing connecting rod to move in the rotating process, so that the pushing mechanism can be driven to slide in the collecting mechanism, only one driving motor is arranged in the whole device, the utilization rate of resources is greatly improved, and meanwhile, the synchronization in the embossing process can be realized, and the running efficiency of the whole device is improved;

preferably, an ash cleaning plate is arranged between the conveying roller and the stamping mechanism, a plurality of ash cleaning holes which are uniformly distributed are formed in the ash cleaning plate, and the bottoms of the ash cleaning holes are connected with an air pump through air guide pipes;

the fixed deashing subassembly that is provided with between the transfer roller, the fixed brush that is provided with on the deashing subassembly, the brush is used for clearing up the almag imprinter, and air pump and brush can carry out effectual clearance to the almag board to promote the quality that the almag board was impressed.

Preferably, the embossing mechanism, the conveying mechanism, the feeding mechanism and the collecting mechanism are arranged inside the device shell, the upper end of the device shell protrudes out of the upper side face of the conveying mechanism, a guide block is fixedly arranged on the device shell and used for correcting the transportation of the aluminum magnesium alloy, and the guide block corrects the aluminum magnesium alloy plate, so that irregular patterns caused by deflection are prevented, and the embossing quality is improved.

The embossing method of the embossing machine for the embossed aluminum magnesium alloy plate comprises the following steps:

the method comprises the following steps: firstly, preventing a pretreated aluminum magnesium alloy plate from being arranged on a rubber slope in a feeding mechanism, and then sequentially placing the aluminum magnesium alloy plate on a conveying mechanism according to the height of the aluminum magnesium alloy plate;

step two: the aluminum magnesium alloy is lifted up through the rubber slope on the conveying mechanism, the aluminum magnesium alloy is further conveyed through the conveying roller, and the surface of the aluminum magnesium alloy is cleaned while conveying;

step three: after entering between the upper embossing roller and the lower embossing roller, the aluminum magnesium alloy is embossed through a forward embossing die and a reverse embossing die;

step four: after the stamping is finished, the aluminum magnesium alloy slides into the collecting mechanism, and is pushed to one side of the collecting mechanism under the action of the pushing mechanism, and after the stamping is finished, the aluminum magnesium alloy is taken out.

The invention has at least the following beneficial effects:

1. the difference and traditional decorative pattern impression mode can deliver almag to the centre of impressing roller and impressing roller down through transport mechanism in proper order, at last impressing roller and impressing roller relative pivoted in-process down, and positive impression die and reverse impression die can extrude almag in succession, promote the efficiency of processing greatly, can guarantee the continuity of decorative pattern simultaneously.

2. Go up the impression roller and can dismantle with the impression roller down, make things convenient for the later stage to maintain and maintain, can change to positive impression die and reverse impression die through demolising the impression die bolt on the impression die mounting hole simultaneously to in the range of the various different decorative patterns of impression, hoisting device's flexibility and use.

3. After the aluminium magnesium alloy board embossing roll is followed and is pressed in the embossing roll under with, the inside of the mechanism that gathers materials of sliding to push away the aluminium magnesium alloy board to the one side of the mechanism that gathers materials under pushing mechanism's effect, the rubber bump on the buffer board inclines aluminium magnesium alloy board towards same direction simultaneously, and the later stage of being convenient for carries out unified transport, promotes the use convenience greatly.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a transmission structural diagram of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a view showing the structure of the imprinting mechanism of the present invention;

FIG. 4 is a block diagram of the imprinting assembly of the present invention;

FIG. 5 is a view of the push mechanism of the present invention;

fig. 6 is a top view of the present invention.

In the figure, 1-an embossing mechanism, 101-an upper embossing roller, 102-a lower embossing roller, 103-a cross mounting groove, 2-a conveying mechanism, 3-a feeding mechanism, 301-a feeding bottom plate, 302-a feeding inclined plate, 4-an aggregate mechanism, 5-a second driven tooth, 501-a driven tooth mounting shaft, 502-a first driven tooth, 503-a pushing connecting rod rotating shaft, 6-an embossing assembly, 601-a forward embossing mold, 602-a reverse embossing mold, 603-an embossing mold mounting hole, 604-an embossing mold bolt, 7-a pushing mechanism, 701-a pushing plate, 702-a buffer plate, 703-a rubber bump, 704-a connecting rod connector, 8-a buffer spring, 9-an ash removing plate, 901-an ash removing hole, 902-an air guide pipe and 10-a pushing connecting rod, 11-driving gear, 12-conveying roller, 13-conveying belt pulley, 14-lifting roller, 15-rubber slope, 16-rubber boss, 17-air pump, 18-ash cleaning component, 19-hair brush, 20-device shell and 21-guide block.

Detailed Description

Embodiments of the present application will be described in detail with reference to the drawings and examples, so that how to implement technical means to solve technical problems and achieve technical effects of the present application can be fully understood and implemented.

As shown in fig. 1 to 6, the embossing press for a patterned aluminum magnesium alloy plate according to the present embodiment includes:

the embossing mechanism 1, the embossing mechanism 1 comprises an upper embossing roller 101 and a lower embossing roller 102, one end of the upper embossing roller 101 is connected with a second driven tooth 5, one end of the lower embossing roller 102 is connected with a first driven tooth 502, the second driven tooth 5 is meshed with the first driven tooth 502, the first driven teeth 502 are used for rotating the second driven teeth 5, one side of the stamping mechanism 1 is provided with a driving gear 11, the driving gear 11 is meshed with the driven tooth mounting shaft 501, the driving gear 11 is used for rotating the first driven teeth 502, the outer side surfaces of the upper stamping roller 101 and the lower stamping roller 102 are both fixedly provided with stamping assemblies 6, each stamping assembly 6 comprises a forward stamping die 601 and a reverse stamping die 602, the forward stamping die 601 is fixedly arranged on the outer side surface of the upper stamping roller 101, the reverse stamping die 602 is fixedly arranged on the outer side surface of the lower stamping roller 102, and the forward stamping die 601 corresponds to the reverse stamping die 602;

the method is different from the traditional pattern embossing mode, most of the traditional embossing mode is plane embossing, namely, the aluminum magnesium alloy is directly embossed by using a hydraulic cylinder, if asymmetric patterns are required to be embossed, a coherent aluminum magnesium alloy plate cannot be obtained, and therefore, the patterns can be dislocated when the aluminum magnesium alloy plate is spliced, so that the attractiveness is greatly influenced;

further, the upper embossing roller 101 and the lower embossing roller 102 are both provided with a cross mounting groove 103, one end of the second driven tooth 5 and one end of the driven tooth mounting shaft 501 are both connected with a driven tooth mounting shaft 501, and the driven tooth mounting shaft 501 is connected with the cross mounting groove 103 in a clamping manner;

a plurality of stamping die mounting holes 603 which are centrosymmetric are formed in each of two sides of the stamping assembly 6, stamping die bolts 604 are arranged in the stamping die mounting holes 603, and the stamping die bolts 604 penetrate through the stamping die mounting holes 603 and are fixedly connected with the stamping assembly 6;

the upper embossing roller 101 and the lower embossing roller 102 can be detached, so that later maintenance and repair are facilitated, meanwhile, the forward embossing die 601 and the reverse embossing die 602 can be replaced by detaching the embossing die bolts 604 on the embossing die mounting holes 603, so that various patterns can be embossed conveniently, and the flexibility and the use range of the device are improved;

the conveying mechanism 2 is used for conveying the aluminum magnesium alloy plate, a plurality of conveying rollers 12 are arranged on the conveying mechanism 2, the plurality of conveying rollers 12 are all rotatably arranged on the conveying mechanism 2, a lifting roller 14 is rotatably arranged inside the feeding bottom plate 301, the lifting roller 14 is rotatably connected with the conveying rollers 12 through a belt, and the lifting roller 14 is not contacted with the upper side face of the feeding bottom plate 301;

the aluminum magnesium alloy plate is prevented from being in different height states under the action of the rubber slope 15 after being placed inside the feeding mechanism 3, so that the aluminum magnesium alloy plate is convenient to incline and lay down, the use convenience is improved, the aluminum magnesium alloy plate is lifted upwards under the action of the lifting roller 14 and is transported without being manually placed by workers, a large amount of manpower and material resources are saved, and the stamping efficiency is improved;

one end of the conveying mechanism 2, which is far away from the imprinting mechanism 1, is provided with a feeding mechanism 3, the feeding mechanism 3 comprises a feeding bottom plate 301 and a feeding inclined plate 302, the angle range of the feeding bottom plate 301 and the feeding inclined plate 302 is 90-100 degrees, the feeding bottom plate 301 and the feeding inclined plate 302 are fixedly connected in a welding mode,

the rubber slope 15 is fixedly arranged on the upper side surface of the feeding bottom plate 301, the feeding inclined plate 302 and the rubber slope 15, which are inclined at an included angle of 10-20 degrees between the upper side surface of the rubber slope 15 and the horizontal plane, can obliquely place the aluminum magnesium alloy plate, so that the aluminum magnesium alloy plate is convenient to turn over, and is simple in structure and high in convenience;

the collecting mechanism 4 is used for collecting the aluminum-magnesium metal plate, a pushing mechanism 7 is arranged inside the collecting mechanism 4 in a sliding mode, the pushing mechanism 7 comprises a pushing plate 701 and a buffer plate 702, a rubber bump 703 is fixedly arranged at the upper end of the buffer plate 702, the rubber bump 703 protrudes out of the outer side face of the buffer plate 702, and a plurality of uniformly distributed rubber bosses 16 are arranged on the inner side face of the pushing mechanism 7;

a buffer spring 8 is fixedly arranged in the pushing mechanism 7, one end of the buffer spring 8 is fixedly connected with the pushing plate 701, and the other end of the buffer spring 8 is fixedly connected with the buffer plate 702, so that a certain buffering effect is achieved, and the aluminum magnesium alloy plate is prevented from being extruded and damaged;

after the aluminum magnesium alloy plate is pressed and printed from the upper pressing roller 101 and the lower pressing roller 102, the aluminum magnesium alloy plate slides into the collecting mechanism 4, and is pushed to one side of the collecting mechanism 4 under the action of the pushing mechanism 7, and meanwhile, the rubber bumps 703 on the buffer plate 702 incline the aluminum magnesium alloy plate towards the same direction, so that the aluminum magnesium alloy plate is convenient to carry uniformly in the later period, and the use convenience is greatly improved;

one side surface of the pushing mechanism 7 close to the driving gear 11 is provided with symmetrically distributed connecting rod connectors 704, and the connecting rod connectors 704 are rotatably connected with pushing connecting rods 10;

a pushing connecting rod rotating shaft 503 is fixedly arranged on one side of the first driven tooth 502 away from the central shaft, and one end of the pushing connecting rod 10 away from the pushing plate 701 is rotatably connected with the pushing connecting rod rotating shaft 503;

one end of the driving gear 11 is connected with a motor, the driving gear 11 is used for rotating the first driven tooth 502, and the second driven tooth rotates relative to the first driven tooth 502;

one end of the conveying roller 12 is connected with a conveying belt pulley 13, and one end of the conveying belt pulley 13 close to the stamping mechanism 1 is rotationally connected with the driving gear 11 through a belt;

the driving gear 11 drives the first driven tooth 502 to rotate, the second driven tooth 5 rotates relative to the first driven tooth 502 to imprint the aluminum magnesium alloy plate, meanwhile, the driving gear 11 can also be rotatably connected with the conveying roller 12 on the conveying mechanism 2 through a belt, and the lifting roller 14 in the feeding mechanism 3 is also rotatably connected with the conveying roller 12 through the belt;

meanwhile, the first driven tooth 502 drives the pushing connecting rod 10 to move in the rotating process, so that the pushing mechanism 7 can be driven to slide in the material collecting mechanism 4, only one driving motor is arranged in the whole device, the utilization rate of resources is greatly improved, meanwhile, the synchronization in the stamping process can be realized, and the operation efficiency of the whole device is improved;

in the embodiment, as shown in fig. 1, an ash removing plate 9 is arranged between the conveying roller 12 and the stamping mechanism 1, a plurality of ash removing holes 901 which are uniformly distributed are formed in the ash removing plate 9, and the bottoms of the ash removing holes 901 are connected with an air pump 17 through an air duct 902;

fixed deashing subassembly 18 that is provided with between the transfer roller 12, the fixed brush 19 that is provided with on the deashing subassembly 18, brush 19 are used for clearing up the almag stamping press, and air pump 17 and brush 19 can carry out effectual clearance to the almag board to promote the quality that the almag board was impressed.

In the present embodiment, as shown in fig. 6, the embossing mechanism 1, the conveying mechanism 2, the feeding mechanism 3, and the collecting mechanism 4 are all disposed inside the apparatus casing 20, the upper end of the apparatus casing 20 protrudes from the upper side surface of the conveying mechanism 2, the apparatus casing 20 is fixedly provided with the guide block 21, the guide block 21 is used for correcting the transportation of the al-mg alloy, and the guide block 21 corrects the al-mg alloy plate to prevent uneven patterns caused by skew and improve the quality of embossing.

As shown in fig. 1 to 6, the embossing method of the embossing press for the patterned aluminum magnesium alloy plate provided by the present embodiment includes the following steps:

the method comprises the following steps: firstly, preventing a pretreated aluminum magnesium alloy plate from being arranged on a rubber slope 15 in the feeding mechanism 3, and then sequentially placing the aluminum magnesium alloy plate on the conveying mechanism 2 according to the height of the aluminum magnesium alloy plate;

step two: the aluminum magnesium alloy is lifted up through a rubber slope 15 on the conveying mechanism 2, the aluminum magnesium alloy is further conveyed through a conveying roller 12, and the surface of the aluminum magnesium alloy is cleaned while conveying;

step three: after entering between the upper embossing roller 101 and the lower embossing roller 102, the aluminum magnesium alloy is embossed through a forward embossing die 601 and a reverse embossing die 602;

step four: after the stamping is finished, the aluminum magnesium alloy slides into the collecting mechanism 4 and is pushed to one side of the collecting mechanism 4 under the action of the pushing mechanism 7, and after the stamping is finished, the aluminum magnesium alloy is taken out.

As used in the specification and in the claims, certain terms are used to refer to particular components. As one skilled in the art will appreciate, manufacturers may refer to a component by different names. This specification and claims do not intend to distinguish between components that differ in name but not function. In the following description and in the claims, the terms "include" and "comprise" are used in an open-ended fashion, and thus should be interpreted to mean "include, but not limited to. "substantially" means within an acceptable error range, and a person skilled in the art can solve the technical problem within a certain error range to achieve the technical effect basically.

It is noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a good or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such good or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of additional like elements in the article or system in which the element is included.

The foregoing description shows and describes several preferred embodiments of the invention, but as aforementioned, it is to be understood that the invention is not limited to the forms disclosed herein, but is not to be construed as excluding other embodiments and is capable of use in various other combinations, modifications, and environments and is capable of changes within the scope of the inventive concept as expressed herein, commensurate with the above teachings, or the skill or knowledge of the relevant art. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.